UMTRI 71196 - DTIC · 2011-05-13 · UMTRI 71196 FINAL REPORT BACK-UP .DATA. for TEMPORARY STAGING...
Transcript of UMTRI 71196 - DTIC · 2011-05-13 · UMTRI 71196 FINAL REPORT BACK-UP .DATA. for TEMPORARY STAGING...
UMTRI71196
FINAL REPORT
BACK-UP .DATA.for
TEMPORARY STAGINGfor
SHIPYARDS
SNAME Panel SP-BMarAd Task ES-8-15Under direction of
Industrial Engineering- Department Bethlehem Steel Corporation.Marine Construction.GroupSparrows Point,-Mtislmd
July, 1983
Report Documentation Page Form ApprovedOMB No. 0704-0188
Public reporting burden for the collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering andmaintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information,including suggestions for reducing this burden, to Washington Headquarters Services, Directorate for Information Operations and Reports, 1215 Jefferson Davis Highway, Suite 1204, ArlingtonVA 22202-4302. Respondents should be aware that notwithstanding any other provision of law, no person shall be subject to a penalty for failing to comply with a collection of information if itdoes not display a currently valid OMB control number.
1. REPORT DATE JUL 1983
2. REPORT TYPE N/A
3. DATES COVERED -
4. TITLE AND SUBTITLE Back-Up Data for Temporary Staging for Shipyards
5a. CONTRACT NUMBER
5b. GRANT NUMBER
5c. PROGRAM ELEMENT NUMBER
6. AUTHOR(S) 5d. PROJECT NUMBER
5e. TASK NUMBER
5f. WORK UNIT NUMBER
7. PERFORMING ORGANIZATION NAME(S) AND ADDRESS(ES) Naval Surface Warfare Center CD Code 2230 - Design Integration ToolsBuilding 192 Room 128 9500 MacArthur Bldg Bethesda, MD 20817-5700
8. PERFORMING ORGANIZATIONREPORT NUMBER
9. SPONSORING/MONITORING AGENCY NAME(S) AND ADDRESS(ES) 10. SPONSOR/MONITOR’S ACRONYM(S)
11. SPONSOR/MONITOR’S REPORT NUMBER(S)
12. DISTRIBUTION/AVAILABILITY STATEMENT Approved for public release, distribution unlimited
13. SUPPLEMENTARY NOTES
14. ABSTRACT
15. SUBJECT TERMS
16. SECURITY CLASSIFICATION OF: 17. LIMITATION OF ABSTRACT
SAR
18. NUMBEROF PAGES
510
19a. NAME OFRESPONSIBLE PERSON
a. REPORT unclassified
b. ABSTRACT unclassified
c. THIS PAGE unclassified
Standard Form 298 (Rev. 8-98) Prescribed by ANSI Std Z39-18
FINAL REPORT
BACK-UP DATAfor
TEMPORARY STAGINGfor
SHIPYARDS
SNAME Panel SP-8HarAd Task ES-8-I5Under direction ofH.B. Maynard & Co.
Transportation
Research Institute
Industrial Engineering- DeparatmentBethlehem Steel Corporation:Marine Construction GroupSparrous Poit;-Maryland
July, 1983
UMTRI71196
SECTION11.122.1
3
44.1
4.2
4.3
FINAL REPORTSCOPEJOB LAYOUT -WORK AREASCENTER TANKWING TANKTANK STAGING
INDEX
TITLE.- BACK UP DATA
WORK AREAS
PLATFORMEXTERIOR SHELLPIPE STAGINGMANUAL METHODSCENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGINGSTANDARD TIME CALCULATIONTITLE SHEETSCENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGINGHOW TO CALCULATE TIME STANDARDSCENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGINGMANNING AND CREW SIZECENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGING
UMTRI71196
PAGE #112 - 7 72 - 772 - 1 4
15 - 2324 - 5960 - 6566 - 7778 - 17178 - 9899- 121122 - 144145 - 155 156 - 171172 - 337.172 - 190172 - 175176 - 180181 - 183l84 - 187188 - 190190 - 336190 -233234 _ 277278 -304 305 - 314315 - 326327327 -
327327327327
INDEX
5.2
SUMMARYCENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGINGSYNTHESIS AND ANALYSISCENTER TANKWING TANKTANK STAGING PLATFORMEXTERIOR SHELLPIPE STAGING
PAGE #328 - 504328 - 392328 - 342343 - 359360 - 372373 - 379380 - 392393 - 506393 - 418419 - 445446 - 473474 - 486487 - 506
SECTION 1FINAL REPORT - BACK-UP DATA
1.1 SCOPE
This manual covers the back-up data necessary. for the final report.on.temporary staging. Areas included are (1). center tanks (2) wing tanks, (3) tank staging platform, (4) exterior shell, and (5) pipe staging.
SECTION 2JOB LAYOUT - WORK AREAS
2.1 WORK AREAS
Name------------
WORKPLACES:BRKT-1BRKT-2BULKHEADTANKTOPCR- 1BIN-1BIN-2LU-PILEHR-PILELDR-PILE
TOOLS:WRENCH-1HAMMER-1STEEL-TAPE-1
OBJECTS:
Location Body/Frag/PT------------ -------------
20,1550,150,200,00,015,015,325,040,055,0
C A R P - 1 CARP-1CARP-1
0,50,571,071,2110,56,26,210,210,210,2
BENDBENDBENDBENDBEND
JOB LAYOUT - WORK AREAS
BRKTSTANBOARDSHANDRAILLADRNUTBOLTSCLIPLCLIP
EQUIPMENT: CRANE
OPERATORS:CARP-1CARP-2 CARP-3C-OPER
CARRIERS:TOOLBOX-I TOOLBOX-1TOOLBOX-2TOOLBOX-2
From
BRKT-1ERKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1RRKT-1BRKT-1EIRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BULKHEAD
BIN-1BIN-2LU-PILEHR-PILELDR-PILE TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
CR-1
TANKTOPTANKTOPBIN-1CR-1
BIN-1BIN-1BULKHEADBULKHEAD
To------------
BRKT-2BULKHEADTANKTOPCR-1BIN-1BIN-2LU-PILEHR-PILELDR-PILEBULKHEADTANKTOPCR-1BIN-1BIN-2LU-PILEHR-PILELDR-PILETANKTOP
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
80P
25,1545,1512,1 B5,1
12,312,335,1935,19
Steps
70011
. 1113171424001111131714240
BULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPCR-1CR-1CR-1CR-1CR-1BIN-1BIN-1BIN-1BIN-1BIN-2BIN-2BIN-2LU-PILELU-PILEHR-PILE
JOB LAYOUT - WORK AREAS
CR-1BIN-1BIN-2LU-PILEHR-PILE LDR-PILECR-1BIN-1BIN-2LU-PILEHR-PILELDR-PILEBIN-1BIN-2LU-PILEHR-PILELDR-PILEBIN-2LU-FILEHR-PILELDR-PILELU-PILEHR-PILELDR-PILEHR-PILELDR-PILELDR-PILE
l113171424000000
108
1812177
151524211917103528
PAGE 4
WORKPLACES:BRKT-1BRKT-2BULKHEADTANKTOPCR-1BIN-1BIN-2LU-PILEHR-PILELDR-PILELDR
TOOLS:WRENCH-IHAMMER-1STEEL-TAFE-1PLIER-1
20,1550,150,200,00,015,015,325,040,055,022,20
CARP-1CARP-1CARP-1CARP-1
0,50,571,071,2110,56,26,210,210,210,20,0
BENDBENDBENDBENDBEND
OBJECTS:
PAGE5
JOB LAYOUT - WORK AREAS
BRKTSTANBOARDSHANDRAILLADRNUTBOLTSCLIPLCLIPMIRE-ROPE
EQUIPMENT:CRANE
OPERATORS:CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From------------
BRKT-1BRKT-1BRKT-1BRKT-1 BRKT-1RRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-2RRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2
BIN-1BIN-2LU-PILEHR-PILELDR-PILETOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2TOOLBOX-2
CR-1
TANKTOPTANKTOPBIN-1CR-1
BIN-1BIN-1BULKHEADBULKHEAD
To------------
BRKT-2BULKHEADTANKTOPCR-1 BIN-1BIN-2LU-PILEHR-PILELDR-PILELDRBULKHEADTANKTOPCR-1BIN-1BIN-2LU-PILE HR-PILE
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
80P
25,1545,1512,1 B 5,1
12,312,335,1935,19
Steps---------
700111113171424
100
1111131714
JOB LAYOUT - WORK AREAS
BRKT-2BRKT-2BULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOFCR-1CR-1CR-1CR-1CR-1CR-1 BIN-1BIN-IBIN-1BIN-1BIN-1BIN-2BIN-2BIN-2BIN-2LU-PILELU-PILE LU-PILEHR-PILEHR-PILELDR-PILE
LDR-PILELDRTANKTOPCR-1BIN-IBIN-2LU-PILEHR-PILELDR-PILELDRCR-1BIN-1BIN-2LU-PILEHR-PILELDR-PILELDRBIN-1BIN-2LU-PILEHR-PILELDR-PILELDRBIN-2LU-PILEHR-PILELDR-PILELDRLU-PILEHR-PILELDR-PILELDRH R - P I L E LDR-PILELDRLDR-PILELDRLDR
24
611111317142400000000108181217117
1515241121191713103517281424
PAGE 7
JOB LAYOUT - WORK AREAS
WORKPLACES:BRKT-1BRKT-2BULKHEADTANKTOPBRKT-PILEHATL-PILEBD-PILELDR-PILEBTRUTHKENHOLELDR
TOOLS:WRENCH-1PLIER-1
20,1550,150,200,00,1815,530,545,530,165,1022,20
CARP-1CARP-1
0,50,571,071,2110,210,310,310,310,310,50,0
BENDBENDBENDBEND
OBJECTS:BRKTBOARD
BULKHEADBULKHEAD
FRAGFRAG
PAGE 8
STANHANDRAILLADRNUTBOLTLCLIPHIRE-ROPETORCHCABLE
JOB LAYOUT - WORK AREAS
EQUIPMENT:WINCH-FREEWINCH-UPWINCH-DOWN
OPERATORS:CARP-1CARP-2CARP-3WINCH-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1
From------------
BRKT-1BRKT-1BRKT-1RRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-2BRKT-2BRKT-2BRKT-2.BRKT-2BRKT-2BRKT-2BRKT-2
BULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBTRWTH
BTFWTHBTRWTHBTRUTH
BULKHEAD BULKHEADMATL-PILEBTRWTH
MATL-PILEMATL-PILE
To------------
BRKT-2BULKHEADTANKTOPBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRWTHMENHOLELDRBULKHEADTANKTOPBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRUTHMENHOLE
PAGE 9
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
0.38 M1,5 M
0.5 M
25,15 45,1510,635,18
10,810,8
steps-------
700700000100
1400000
JOB LAYOUT - WORK AREAS
BRKT-2RULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPBRKT-PILEBRKT-PILEBRKT-PILEBRKT-PILEBRKT-PILEBRKT-PILEMATL-PILEMATL-PILEMATL-PILEMATL-PILEMATL-PILEBD-PILEBD-PILEBD-PILEBD-PILEL D R - P I L E LDR-PILELDR-PILEBTRWTHBTRWTHMENHOLE
LDRTANKTOPBRKT-PILEMATL-PILEBD-PILELDM-PILEBTRWTHMENHOLELDRBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRWTHMENHOLELDRMATL-PILEBD-PILELDR-PILEBTRUTHMENHOLELDR BD-PILELDR-PILEBTRUTHMENHOLELDRLDR-PILEBTRUTHMENHOLELDRBTRWTHMENHOLELDRMENHOLELDR
LDR
60000000000000000000008160008000000000
PAGE 10
W O R K P L A C E S : BRKT-1BRKT-2BULKHEADTANKTOPBRKT-FILEMATL-PILEBD-PILELDR-PILEBTRWTHMENHOLELDR
TOOLS:WRENCH-1PLIER-1
20,1550,150,200,00,1815,530,545,530,165,1022,20
CARP-1CARP-1
0,50,571,071,2110,210,310,310,310,310,50,0
BENDBENDBENDBEND
OBJECTS:BRKTBOARD
BULKHEADBULKHEAD
FRAGFRAG
PAGE 11
JOB LAYOUT - WORK AREAS
STANMANDRAILLADRNUTBOLTLCLIPWIRE-ROPETORCHCABLE
EQUIPHENT:WINCH-FREEWINCH-UPWINCH-DOWN
OPERATORS:CARP-1CARP-2CARP-3WINCH-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1
From------------
BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-IRRKT-1BRKT-1BRKT-1BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2RRKT-2
BULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBTRUTH
MENHOLEMNENHOLEMENHOLE
BULKHEADBULKHEAD HATL-FILEMENHOLE
HATL-PILEHATL-PILE
T o------------
BRKT-2BULKHEADTANKTOPBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRWTHMENHOLE LDRBULKHEADTANKTOPBRKT-PILEMATL-PILEBD-PILELDR-PILEB T R U T H MENHOLE
FRAGFRAGFRAGFRAGF R A G FRAGFRAG
FRAG
25,15 B45,1510,610,14
10,810,8
Steps---------
700700000100
1400000
JOB LAYOUT - WORK AREAS
BRKT-2BULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEAIITANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPTANKTOPBRKT-PILEBRKT-PXLEBRKT-PILEBRKT-PILEBRKT-PILEBRKT-PILEMATL-PILEMATL-PILEMATL-PILEMATL-PILEMATL-PILEBD-PILEBD-PILEBD-PILEBD-PILELDR-PILELDR-PILELDR-PILEBTRWTHBTRWTHMENHOLE
LDRTANKTOPBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRUTHMENHOLELDRBRKT-PILEMATL-PILEBD-PILELDR-PILEBTRWTHMENHOLELDRMATL-PILEBD-PILELDR-PILEBTRUTHMENHOLELDRBD-PILELDR-PILEBTRUTHMENHOLELDRLDR-PILEBTRWTHMENHOLELDRBTRUTHMENHOLELDRMENHOLELDRLDR
60000000000000000000008160008000000000
PAGE 13
JOB LAYOUT - WORK AREAS
Name Location Beds/Frag/FT------------ ------------ -------------
WORKPLACES :LEVEL-1 0,8 71,0LEVEL-2 0,18 71,0STAIRS 0,12 5,0BULKHEAD 0,0 71,21
OPERATORS:CARP-1 LEVEL-1CARP-2 LEVEL-I
From
LEVEL-1L E V E L - 1 LEVEL-1LEVEL-2LEVEL-2STAIRS
To------------
LEVEL-2STAIRSBULKHEADSTAIRSBULKHEADBULKHEAD
5,9 B7,9
Steps---------
1600000
PAGE 14
PLIER-1
OBJECTS:BRKTSTANBOARDHANDRAILLADRNUTBOLTSCLIPLCLIPWIREROPE
EQUIPMENT:CRANE
OPERATORS:CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From------------
BASINBASINBASINBASINBASINBASINBASINBASINBASINBASINBASINBASINBASINROAD
JOB LAYOUT - WORK AREAS
CARP-1
BIN-1BIN-2LU-PILEHR-PILELDR-PILETOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2TOOLBOX-2
CR-1
WING-TANKWING-TANKBIN-1CR-1
BIN-1BIN-1BULKHEADBULKHEAD
To
ROADTYPICALWING-TANKBULKHEADCR-1BRKT-1BRKT-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILETYPICAL
FRAGFRAGFRAGFRAGFRAG FRAGFRAGFRAGFRAGFRAG
01P
25,1045,1012,1 B5,1
12,312,335,835,8
Steps---------
0 0000000000000
JOB LAYOUT - WORK AREAS
ROADROADROADROAD ROADROADROADROADROADROADROADTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALMING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADBULKHEADCR-1CR-1CR-1CR- 1CR-1CR-1
WING-TANKBULKHEADCR-1BRKT-1BRKT-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEWING-TANKBULKHEADCR-1BRKT-1BRKT-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEB U L K H E A DCR-1BRKT-1BRKT-2LDRBIN-IBIN-2LU-PILEHR-PILELDR-PILECR-1BRKT-1BRKT-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEBRKT-1BRKT-2LDRBIN-IBIN-2LU-PILE
o000000000000000000000000000000
160000
8080808080160160160 160160160
CR-1CR-1BRKT-1BRKT-1BRKT-1RRKT-1BRKT-1BRKT-1BRKT-1BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2BRKT-2LDRLDRLDRLDRLDRBIN-1BIN-1BIN-1BIN-1BIN-2BIN-2BIN-2LU-PILELU-PILEHR-PILE
JOB LAYOUT - WORK AREAS
HR-PILELDR-PILEBRKT-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILELDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEBIN-1BIN-2LU-PILEHR-PILELDR-PILEBIN-2LU-PILEHR-PILELDR-PILELU-PILEHR-PILELDR-PILEHR-PILELDR-PILELDR-PILE
160160
71
80808080806
808080808080808080808162432816248
168
JOB LAYOUT - WORK AREAS
Name------- -----
WORKPLACES:BASINROADTYPICALWING-TANKIB-BHD OB-MDAFT-BHDFWD-BHDCR-1WEB-1WEB-2LDRBIN-IBIN-2LU-PILEHR-PILELDR-PILE
TOOLS:
Location------------
0,70,435,111,71,131,769,71,70,020,750,722,715,023,032,045,060,0
71,1471,20,069,669,069,01,61,610,40,50,50,06,26,210,210,210,2
Body/Frag/----------
BENDBENDBENDBENDBEND
PAGE 19
JOB LAYOUT - WORK AREAS
WRENCH-1HAMMER-1STEEL-TAPE-1PLIERS-1
OBJECTS:BRKTSTANBOARDHANDRAILLADRNUTBOLTSCLIPLCLIPWIREROPE
EQUIPMENT:CRANE
OPERATORS:CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From
BASINBASINBASINBASINBASINBASINBASINBASINBASINBASINBASIN
CARP-1CARP-1CARP-1CARP-1
BIN-1BIN-2LU-PILEHR-PILELDR-PILETOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2TOOLBOX-2
CR-1
WING-TANKWING-TANKBIN-1CR-1
BIN-1BIN-1OB-BHDOB-BHD
To------------
ROADTYPICALUING-TANKIB-BHDOB-BHDAFT-BHDFWD-BHllCR-1WEB-1WEB-2LDR
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
01P
25,1045,1012,1 B5,1
12,312,335,835,8
Steps---------
00000000000
PAGE 20
JOB LAYOUT - WORK AREAS
BASINBASINBASINBASINBASINROAD
ROADROADROADROADROADROADROADROADROADROADROADROADROAD ROADTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALWING-TANKWING-TANKWING-TANKWING-TANNWING-TANKWING-TANKWNG-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANKWING-TANK
BIN-1BIN-2LU-PILEHR-PILELDR-PILETYPICALWING-TANKIB-RHDOB-BHDAFT-BHDFWD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEWING-TANKIB-BHDOB-BHDAFT-BHDFUD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEIB-BHDOB-BHDAFT-BHIIFWD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILE
PAGE 21
00000000000000000000000000000000000000
000000000
JOB LAYOUT - WORK AREAS
IB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDIB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDOB-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHD
AFT-BHDAFT-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDCR-1CR-1CR-1CR-1CR-1
OB-BHDAFT-BHIIFUD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEAFT-BHDFWD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-FILEFWD-BHDCR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILECR-1WEB-1WEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILEWEB-1WEB-2LDRBIN-1BIN-2
12
0160
0008 0 8080808000
160000
808080808040
160000
8080808080160
0008080808080
160160160160160
JOB LAYOUT - WORK AREAS
CR-1CR-1CR-1WEB-1WEB-1WEB-1WEB-1WEB-1WEB-1WEB-1WEB-2WEB-2WEB-2WEB-2WEB-2WEB-2LDRLDRLDRLDRLDRBIN-1BIN-1BIN-1BIN-lBIN-2BIN-2BIN-2LU-PILELU-PILEHR-PILE
LU-PILEHR-PILELDR-PILEWEB-2LDRBIN-1BIN-2LU-PILEHR-PILELDR-PILELDRBIN-1 BIN-2LU-PILEHR-PILELDR-PILEBIN-1BIN-2LU-PILEHR-PILELDR-PILEBIN-2LU-PILEHR-PILELDR-PILELU-PILEHR-PILELDR-PILEHR-PILELDR-PILELDR-PILE
160160160
718080808080 6808080808080808080808
1624328
16248168
JOB LAYOUT - WORK AREAS
CR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FT
TOOLS:BROOMWRENCHHAMIERSTEEL-TAPEMARKERPRINT
OBJECTS:PALLETSBINS ANGLESI-BEAMBOARDSFIN-PLATFORMNUTSBOLTSMASHERSBLOCKS
EQUIPMENT:CRANE-1CRANE-2
OPERATORS:CARP-1CARP-2HOOKER-ON
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From------------
0,0 10,260,0 10,235,0 0,00,19 0,00,18 0 , 0 0,17 0,0
STORE-2CARP-1CARP-1CARP-1CARP-1CARP-1
STORE-1STORE-1STORE-2STORE-2LUMBER-PILETANK-STAGING-PLATFORMTOOLBOX-1TOOLBOX-1TOOLBOX-1TOOLBOX-2
CR-1CR-2
I-6I-6CR-1
I-1I-1LUMBER-PILELUMBER-PILE
To------ ------
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
01P01P
10,1O10,1065,1365,13
Steps-------
I-1 I-2
PAGE 25
I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I - 1 I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2
I-3I-3I-3I-3I-3
JOB LAYOUT - WORK AREAS
I -3I - 4I-5I-6A - 1 A-2A-3
A-4A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-x-20-FTI-3I-4I-5I-6A-1A-2A-3A-4I-7A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILE
CR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTI-4I-5I-6A-1A-2
468000000000
1600000000?46000000000160000000024000
PAGE 26
JOB LAYOUT - WORK AREAS
I-3I-3I-3I-3I-3I-3I-3I -3I-3I-3I-3I-3I -3I-3I-3I-4I-4I-4I-4I -4I-4I -4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-5I-5I-SI-5I-5I-5I-SI-5I-5I-5I-5I-5I-5
A-3A-4I-7A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTI-5I-6A-1A-2A-3A-4I-7A-56-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-x-20-FTI-6A-1A-2A-3A-4I-7A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1
000000
16000000002000000000160000000000000000016000
PAGE 27
JOB LAYOUT - WORK AREAS
I - 5I-5I-5I-5
I-5I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6A-lA-1A-1A-1A-1A-1A-1A-1A-1A-1A-lA-1A-1A-1A-1A-1A-2A-2A-2A-2A-2A-2A-2A-2A-2
CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTA-1A-2A-3A-4I-7A-SA-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTA-2A-3A-4I -7A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTA-3A-4I-74-5A-6STORE-1STORE-2FIN-PILELUMBER-PILE
000004668111220300000000022478602700000000
16291080
2500
PAGE 28
JOB LAYOUT - WORK AREAS
A-2A-2A-2A-2A-2A-2A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4I -7I-7I-7I-7I-7I-7I-7I-7I-7I-7I-7I-7A-5A-5
CR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTA-4I -7A-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTI-7A-SA-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTA-5A-6STORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-x-20-FTA-6STORE-1
00000029
1080250000000034
100
24000000001
130
210
140
180000140
PAGE 29
JOB LAYOUT - WORK AREAS
A-5A - 5A-5A-5A-5A-5A-5A-5A-5A-5A-6A-6A-6A-6A-6A-6A-6A-6A-6STORE-1STORE-1STORE-1STORE-lSTORE-1STORE-1STORE-1STORE-1STORE-1STORE-2STORE-2STORE-2STORE-2STORE-2STORE-2STORE-2STORE-2FIN-PILEFIN-PILEFIN-PILEFIN-PILEFIN-PILEFIN-PILEFIN-PILELUMBER-PILELUMBER-PILELUMBER-PILELUMBER-PILE
STORE-2FIN-PILELUHBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTSTORE-1STORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTSTORE-2FIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTFIN-PILELUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTLUMBER-PILECR-1CR-2TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCR-1cR-2TANK-STAGING-PLATFORMTYPICAL
18000000000
320000 00006000
350000000
1301191600000
97220000
50119
0
JOB LAYOUT - WORK AREAS
LUHBER-PILELUMBER-PILECR-1CR-1CR-ICR-1CR-1CR-2CR-2CR-2CR-2TANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTYPICALTYPICALPLATFORM
PLATFORM35-X-20-FTCR-2TANK-STAGING-PLATFORHTYPICALPLATFORM35-X-20-FTTANK-STAGING-PLATFORMTYPICAlPLATFORM35-X-20-FTTYPICALPLATFORM35-X-20-FTPLATFORM35-X-20-FT3S-X-20-FT
0000000
119000000000
BOLT
OPERATORS:CARP-1CARP-2CARP-3CARP-4
CARRIERS:TOOLBOX-1TOOLBOX-1
From------ ------
TYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMBTRUTH1BTRUTH1BTRUTH1BTRWTH1BTRWTHlBTRWTH1BTRWTHIBTRWTH1BTRWTH1BTRWTH2
JOB LAYOUT - WORK AREAS
TOOLBOX-1
CENTER-TANKCENTER-TANKMENWOLEMENHOLE
PLATFORMPLATFORM
To------------
PLATFORMBTRWTHlBTRWTH2BTRWTH3BTRWTH4MENHOLECENTER-TANKAFT-BHIIFWD-BHDPORT-BHDSTAR-BHDBTRWTH1BTRUTH2BTRWTH3BTRUTH4MENHOLECENTER-TANKAFT-BHDFWD-BHDPORT-BHDSTAR-BHUBTRWTH2BTRUTH3BTRWTH4MENHOLECENTER-TANKAFT-EHDFWD-BHDPORT-BHDSTAR-BHDBTRUTH3
FRAG
20,1020,10
Steps---------
0000000000000000000009
1114500000
14
PAGE 33
JOB LAYOUT - WORK AREAS
BTRUTH2RTRWTH2BTRWTH2BTRblTH2BTRUTH2BTRWTH2BTRWTH2BTRWTH3BTRUTH3BTRWTH3BTRWTH3BTRWTH3BTWTH3BTRWTH3BTWTH4BTRWTH4BTRWTH4BTRWTH4BTRWTH4BTRWTH4MENHOLEMENHOLEMENHOLEMENHOLEMENHOLECENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANK AFT-BHRAFT-BHDAFT-BHDFWD-BHKIFWD-BHDPORT-BHD
BTRWTH4MENHOLECENTER-TANKAFT-BHDFWD-BHDPORT-BHDSTAR-BHDBTRWTH4MENHOLECENTER-TANKAFT-BHDFWD-BHDPORT-BHDSTAR-BHDMENHOLECENTER-TANKAFT-BHDFWD-BHDPORT-BHDSTAR-BHCENTER-TANKD A F T - R H D FWD-BHDPORT-BHDSTAR-BHDAFT-BHDFWD-BHDPORT-BHDSTAR-BHDFWD-BHDPORT-BHDSTAR-BHDPORT-BHDSTAR-BHDSTAR-BHD
119000009
1300000
1600000000000000000000
PAGE 34
From------------
BASINBASINBASINRASINBASINBASINSHIPSHIPSHIPSHIPSHIPROADROADROADROADTYPICALTYPICALTYPICALTANKTANKS-7
JOB LAYOUT - WORK AREAS
To
SHIPROADTYPICALTANKS-7CR-1ROADTYPICALTANKS-7CR-1TYPICALTANKS-7CR-ITANKS-7CR-1S-7CR-1CR-1
Stetps
o0000000000000 -0000
80160160
PAGE 36
JOB LAYOUT - WORK AREAS
TOOLS: WRENCHHAMHER
OBJECTS:ANGLESI-BEAMSBOARDSFIN-PLATFORMNUTSBOLTSWASHERSBLOCKS
OPERATORS:CARP-1CARP-2
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From
CARP-1 CARP-1
TANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTOOLBOX-1TOOLBOX-1TOOLBOX-1TOOLBOX-2
I-1I-6
I-11-1I-5I-5
To
I-1I-1I-1I-1I-1I-1I-1I-11-1I-1I-1I-11-1I-1I-1I-11-1I-1
I-2I-3I-4I - 5 I-6A-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOP
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
4910 B7,10
10,1010,1052,1152,11
Steps---------
246800000000000000
PAGE 38
JOB LAYOUT - WORK AREAS
I-2I-2I-2I-2I-2I-2I-2I-2I-2I -2I-2I-2I-2I-2 I-2I -2 I_2I-3I-3I-3I-3I -3I-3I-3I-3I-3I-3I-3I-3I-3I -3I-3I-3I -4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4
I-3I-4I-5I-6A-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPI-4I-5I-6A-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPI-5I-6A-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICAL PLATFORM35-X-20-FTCENTER-TANK
246o0000000000000240000000000000020000000000000
JOB LAYOUT - WORK AREAS
I-4I-5I-5I-5I-5I-5I-5I-5I-5I-5I-5I-5I-5I-5I-5I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-2A-2A-2A-2A-2A-2 A-2
TANK-TOPI-6A - 1 A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPA-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPA-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPA-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICAL
000000000000000466811122000000224786000000
162910800
PAGE 40
JOB LAYOUT - WORK AREAS
A-2A-2A-2A-2A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-4A-4A-4A-4A-4A-4A-4A-4A-4I-7I-7I-7I-7I-7I-7I-7I-7A-5A-5A-5A-5A-5A-5A-5A-6A-6A-6A-6A-6A-6TANK-STAGING-PLATFORMTANK-STAGING-FLATFORHTANK-STAGING-PLATFORM
PLATFORM35-X-20-FTCENTER-TANKTANK-TOPA-41-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPI-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOP A - 5 A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPA-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPTANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTcENTER-TANKTANK-TOPTYPICALPLATFORM35-x-20-FT
000029
10800000034
100000001
1300000014000000000000000
JOB LAYOUT - WORK AREAS
TANK-STAGING-PLATFORMTANK-STAGING-PLATFORMTYPICALTYPICALTYPICALTYPICALFLATFORMPLATFORMPLATFORM35-X-20-FT35-X-20-FTCENTER-TANK
CENTER-TANKTANK-TOPPLATFORM35-X-20-FTC E N T E R - T A N KTANK-TOP35-X-20-FTCENTER-TANKTANK-TOPCENTER-TANKTANK-TOPTANK-TOP
000000
000000
JOB LAYOUT - WORK AREAS
MENHOLEAFT-BHDFWD-BHDLUMBER-PILE
OBJECTS:ANGLESI-BEAMSBOARDSCABLE
EQUIPMENT:WINCH-UFWINCH-DOWNWINCH-FREE
OPERATORS:CARP-1CARP-2CARP-3WINCH-OPER
From------------
I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1I-1
0,15 12,60,0 1,2070,0 1,202,12 10,2
TANK-STAGING-PLATFORMTANK-STAGING-PLATFORtfTANK-STAGING-PLATFORMMENHOLE
MENHOLEMENHOLEMENHOLE
I-5I-5LUMBER-PILEMENHOLE
To------ ------
I-2I -3I -4I -5I-6A-1A-2A-3A-4I -7A - 5 A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPHENHOLEAFT-BHDFWD-BHD
FRAGFRAGFRAGFRAG
1,5 M0,5 M0,38 M
52,10 B52,128,116,19
Steps---------
246800000000000000000
JOB LAYOUT - WORK AREAS
I-1I -2I-2I-2I-2I -2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I-2I -2I-2I-2I-3I-3I-3I -3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I-3I -3I-4I-4I-4I-4I-4
LUMBER-PILEI-3I-41-5I-6A-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-RHDFWD-BHDLUMBER-PILEI-4I-5I-6A-1A-2A-3A-4I -7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTcENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILEI -5I-6A-1A-2A-3
42460000000000000000062400000000000000000820000
PAGE 45
JOB LAYOUT - WORK AREAS
I-4I-4I-4I-4I-4I-4I-4I-4I-4I-4I-41-4I-4I-4I-5I-5I-5I-5I-SI-5I-5I-5I-5I-5I-5I-5I-5
I-5I-5I-5I-51-5I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6I-6
A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHIILUMBER-PILEI-6A-1A-2A-3A-4I -7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLE AFT-BHDFWD-BHDLUMBER-PILEA-1A-2A-3A-4I-7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHD
00000000000001000000000000000000124668
1112200000000
JOB LAYOUT - WORK AREAS
I-6I-6A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-1A-2A-2A-2A-2A-2A-2A-2A-2A-2A-2A-2A-2A-2A-2A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3A-3
FWD-BHDLUMBER-PILEA-2A-3A-4I-7A-5A-6
TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILEA-3A - 4 I-7A-SA-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-RHDLUHMER-PILEA-4I -7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDlFWD-RHDLUMBER-PILE
002247860000000000
16291080000000000291080000000000
PAGE 47
JOB LAYOUT - WORK AREAS
A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4A-4I-7I-7I-7I-7I-7I-7I-7I-7I-7I-7I-7I-7A-5A-5A-5A-5A-5A-5A-5A-5A-5A-5A-5A-6A-6A-6A-6A-6A-6A-6A-6A-6A-6TANK-STAGING-PLATFORH
I -7A-5A-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILEA-SA-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILEA-6TANK-STAGING-PLATFORMTYPICALPLATFORM35-X-20-FTCENTER-TANKTANK-TOP MENHOLEAFT-BHDFWD-BHDLUMBER-PILETANK-STAGING-PLATFORMTYPICALP L A T F O R M35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILETYPICAL
34
1000000000001
13000000000014000000000000000000000
JOB LAYOUT - WORK AREAS
TANK-STAGING-PLATFORMTANK-STAGING-PLATFORHTANK-STAGING-PLATFORMTANK-STAGING-PLATFORllTANK-STAGING-F’LATFORHTANK-STAGING-PLATFORHTANK-STAGING-F’LATFORHTANK-STAGING-PLATFORMTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORM .PLATFORM35-X-20-FT35-X-20-FT35-X-20-FT35-X-20-FT35-X-20-FT35-X-20-FTCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKTANK-TOPTANK-TOPTANK-TOPTANK-TOPMENHOLEMENHOLEMENHOLEAFT-BHDAFT-BHllFWD-BHD
PLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHBFWD-BHDLUMBER-PILEPLATFORM35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILE35-X-20-FTCENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILECENTER-TANKTANK-TOPMENHOLEAFT-BHDFWD-BHDLUMBER-PILETANK-TOPMENHOLEAFT-BHDFUD-BHD LUMBER-PILEMENHOLEAFT-BHDFWD-BHDLUMBER-PILEAFT-BHDFWD-BHDLUMBER-PILEFWD-BHDLUMBER-PILELUMBER-PILE
00000000000000000000000000000000000000000000
STANCHIONHANDRAILNAILS
EQUIPMENT:TORCH
OPERATORS:CARP-1CARP-2CARP-3
CARRIERS:TOOLBOX-1TOOLBOX-l
From------------
TYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMPLATFORMSTAR-BHDSTAR-BHDSTAR-BHD
JOB LAYOUT - WORK AREAS
STAR-BHDSTAR-BHDTOOLBOX-1
PLATFORM
PLATFORMPLATFORMPLATFORM
PLATFORMPLATFORM
To------ ------
cENTER-TANKPLATFORMS T A R - B H DPORT-BHDAFT-BHDFWD-RHDLADBRKT-1BRKT-2PLATFORMSTAR-BHDPORT-BHDAFT-BHDFWD-BHDLADBRKT-1BRKT-2STAR-BHDPORT-BHUAFT-BHDFWD-BHDLADBRKT-1BRKT-2PORT-BHDAFT-BHDFWD-BHD
FRAGFRAGFRAG
1 M
15,1220,1225,12
Steps------ -
00000000000000000
10100
13101010000
PAGE 51
STAR-BHDSTAR-BHDSTAR-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDFWD-BHDFWD-BHDFWD-BHDLADLADBRKT-1
JOB LAYOUT - WORK AREAS
LADBRKT-1BRKT-2AFT-BHDFUD-BHDLADBRKT-1BRKT-2FUD-BHDLADBRKT-1BRKT-2LADBRKT-1BRKT-2BRKT-1BRKT-2BRKT-2
000000000000000336
PAGE 52
JOB LAYOUT - WORK AREAS
BOARDSSTANCHIONHANDRAILNAILS
EQUIPMENT:TORCH
OPERATORS:CARP-1CARP-2CARP-3
CARRIERS:TOOLBOX-1TOOLBOX-1
From------------
TYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKPLATFORMPLATFORMFLATFORMPLATFORMPLATFORMPLATFORMPLATFORMS T A R - B H D STAR-BHD
PLATFORMSTAR-BHDSTAR-BHUTOOLBOX-1
PLATFORM
PLATFORMPLATFORMPLATFORM
PLATFORMPLATFORM
To------------
CENTER-TANKPLATFORMSTAR-BHDPORT-BHDAFT-BHDFWD-BHDLADBRKT-1BRKT-2PLATFORMSTAR-BHDPORT-BHDAFT-BHDFWD-BHDLADBRKT-1BRKT-2STAR-BHDPORT-BHDAFT-BHDFWD-BHDLADBRKT-1BRKT-2PORT-BHDAFT-RHD
FRAGFRAGFRAGFRAG
15,1220,1225,12 B
Steps---------
00000000000000000
10100
1310101000
PAGE 54
STAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDFWD-BHDFWD-BHDFWD-BHDLADLADBRKT-1
JOB LAYOUT - WORK AREAS
FWD-BHDLADBRKT-1BRKT-2AFT-BHDFWD-BHDLADBRKT-1BRKT-2FWD-BHDLADBRKT-1BRKT-2LADBRKT-1BRKT-2BRKT-1BRKT-2BRKT-2
0 0
00000000000000336
JOB LAYOUT - WORK AREAS
HAMMER-2WRENCH-2
OBJECTS:BRKTSBOARDSNUTSBOLTSNAILS
OPERATORS:CARP-1CARP-2
CARRIERS:TOOLBOX-1TOOLROX-1TOOLBOX-2TOOLBOX-2
From------------
TYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICALTYPICAL TYPICALTYPICALTYPICALTYPICALTYPICALCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANKCENTER-TANK
CARP-2CARP-2
PLFH1PLFM1PLFM1PLFH1TOOLBOX-1
PLFM1PLFH2
BR-1BR-1BR-4BR-4
To------------
CENTER-TANKSTAR-BHDPORT-BHDFWD-BHDAFT-BHDPLFMlPLFH2BR-1BR-2BR-3BR-4BR-5BR-6STAR-BHDPORT-BHDFWD-EHDAFT-BHDPLFH1PLFM2BR-1BR-2BR-3BR-4
FRAGFRAGFRAGFRAGFRAG
Steps
00000000000000000000000
PAGE 57
JOB LAYOUT - WORK AREAS
CENTER-TANKCENTER-TANKSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDSTAR-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDPORT-BHDFWD-BHDFWD-BHDFWI-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHDFWD-BHUFWB-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDAFT-BHDPLFMH1PLFM1PLFM1PLFM1PLFM1PLFM1PLFM1
BR-5BR-6PORT-BHDFUB-BHDAFT-BHDPLFMlPLFM2BR-1BR-2BR-3BR-4BR-SBR-6FUD-BHDAFT-BHDPLFH1PLFM2BR-1BR-2BR-3BR-4BR-5BR-6AFT-BHDPLFM1PLFM2BR-1BR-2BR-3BR-4BR-5BR-6PLFH1PLFH2BR-1BR-2BR-3BR-4BR-5BR-6PLFH2BR-1BR-2BR-3BR-4BR-5BR-6
0000000000000000000000000000000000000000
20777000
PLFM2PLFM2PLFH2PLFM2PLFM2PLFM2BR-1BR-1BR-1BR-1BR-1BR-2BR-2BR-2BR-2BR-3BR-3BR-3BR-4BR-4BR-5
JOB LAYOUT - WORK AREAS
BR-1BR-2BR-3BR-4BR-5BR-6BR-2BR-3BR-4BR-5 BR-6BR-3BR-4BR-5BR-6BR-4BR-SRR-6BR-5BR-6BR-6
00
277761200060000006
12 6
HAMMER-2STEEL-TAPE-2
OBJECTS:BRKTSTANBOARDHANDRAILLARDPLATFORMNUTBOLTSCLIPLCLIP
EQUIPtfENT:CRANE
OPERATORS:C-OPERCARP-1CARP-2CARP-3
CARRIERS:TOOLBOX-1TOOLBOX-lTOOLBOX-2TOOLBOX-2
From------- -----
BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-1BRKT-2BRKT-2BRKT-2
JOB LAYOUT - WORK AREAS
CARP-2CARP-2
BIN-1BIN-2BD-PILEHR-PILELDR-PILEP-RESTTOOLBOX-lTOOLBOX-1TOOLBOX-2TOOLBOX-2
CR-1
CR-1BRKT-1 BRKT-2BIN-1
BIN-1BIN-1BIN-2BIN-2
To------------
BRKT-2BIN-1B I N - 2BD-PILEHR-PILELDR-PILEAERIAL-PLATFORMCR-1P-RESTsIDE-SHELLBIN-IBIN-2BD-PILE
PAGE 61
FRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAGFRAG
01P
65,2025,8 50,835,14
12,1212,129,129,12
steps-------
6871213120000
131212
JOB LAYOUT - WORK AREAS
BRKT-2BRKT-2BRKT-2BRKT-2B R K T - 2 BRKT-2BIN-1BIN-1BIN-1BIN-IBIN-1BIN-1BIN-1BIN-1BIN-2BIN-2BIN-2BIN-2BIN-2BIN-2BIN-2BD-PILEBD-PILE ED-PILEBD-PILEBD-PILEBD-PILEHR-PILEHR-PILEHR-PILEHR-PILEHR-PILELDR-PILEL D R - P I L ELDR-PILELIIR-PILEAERIAL-PLATFORMAERIAL-PLATFORMAERIAL-PLATFORMCR-1CR-1P-REST
HR-PILELDR-PILEAERIAL-PLATFORHCR-1P-RESTSIDE-SHELLBIN-2BD-PILEHR-PILELDR-PILE
AERIAL-PLATFORMCR-1P-RESTSIDE-SHELLBD-PILEHR-PILELDR-PILEAERIAL-PLATFORMCR-1P-RESTSIDE-SHELL HR-PILELDR-PILEAERIAL-PLATFORMCR-1P-RESTSIDE-SHELLLDR-PILEAERIAL-PLATFORMCR-1P-RESTSIDE-SHELLAERIAL-PLATFORMCR-1P-RESTSIDE-SHELLCR-1P-RESTSIDE-SHELLP-RESTSIDE-SHELLSIDE-SHELL
87000027
121300 00812110000760000210000000
160460
1576046
JOB LAYOUT - WORK AREAS
CRANE
OPERATORS:CARP-1C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1TOOLBOX-2TOOLBOX-2
From------------
CR-1
P-RESTCR-1
BIN-1BIN-1BIN-2BIN-2
To------------
01P
15,6 B65,9
Steps
CR-1CR-1CR-1CR-1CR-1CR-1CR-1CR-1CR-1P-RESTP-RESTP-RESTP-RESTP-RESTP-RESTP-RESTP-RESTBIN-1BIN-1BIN-1BIN-1BIN-1BIN-1BIN-1BIN-2BIN-2BIN-2BIN-2BIN-2BIN-2BD-PILE
P-RESTBIN-IBIN-2BD-PILEHR-PILELDR-PILEBASINROADBERM
BIN-1BIN-2BD-PILEHR-PILELDR-PILEBASINROADBERMBIN-2BD-PILEHR-PILELDR-PILEBASINROADBERHBD-PILEHR-PILELDR-PILEBASINROADBERMHR-PILE
76847668605200019161721250008
16
24000816240008
BD-PILEBD-PILEBD-PILEED-PILEHR-PILEHR-PILEHR-PILEHR-PILELDR-PILELDR-PILELDR-PILEBASINBASINROAD
JOB LAYOUT - WORK AREAS
LDR-PILEBASINROADBERMLDR-PILEBASINROADBERMBASINROADBERMROADBERMBERM
160008000000000
JOB LAYOUT - WORK AREAS
END-PIECEBRACEBOARDSTANHANDRAILNUTBOLT
EQUIPMENT:CRANE
OPERATORS:CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1
From------------
END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-3END-PC-3END-PC-3
END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILETOOLBOX-1TOOLBOX-I
CR-1
END-PC-RACKEND-PC-RACKEND-PC-RACKCR-1
BIN-2BIN-2
To------ ------
END-PC-2END-PC-3SIDE-SHELLWAYCR-1END-PC-RACKBRACE-FILEBD-PILEBIN-2HR-PILEEND-PC-3SIDE-SHELLWAYCR-1END-PC-RACKRRACE-PILEBU-PILEBIN-2HR-PILESIDE-SHELLWAYCR-1
FRAGFRAGFRAGFRAGFRAGFRAGFRAG
01P
12,1 B12,312,55,4
45,348,3
steps-------
3600
1802219202428300
180232019232700
180
PAGE 67
JOB LAYOUT - WORK AREAS
END-PC-3END-PC-3END-PC-3END-PC-3END-PC-3SIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIISE-SHELLWAYWAYWAYWAYWAYWAYCR-1CR-1CR-1CR-1CR-1END-PC-RACKEND-PC-RACKEND-PC-RACKEND-PC-RACKBRACE-PILEBRACE-PILEBRACE-PILEBD-PILEBD-FILEBIN-2
END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEWAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILECR-1END-PC-RACKBRACE-FILEB1l-PILEBIN-2HR-PILEEND-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEBRACE-PILERD-PILERIN-2HR-PILEBD-PILEBIN-2HR-PILEBIN-2HR-PILEHR-PILE
23201923270
1802320192327000000
170180186192200
81624328
16248168
STANHANDRAILNUTBOLT
EQUIPMENT:CRANE
OPERATORS:CARF-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1
From------ ------
SECTION-1SECTION-1SECTION-1SECTION-1SECTION-1SECTION-1SECTION-1SECTION-1SECTION-1SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLWAY
JOB LAYOUT - WORK AREAS
BIN-2HR-PILETOOLBOX-1TOOLBOX-1
CR-1
SECTION-1SECTION-2END-PC-RACKCR-1
BIN-2BIN-2
To------------
SECTION-2SIDE-SHELLUAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILESIDE-SHELLWAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEWAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILECR-1
FRAGFRAGFRAGFRAG
01P
20,15 B50,1512,55,4
Steps------ ---
600
180221920242800
1802320
1923270
18023201923270
PAGE 70
JOB LAYOUT - WORK AREAS
WAYWAYWAYWAYWAYCR-1CR-1CR-1CR-ICR-1END-PC-RACKEND-PC-RACKEND-PC-RACKEND-PC-RACKBRACE-PILEBRACE-PILEBRACE-PILEBD-PILEBD-PILEB I N - 2
END-PC-RACKBRACE-FILEBD-PILEBIN-2HR-PILEEND-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEBRACE-PILEBD-PILEBIN-2HR-PILEBD-PILEBIN-2HR-PILEBIN-2HR-PILEHR-PILE
00000
170180186192200
8162432816248
168
PAGE 71
JOB LAYOUT - WORK AREAS
END-PIECEBRACEBOARDSTANHANDRAILBOLTNUT
EQUIPMENT:CRANE
OPERATORS:CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-1TOOLBOX-1
From
END-PC-IEND-PC-lEND-PC-1END-PC-1 END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-1END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-2END-PC-3
END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILETOOLROX-1TOOLBOX-1
CR-1
END-PC-RACKEND-PC-RACKEND-PC-RACKCR-1
BIN-2BIN-2
To------ ------
END-PC-2END-PC-3SIDE-SHELLWAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILEEND-PC-3SIDE-SHELLWAY CR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILESIDE-SHELL
FRAGFRAGFRAGFRAGFRAGFRAGFRAG
01P
steps------ --
3600
18022192024282300
18023201923279~0
PAGE 73
JOB LAYOUT - WORK AREAS
END-PC-3END-PC-3END-PC-3END-PC-3END-PC-3END-Fc-3END-PC-3END-PC-3SIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLWAYWAYWAYWAYWAY WAYWAYCR-1CR-1CR-1CR-ICR-lCR-1END-PC-RACKEND-PC-RACKEND-PC-RACKEND-PC-RACKEN1l-PC-RACKBRACE-PILEBRACE-PILEBRACE-PILEBRACE-PILEBD-PILEBD-PILEBD-PILEBIN-2BIN-2HR-PILE
WAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEHATL-PILEUAYCR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILECR-1END-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILEEND-PC-RACKBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILEBRACE-PILEBD-PILEBIN-2HR-PILEMATL-PILEBD-PILEBIN-2HR-PILEMATL-PILEBIN-2HR-PILEMATL-PILEHR-PILEMATL-PILEMATL-PILE
0180232019232720
180232019232720000000
170180186192200180
81624322l8162418816178
2125
PAGE 74
BRACEBOARDSTANHANDRAILBOLTNUT
EQUIPMENT:CRANE
OPERATORS :CARP-1CARP-2CARP-3C-OPER
CARRIERS:TOOLBOX-lTOOLBOX-1
From- - - - - - - - - - - -
SECTION-1SECTION-1SECTION-1SECTION- lSECTION- lSECTION- lSECTION-1SECTION- lSECTION-1SECTION- lSECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SECTION-2SIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELL
JOE LAYOUT - WORK AREAS
BRACE-PILEBD-PILEB I N - 2HR-PILETOOLBOX-1TOOLBOX-1
CR-1
SECTION-1SECTION-2END-PC-RACKCR-1
B I N - 2B I N - 2
To- - - - - - - - - - - - -
SECTION-2SIDE-SHELLWAYCR-1END-PC-RACKBRACE-PILEBD-PILEB I N - 2HR-PILEMATL-PILESIDE-SHELLWAYCR-1END-PC-RACKBRACE-PILEBD-PILEB I N - 2HR-PILEMATL-PIL.EWAYCR-1ENB-PC-RACKBRACE-PILE
FRAGFRAGFRAGFRAGFRAGFRAG
01P
5 0 , 1 51 2 , 55 , 4
4 8 , 34 8r3
S t e P s- - - - - - - - -
PAGE 76
JOB LAYOUT - WORK AREAS
SIDE-SHELLSIDE-SHELLSIDE-SHELLSIDE-SHELLWAYWAYWAYWAYWAYWAYWAYCR-1CR-1CR-1CR-1CR-1CR-1END-PC-RACKEND-PC-RACKEND-PC-RACKEND-PC-RACKEND-PC-RACKBRACE-PILEBRACE-FILEBRACE-PILEBRACE-PILEBD-PILEBD-PILEBD-FILEB I N - 2B I N - 2HR-PILE
BD-PILEB I N - 2HR-PILEMATL-PILECR-1END-PC-RACKBRACE-PILEBD-PILEB I N - 2HR-PILEHATL-PILEEND-PC-RACKBRACE-PILEBD-PILEB I N - 2HR-PILEMATL-PILEBRACE-PILEBD-PILEB I N - 2HR-PILEMATL-PILEBD-PILEB I N - 2HR-PILEMATL-F’ILEB I N - 2HR:PILEMATL-PII .EHR-PILEMATL-PILEMATL-PILE
192327
2
0000000
170180186192200
1808
16243 221
8162418
81617
82125
PAGE 77
MANUAL METHODS
378. TRANSPORT STAGING BRACKET WITH (GROVE CRANE) AT TANK (OR WAY) CARPER STAGING BRACKET OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING BRACKETS FROM...* ...BIN-I TO BULKHEAD
* DISTANCES FROM CRANE-REST TO BIN-1 AND..* ...FROM BIN-I TO BULKHEAD ARE AVERAGE...* ...DISTANCES IN A CENTER TANK 98’X50’* MASXIMUM NUMBER OF BRKTS IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT BRKT FROM BIN-1 USING CRANE WITH HOOK+SLING TO BULKHBTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
381, TRANSPORT LADDERS WITH (GROVE CRANE) AT TANK CARPENTERPER LADDER. OFG: 3 03-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING LADDERS FROM.... * ...LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE...* . . .AND FROM LDR-PILE TO BULKHEAD ARE.. .* ...AVERAGE DISTANCES IN A CENTER TANK...* ...98’X50’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT LADR FROM LDR-PILE USING CRANE WITH HOOK+SLING TO BUL( AT. LDR PLACE+ADJUST RETURN TO CR-1 F 1 / 3
PAGE 77
MANUAL METHODS
384. POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDERCLIPS) AT TANK CARPENTER
PER LADDER OFG: 3 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS SECURING A LADDER T0 THE.....* ....BULKHEAD USING 4 LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A. . . . .* .....SEPARATE SUB OPERATION
CARP-1 BEGINS AT LDR
1 CARP-1 LOOSEN 4 PAINT ON BHD AT LDR 4 STRIKES USING HAMMER-1 ASIDETO CARP-1
2 CARP-2 GET+PLACE WITH BEND 4 LCLIPS FROM TOOLBOX-2 TO LDR ( TACKINGUPON PLACEMENT ) PF 4 ( 6 )
387. TRANSPORT STAGING PLANK WITH (GROVE CRANE) AT TANK CARPENTER.PER STAGING PLANK OFG: 3 03-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING BOARDS FROM+*,+** ....LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* .....FROM LU-PILE TO BULKHEAD ARE AVERAGE* ....DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM LU-PILE USING CRANE WITH HOOK+SLING TO BULKHEAD( BTWN BRKTS ) PLACE+MANEUVER RETURN TO CR-1 F 1 / 3
MANUAL METHODS
TRANSPORT STANCHION WITH (GROVEPER STANCHION OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME
CRANE) AT TANK CARPENTER
* REPRESENTS TRANSPORTING STANCHION FROM...* ....BIN-2 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND...* ....FROM BIN-2 TO BULKHEAD ARE AVERAGE.. * ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT STAN FROM BIN-2 USING CRANE WITH HOOK+SLING TO BULKHEABTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
TRANSPORT HANDRAIL WITH (GROVE CRANE) AT TANK CARPENTERPER HANDRAIL OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING HANDRAIL FROM....* ....HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ....FROM HR-FILE TO BULKHEAD ARE AVERAGE* ....DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TOBULKHEAD ( BTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
PAGE 81
MANUAL METHODS
404. (CLIMB UP AND DOWN) DOWN OPERATOR (ON LADDER) ON BULKHEAD AT ANY TANKSAND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS CLIMBING UP AND....* ....DOWN LADDERS TO REMOVE- STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.
CARP-1 BEGINS AT LDR
1 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
2 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
407. REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER HANDRAIL OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM MALT* ....PILE ON TANKTOP TO DECK (GOING THRU* ....MASNHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
CARP-3 BEGINS AT TANKTOP
1 CARP-3 GET+SLIDE HANDRAIL ( ONTO BOLSTER ) AT MATL-PILE2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 63 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 64 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 63 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
HANDRAIL ) F 1 / 66 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 67 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
MANUAL METHODS
408. REMOVE STANCHION ON (MATERIALCARPENTER
PILE) WITH WINCH AT ANY TANKS AND VOI
PER STANCHION (OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF STANCHION FROM..... * ....MATL-PILE ON TANKTOP TO DECK (GOING* ....THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6
CARP-3 BEGINS AT MATL-PILE
1
23
45
67
CARP-3 GET+PLACE WITH BEND STAN FROM MATL-PILE TO MATL-PILE WITHBEND
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP) F 1 / 6WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 6CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
STANCHION ) F 1 / 6WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
409. REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS ANVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKET FROM MATL* .... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
CARP-3 BEGINS AT MATL-PILE
1
23
45
6
CARP-3 GET+PLACE WITH BEND BRKT FROM MATL-PILE TO MATL-PILE WITHBEND
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 3
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
BRACKET ) F 1 / 3WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3WINCH-OPER PUSH WINCH-lJP PROCESS ( TO MENHOLE ) F 1 / 3
PAGE 83
MANUAL METHODS
410. REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER STAGING PLANK OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING BOARDS FROM BOARD...* ...PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE),* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-3 BEGINS AT MATL-PILE
123
45
67
CARP-3 GET+SLIDE BOARD ( ONTO BOLSTER ) AT BD-PILE AND ADJUSTWINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 3WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3CARP-3 GET+MANIPULATE WITH BEND CABLE AT BD-PILE ( HOOK AROUNDBOARDS ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 3
WINCH-C)PER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER LADDER OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REFMOVING LADDERS FROM LADDER* ....PILE ON TANKTOP TO DECK (GOES THRU..* . . . .MANJOLE) .* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
CARP-3 BEGINS AT BD-PILE
CARP-3 GET+SLIDE LADR ( ONTO BOLSTER ) AT LDR-PII.E AND ADJUSTWINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 3WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3CARP-3 GET+MANIPULATE WITH BEND CABLE AT LDR-PILE ( HOOK AROUNDLADDERS. ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 3
WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
MANUAL METHODS
412. REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER TOOLBOX OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING TOOLBOX FROM MATL...* . . . -PILEON TANKTOP TO DECK (GOES THRU... .* ...MANHOLE).( TOOLBOX CONTAINS:* ...28 BOLTS* ...28 NUTS* . . .28 LADDER CLIPS
CARP-3 BEGINS AT LDR-PILE
1
2
34
56
78
CARP-3 GET+PLACE 7 NUTS AND 7 BOLTS FROM MALT-PILE TO TOOLBOX-I B E N D ( T O T A L O F 2 8 ) P F 4 ( 2 3 4 5 6 )
CARP-3 GET+PLACE WITH BEND 4 LCLIPS FROM MALT-PILE TO TOOLBOX-1 BEND ( TOTAL OF 28 ) F 7
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP )WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 CARP-3 GET+MANPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
TOOLBOX )WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE )
431. (WALK UP OR DOWN) MOVE OPERATORTANKS AND VOIDS CARPENTER
PER SET OF INCLINED STAIRS OFG:REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER WALKING* ....A SET OF INCLINED STAIRS.* ....NUMBER OF TREADS IN A SET* ...STAIRS = 16.* CARPENTERS ARE WALKING UP OR* AT THE SAME TIME.
CARP-1 BEGINS AT LEVEL-1
1 CARP-1 WALK TO LEVEL-22 CARP-2 WALK TO LEVEL-2 SIMO
(ON INCLINED STAIRS) ON BULKHEAD AT
4 1O-FEB-82
UP OR DOWNAVERAGEOF INCLINED
DOWN STAIRS
MANUAL METHODS
132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW). RATE IN ELAPSED TIME.MULT BY 6 TO OBTAIN TOTAL TIME.
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81 * THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS AND 2 UNHOOKS PER (1), . . . .* ...8-HR SHIFT* - - (1 ) OCCURRENCE FOR IGNITE AND . . . . . . . . * ...EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-OP...* . . . F R O N U M B E R O F C U T S > 1 , U S E T H E . . . .* ....FORHULA: FREQ = 1 + C ( N - 1 ) X . 2 3 . . . .
* ...WHERE "N" = THE NUMBER OF CUTS(BURNS)
C o m b i n e d s u b - o p e r e t i o n e l e m e n t s- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
9. HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
10, IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
376. SET-UP (STAGING CLIP) ON BULKHEAD WITH HAMMER (AND STEEL-TAPE) AT TANKCARPENTER
PER STAGING CLIP OFG: 4 01-FEB-82REPRESENTS ELAPSED TIME
REPRESENTS PUTTING UP A STAGING CLIP ON* .. .THE BULKHEAD* WELDING OF THE CLIP WILL BE DONE IN A...* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT TANKTOP
1 CARP-1 MEASURE AT BRKT-1 USING STEEL-TAPE-1 ASIDE TO CARP-12 CARP-1 LOOSEN PAINT ON BHD AT BRKT-1 4 STRIKES USING HAMMER-1 ASIDE
TO CARP-13 CARP-1 GET+PLACE WITH BEND SCLIP FROH TOOLBOX-2 TO BRKT-1 ( TACKING
UPON PLACEMENT )
MANUAL METHODS
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORMAY) CARPENTER
PER STAGING BRACKET OFG: 3 02-FEB-82 .REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* . .OR IN TANK AT THE MATERIAL (BIN-1)
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+PLACE WITH BEND BRKT FROM BIN-1 TO BIN-12 CARP-3 GET+PLACE MITH BEND BOLT FROM TOOLBOX-1 TO BIN-1 AND INSER
BOLT IN BRKT3 CARP-3 FASTEN NUT AT BIN-1 4 WRIST-TURNS USING HANDS4 CARP-3 GET+PLACE BRKT FROM BIN-1 TO BIN-1 ( PILE UP BRKTS FOR
TRANSFORMATION )
379. SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH AT TANK CARPENTERPER STAGING BRACKET OFG: 3 01-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A BRACKET ON AN...* ...EXISTING STAGING CLIP
CARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+HOLD WITH BEND BRKT FROM TANKTOP TO CARP-12 CARP-1 LOOSEN NUT AT BRKT-1 4 WRIST-TURNS USING HANDS3 CARP-1 REMOVE BOLT FROM BRKT-1 ( BRKT. ) TO CARP-14 CARP-1 GET+PLACE BRKT FROM CARP-1 TO BRKT-1 AND INSERT BOLT5 CARP-1 FASTEN NUT AT BRKT-1 13 WRIST-TURNS USING HANDS6 CARP-1 FASTEN NUT AT BRKT-I 4 ARM-STROKES USING WRENCH-1 ASIDE TO
CARP-17 CARP-1 WALK TO BRKT-2 ( TO DO NEXT BRKT )
.
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MANUAL METHOD
380, HAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER LADUER OFG: 3 01-FEB-82REPRESENTS ELAPSED TIHE
* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE LADR AT LDR-PILE AND ADJUST ( ON BOLSTERS )
3 8 2 . SET-UP LADDER ON BULKHEAD (AT BRACKET LOCATION) WITH HAND AT TANKCARPENTER
PER LADDER OFG: 4 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A LADDER AT A.....* ...BRACKET LOCATION SO THE CARPENTER CAN* . . .PUT UP A BRACKET APPLIES ONLY FOR. . .* ...FIRST LEVEL OF STAGING. CARPENTER IS* ...WORKING FROM THE TANKTOP.* ALSO INCLUDES CLIMBING UP & DOWN LADDER
CARP-1 BEGINS AT BRKT-1
1 CARP-I GET+PLACE WITH BEND LADR FROM TANKTOP TO BRKT-12 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT BRKT-1 ( 4 RUNGS ) PF 4 ( 1 ) PF
4(34)3 CARP-1 PULL ( CLIHB-DOWN ) LADDER AT BRKT-1 ( 4 RUNGS ) PF 4 ( 1 )
PF 4 ( 34 )4 CARP-1 GET+PLACE LADR FROM BRKT-1 TO TANKTOP WITH BEND
MANUAL METHODS
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERPER LADDER OFG: 3 01-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP AN ACCESS LADDER,,* ...ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER.*** ALSO INCLUDES CLIMBING UP AND DOWN THE..* ..LADDER.* AVERAGE NUMBER OF RUNGS = 12
CARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+PLACE WITH BEND LADR FROM TANKTOP TO LDR2 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 )
12 ( 34 )3 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 )
12 ( 34 )
385. POSITION (SECURE) (ACCESS) LADDER FOR BRACKET STAGING WITH PLIER (ANWIRE ROPE) AT TANK CARPENTER
PER LADDER OFG: 4 03-FEB-82* REPRESENTS ELAPSED TIME* REPRESENTS SECURING LADDER TO STAGING...* ...BOARIIS USING WIRE ROPE
CARP-1 BEGINS AT LDR
1 CARP-1 GET+HANIPULATE WIRE-ROPE AT LDR ( PUT AROUNII BOARDS ANDL A D D E R , )
2 CARP-1 TWIST WIRE-ROPE AT LDR USING PLIER-1 ASIDE TO CARP-1
386. MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT TANK (OR WACARPENTER
PER STAGING PLANK OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE BOARD AT LU-PILE AND ADJUST ( ON BOLSTERS )
MANUAL HETHODS
388. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82
REPRESENTS ELAPSED-TIHE* REPRESENTS SETTING UP BOARDS BETWEEN....* . . . B R A C K E T S* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* . .BRACKETS* THEY BOTH LIFT THE BOARD... .* . .TOGETHER AND SLIDE IT INTO POSITION,* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEVEL BELOW THE BOARDS.
CARP-1 BEGINS AT BRKT-1
1 CARP-1CARP-2 GET+SLIDE WITH 1 STEP BOARD AT BRKT-1 AND ALIGN2 CARP-1 WALK TO BRKT-2 ( TO DO NEXT SECTION OF BOARDS, CARP2 ALSO
MOVES TO ANOTHER BRACKET )
389. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN....* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH PICK-UP THE BOARD* ..TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.
CARP-1 BEGINS AT BRKT-1
1 CARP-1+CARP-2 GET+SLIDE WITH BEND WITH 1 STEP BOARD AT BRKT-1 ANDALIGN
2 CARP-1 WALK TO BRKT-2 ( TO DO NEXT SECTION OF BOARDS, CARP2 ALSOMOVES TO ANOTHER BRACKET )
PAGE 9 0
MANUAL METHODS
390. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER STAGING PLANK OFG: 4 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN....* . . . B R A C K E T S ,* ONE MAN OPERATION:* USUALLY OCCURS WHEN CRANE CANNOT PLACE..* ...BOARD ON BRACKETS.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+HANIPULATE WITH BEND BOARD AT BRKT-2 AND ALIGN RETURN BRKT-1
2 CARP-1 GET+POSITION WITH BEND BOARD FROM TANKTOP TO BRKT-1 AND SE
391. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER STANCHION OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING STANCHION READY TO BE* ...TRANSPORTED.
CARP-3 BEGINS AT LU-PILE
1 CARP-3 GET+PLACE WITH BEND STAN FROM BIN-2 TO BIN-2
393. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING STANCHION IN THE.....* . . .BRACKET SLEEVE.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PLACE WITH2 CARP-1 WALK TO BRKT-2
BEND STAN FROM TANKTOP TO BRKT-1 AND INSERT( DO NEXT STANCHION )
PAGE 91
MANUAL METHODS
394. MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER HANDRAIL OFG: 3 02-FER-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-2
1 CARP-3 GET+SLIDE HANDRAIL AT HR-PIL.E AND ADJUST ( ON BOLSTERS )
396. SET-UP HANDRAIL ON STANCHION WITH HAND AT TANK CARPENTERPER HANDRAIL OF13: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING HANDRAIL INTO THE....* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR.....* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+SLIDE WITH BEND HANDRAIL AT BRKT-2 AND ALIGN ( THRU 2EYELETS ON THE STANCHIONS AT, BRKT1 8 BRKT2 ) RETURN TO BRKT-1 PF 2( 4 5 6 )
2 CARP-1 WALK TO BRKT-2 ( DO NEXT SECTION )
397. SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND BULKHEAD) WITH HAND ATANK CARPENTER
PER HANDRAIL OFG: 4 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES)....* ...CONNECTIONS WILL BE DONE IN A........* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+HOLD WITH BEND HANDRAIL FROM TANKTOP TO CARP-12 PTIME 1.02 M ( CUT HANDRAIL INTO 2 PIECES WITH ELECTRODE )3 CARP-2 GET+PLACE 2 HANDRAIL ( END PIECES ) FROM CARP-1 TO BRKT-1
398. TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH AT (CENTER) MID TANKS ANDVOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ...CENTER TANK. HANDRAIL IS THROWN TO A* . . .MATERIAL PILE ON THE TANKTOP.* CARPENTERS REMOVE 2 HADNRAIL BEFORE.....* . . .MOVING TO NEXT SECTION.
CARP-1 BEGINS AT BULKHEAD
1 CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-1 PTIME 0.26 M ( BURN OFF HANDRAIL 3 CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO CARP-2 SIHO4 CARP-2 HOLD+THROW HANDRAIL FROM CARP-2 TO MATL-PILE5 CARP-1 AND CARP2 WALK TO BRKT-2 F 1 / 2
PAGE 93
MANUAL METHODS
399. TEAR DOWN HANURAIL ON BULKHEAD WITH TORCH (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ...WING TANK. HANDRAIL IS LOWERED TO THE* ...HATL-PILE WITH A WINCH BECAUSE THE...* ...TANK IS TO SHALL FOR THE HANDRAIL TO* ...BE THROWN.* CARPENTERS REMOVE 2 HANDRAIL BEFORE.....* . . .MOVING TO THE NEXT SECTION.* MAXIMUM NUMBERS OF HANDRAIL IN LIFT = 6
CARP-1 BEGINS AT BULKHEAD
i CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-I PTIME 0.26 M ( BURN OFF HANDRAIL )3 CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO BRKT-1 SIMO4 CARP-2 HOLD+PLACE HANDRAIL FROM BRKT-1 TO BRKT-PILE5 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 66 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-2 F 1 / 67 CARP-2 GET+HANIPULATE WITH BEND CARLE AT BRKT-PIL.E ( HOOK CABLE
AROUND HANDRAIL ) F 1 / 68 WNCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 69 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 610 WINCH-OPER PUSH WINCH-UP PROCESS ( TO HENHOLE ) F 1 / 611 CARP-2 AND CARP1 WALK TO BRKT-2 F 1 / 2
400. TEAR DOWN STANCHION ON BULKHEAD WITH HAND AT (CENTER) MID TANKS ANDVOIDS CARPENTER
PER STANCHION OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING STANCHION FROM.....* ...STAGING BRACKETS IN A CENTER TANK,* . . .STANCHION IS THROWN TO A MATERIAL.. . .* . . .PILE ON THE TANKTOP
CARP-2 BEGINS AT BRKT-1
1 CARP-2 LOOSEN STAN AT BRKT-1 4 ARM-STROKES USING HANDS2 CARP-2 HOLD+THROW STAN FROM BRKT-1 TO MATL-PILE3 CARF-2 WALK TO BRKT-2
PAGE 94
MANUAL METHODS
402. TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH HAND (AND WINCH) AT TANKS AND VOIDS CARPENTER
PER STAGING FLANK OFG: 3 04-FER-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO......* ...BD-PILE ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-1 BEGINS AT BULKHEAD
1 CARP-1 AND CARP2 GET+HANIPULATE WITH BEND BOARD AT BRKT-1 ( FLIPBOARDS ONTO 3RD BOARD )
2 WINCH-OPER LOOSEN ( =SWING ) WITH BEND CABLE AT BTRWTH 5 ARM-STROUSING HANDS F 2 / 3
3 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-1 WITH BEND F 1 / 34 CARP-1 GET+MANIPULATE WITH BEND CABLE AT BRKT-1 ( HOOK CABLE AROU
BOARD ALLOW FOR 2 ATTEMPTS ) F 2 / 3S WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 36 WINCH-OPER PUSH WINCH-DOUN PROCESS ( TO BD PILE ) F 1 / 37 WINCH-OPER PUSH WINCH-lJP PROCESS ( TO BTRWTH ) F 1 / 38 CARP-1 AND CARP2 WALK TO BRKT-2
PAGE 95
MANUAL HETHODS
403. TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAD WITH TORCH (AND WINCH)AT ANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER.* ...LADDER LOUERED TO LDR-PILE BY WINCH* . . .LADDER CLIPS THROWN TO MATL-PILE.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 PULL TORCH AT LDR2 CARP-1 OPERATE TORCH AT LDR PTIME 0.47 M F 4 ( BURN OFF 4 CLIPS )3 CARP-1 GET+THROW 4 LDLIPS FROM LDR TO MATL-PILE WITHOUT BEND F 44 CARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWN ON
BOARDS )5 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKES
USING HANDS6 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BEND7 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND LADR )8 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )9 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )11 CARP-1 WALK TO BRKT-2
M A N U A L M E T H O D S
405. TEAR DOWN LADDER (AND WIRE ROPE) ON BULKHEAD WITH PLIER (AND WINCHANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 4 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE IS 1 WIRE ROPE PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...WIRE-ROPE IS THROWN TO MATL-PILE.
CARP-1 BEGINS AT BRKT-2
12
34
5
6789
CARP-1 TWIST WIRE-ROPE AT LDR USING PLIER-1 ASIDE TO CARP-1CARP-1 GET+MANIPULATE WIRE-ROPE AT LDR ( PULL. WIRE ROPE OFF BOAAND LADDER. )
CARP-1 HOLD+THROW WIRE-ROPE FROM LDR TO MATL-PILE WITHOUT BENDCARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWNBOARDS )
WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STRUSING HANDS
WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BENIICARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )
10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )11 CARP-1 WALK TO BRKT-2
PAGE 97
MANUAL METHODS
406. TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WRENCH AT ANY TANKS ANDVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK. BRACKETS ARE LOWERED TO * ...MATL-PILE BY WINCH.* MAXMUH NUMBER OF BRACKETS IN LIFT = 3
CARF-1 BEGINS AT BRKT-2
1 CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOI.D2 CARP-1 HOLD+LOOSEN NUT AT BRKT-1 13 WRIST-STROKES USING WRENCH-1
ASIDE TO CARP-I3 CARP-1 GET+REMOVE BOLT FROM BRKT-1 TO CARP-14 CARP-1 THROW NUT AND BOLT FROM CARP-1 TO MATL-PILE WITHOUT BEND5 CARP-2 GET+PLACE BRKT FROM BRKT-I TO BRKT-PILE6 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKES
USING HANDS F 1 / 37 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 F 1 / 38 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK AROUND
BRACKETS ) F 1 / 39 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 310 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 311 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 312 CARP-2 AND CARP1 WALK TO BRKT-2
SECTION 3MANUAL METHODS
435. WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY STRUCTURE) WITH SELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 CLIPS. RATE IN
MANUAL ELEMENTS.
1 WELD VERTICAL 3/8s FILLET WELD (10 PER CLIP) WITH 10% OVERWELUSING 6011 3/16 ELECTRODE OR COMPARABLE (7018 5/32).
438. WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD (OR ANY STRUCTURESTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 LADDERS OR 400 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 LADDERS (400 C
RATE INCLUDES MANUAL ELEMENTS.
1 WELD VERTICAL 3/88 FILLET WELD (48 PER CLIP) WITH 10% OVERWELD 6011 3/16 ELECTRODE OR COMPARABLE (7018 5/32).
440. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ATANKS AND VOIDS (SHIP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 PIECES OF AHNDR
(AVG. 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEMENTS.
1 WELD HORIZONTAL 1 /48 FILLET WELD (58 PER CONNECTION) USING 601ELECTRODE OR COMPARABLE (7018 3/32).
PAGE 99
MANUAL METHODS
404. (CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) ON BULKHEAD AT ANY TANKSAND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS CLIMBING UP AND...* ...DOWN LADDERS TO REMOVE STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.
CARP-1 BEGINS AT LDR
1 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
2 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
407. REMOVE HANDRAILCARPENTER
ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND VOIDS
PER HANDRAIL OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
CARP-3 BEGINS AT TANKTOP
123
45
67
CARP-3 GET+SLIDE HANDRAIL ( ONTO BOLSTER ) AT MATL-PILEWINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 6WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT HENHOLE 5
ARM-STROKES USING HANDS F 1 / 6WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 6CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-FILE ( HOOK AROUNDHANDRAIL ) F 1 / 6
WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
MANUAL METHODS
4 0 8 .
409 ●
REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VCARPENTER
PER STANCHION OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF STANCHION FROM...* ...MATL-PILE ON TANKTOP TO DECK (GOING* ...THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6
CARP-3 BEGINS AT MATL-PILE
CARP-3 GET+PLACE WITH BEND STAN FROM MATL-FILE TO MATL-PILE WIBEND
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 6WINCH-OFER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 6CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUN
STANCHION ) F 1 / 6WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6WINCH-OFER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS VOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
CARP-3 BEGINS AT MATL-PILE
CARP-3 GET+PLACE WITH BEND BRKT FROM MATL-FILE TO MATL-PILE WITBEND
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 3
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUN
BRACKET ) F 1 / 3WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
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MANUAL METHODS
410. REMOVE STAGING FLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER STAGING PLANK OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING BOARDS FROM BOARD...* . . .PILE ON TANKTOP TO DECK (GOES THRU..* . . . M A N H O L E ) .* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-3 BEGINS AT MATL-PILE
1 CARF-3 GET+SLIDE BOARD ( ONTO BOLSTER ) AT BD-PILE AND ADJUST2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 33 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 34 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 33 CARP-3 GET+MANIPULATE WITH BEND CARLE AT BD-PILE ( HOOK AROUND
BOARDS ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 36 WINCH=OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 37 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER LADDER OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING LADDERS FROM LADDER* . .PILE ON TANKTOP TO DECK (GOES THRU..* . . . M A N H O L E ) .* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
CARP-3 BEGINS AT BD-PILE
1 CARF-3 GET+SLIDE LADR ( ONTO BOLSTER ) AT LDR-PILE AND ADJUST2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 33 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT HENHOLE 5
ARM-STROKES USING HANDS F 1 / 34 WINCH-OPER THROW CABLE FROM MENHOLE TO CARF-3 F 1 / 33 CARP-3 GET+MANIPULATE WITH BEND CABLE AT LDR-PILE ( HOOK AROUND
LADDERS. ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 36 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 37 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
MANUAL METHODS
412. REMOVE TOOLBOX ON (MATERIAL FILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER TOOLBOX OFG: 3 08-FER-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING TOOLBOX FROM MATL...* . . .P ILEON TANKTOP TO DECK (GOES THRU. . .* ...MANHOLE),* TOOLBOX CONTAINS:* ...28 BOLTS* ...28 NUTS* ...28 LADDER CLIPS
CARP-3 BEGINS AT LDR-PILE
1 CARP-3 GET+PLACE 7 NUTS AND 7 BOLTS FROM MATL-PILE TO TOOLBOX-1 WBEND ( TOTAL 0F 28 ) PF 4 ( 2 3 4 5 6 )
2 CARF-3 GET+PLACE WITH BEND 4 LCLIPS FROM MATL-PILE TO TOOLBOX-1 WBEND ( TOTAL OF 28 ) F 7
3 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP )4 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH REND AT MENHOLE 5
ARM-STROKES USING HANDS5 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-36 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
TOOLBOX )7 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )8 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE )
431. (WALK UP OR DOWN) MOVE OPERATOR (ON INCLINED STAIRS) ON BULKHEAD AT ATANKS AND VOIDS CARPENTER
PER SET OF INCLINED STAIRS OFG: 4 10-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER WALKING UP OR DOWN* . . .A SET OF INCLINED STAIRS. AVERAGE* ...NUMBER OF TREABS IN A SET OF INCLINED* . . . S T A I R S = 1 6 .* CARPENTERS ARE WALKING UP OR DOWN STAIRS* AT THE SAME TIME.
CARP-1 BEGINS AT LEVEL-1
1 CARP-1 WALK TO LEVEL-22 CARP-2 WALK TO LEVEL-2 SIMO
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MANUAL METHODS
563. TRANSPORT STAGING BRACKET WITH (TOUER CRANE) AT (WING) TANKS AND VOIDSCARPENTER
PER STAGING BRACKET OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BRACKETS FROM...* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* ...FROH BIN-1 TO BULKHEAD ARE AVERAGE...* ...DISTANCES FROM THE SIDE OF A BASIN* . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT BRKT FROM BIN-1 USING CRANE WITH HOOK+SLING TO BULKHEAD (BTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
564. TRANSPORT LADDER WITH (TOUER CRANE) AT (WING) TANKS AND VOIDS CARPENTERPER LADDER OFG: 3 23-MAY-83
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING LADERS FROM* .. .LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE* ...AND FROM LDR-PILE TO BULKHEAD ARE* ...AVERAGE DISTANCE FROM SIDE OF BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT LADR FROM LDR-PILE USING CRANE WITH HOOK+SLING TO BULKHEAD( AT, LDR ) PLACE+ADJUST RETURN TO CR-1 F 1 / 3
MANUAL METHODS
565. TRANSPORT STAGING PLANK WITH (TOUER CRANE) AT (WING) TANKS AND VOIDCARPENTER
PER STAGING PLANK OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* ...LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM LU-FILE USING CRANE WITH( BTWN BRKTS ) PLACE+MANEUVER RETURN TO CR-1
566. TRANSPORT STANCHION WITH (TOWER CRANE) AT (WING)CARPENTER
PER STANCHION OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING STANCHION FROM..* ...BIN-2 TO BULKEHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND..* ...FROM BIN-2 TO BULKHEAD ARE AVERAGE...* ..DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
C-OPER BEGINS AT CR-1
HOOK+SLING TO BULKF 1 / 3
TANKS AND VOIDS
1 TRANSPORT STAN FROM BIN-2 USING CRANE WITH HOOK+SLING TO BULKHEABTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
PAGE 105
MANUAL METHODS
567. TRANSPORT HANDRAIL WITH (TOWER CRANE) AT (WING) TANKS ANU VOIBSCARPENTER
PER HANDRAIL OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING HANDRAIL FROM...* . . .HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TOBULKHEAD ( BTUN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
. 132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK ANB 3 BELOW). RATE IN ELAPSED TIME,MULT BY 6 TO OBTAIN TOTAL TIME,
PER 8-HR SHIFT ANII (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS ANLI 2 UNHOOKS PER (1). . . . . .* ...8-HR SHIFT* - - ( 1 ) O C C U R R E N C E F O R I G N I T E A N D . . . . . . . .* ...EXTINGUISH TORCH* --TO BETERMINE THE FREQ OF THE SUB-OP...* . . .FRO NUMBER OF CUTS >1, USE THE . . . . . .* ...FORMULA: FREQ = 1 + [ ( N - 1 ) X . 2 3 1 . . . .
* . . . U H E R E ‘ N ’ = THE NUMBER OF CUTS(BURNS)
C o m b i n e d s u b - o p e r a t i o n e l e m e n t s- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
9, HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
10. IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
MANUAL
376. SET-UP (STAGING CLIP)CARPENTER
PER STAGING CLIP OFG:
METHODS
ON BULKHEAD WITH HAMMER (AND STEEL-TAPE) AT T
4 0 1 - F E B - 8 2REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A STAGING CLIP ON* .. .THE BULKHEAD* W E L I D I N G O F T H E C L I P W I L L B E D O N E I N A . . .* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT TANKTOP
1 CARP-1 MEASURE AT BRKT-1 USING STEEL-TAPE-1 ASIDE TO CARP-12 CARP-1 LOOSEN PAINT ON BHD AT BRKT-1 4 STRIKES USING HAMMER-1 A
T O C A R P - 1 3 CARP-1 GET+PLACE WITH BEND SCLIP FROM TOOLBOX-2 TO BRKT-1 ( TACK
UPON PLACEMENT )
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORWAY) CARPENTER
PER STAGING BRACKET OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR RULKIHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* . . .OR IN TANK AT THE MATERIAL (BIN-1)
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+PLACE WITH BEND BRKT FROM BIN-I TO BIN-12 CARP-3 GET+PLACE WITH BEND BOLT FROM TOOLBOX-1 TO BIN-1 AND INSE
BOLT IN BRKT3 CARP-3 FASTEN NUT AT BIN-1 4 WRIST-TURNS USING HANDS4 CARP-3 GET+PLACE BRNT FROM BIN-1 TO BIN-1 ( PILE UP BRKTS FOR
TRANSPORTATION )
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MANUAL METHODS
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERPER LADDER OFG: 3 01-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP AN ACCESS LADDER..* ....ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER.* ALSO INCLUDES CLIMBING UP AND DOWN THE..* . . . L A D D E R .* AVERAGE NUMBER OF RUNGS = 12
CARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+PLACE WITH BEND LADR FROM TANKTOP TO LDR2 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )3 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )
384. POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDERCLIPS) AT TANK CARPENTER
PER LADDER OFG: 3 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS SECURING A LADDER TO THE.....* ...BULKHEAXI USING 4 LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A......* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT LDR
1
2
CARP-1 LOOSEN 4 PAINT ON BHD AT LDR 4 STRIKES USING HAMMER-1 ASIDETO CARP-1
CARP-2 GET+PLACE WITH BEND 4 LCLIPS FROM TOOLBOX-2 TO LDR ( TACKINGUPON PLACEMENT ) PF 4 ( 6 )
PAGE 108
388. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN....* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS, THEY BOTH LIFT THE BOARD....* ..TOGETHER AND SLIDE IT INTO POSITION,* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEVEL BELOW THE BOARDS,
CARP-1 BEGINS AT BRKT-1
1 CARF-1+CARF-2 GET+SLIDlE WITH 1 STEP BOARD AT BRKT-1 AND ALIGN2 CARF-1 WALK TO BRKT-2 ( TO DO NEXT SECTION O BOARDs, CARP2 ALSO
MOVES TO ANOTHER BRACKET )
393. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82
REPRESENT’S ELAPSED TIME* REPRESENTS PUTTING STANCHION IN THE.....* . . .BRACKET SLEEVE.
CARP-1 BEGINS AT BRKT-1
1 CARP-I GET+PLACE WITH BEND STAN FROM TANKTOP TO BRKT-1 AND INSER2 CARP-1 WALK TO BRKT-2 (NO NEXT STANCHION )
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MANUAL METHODS
396. SET-UP HANDRAIL ON STANCHION WITH HAND AT TANK CARPENTERPER HANDRAIL OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING HANDRAIL INTO THE....* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR....* . . .ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
CARP-1 BEGINS AT BRKT-1
1 CARP-I GET+SLII.IE WITH BEND HANDRAIL AT BRKT-2 ANSI ALIGN ( THRU 2EYELETS ON THE STANCHIONS AT. RRKT1 & BRKT2 ) RETURN TO BRKT-1 PF 2( 4 5 6 )
2 CARP-1 WALK TO BRKT-2 ( DO NEXT SECTION )
397. SET-UP HANBRAIL (END PIECES) ON HANDRAIL (AND BULKHEAD) WITH HAND ATTANK CARPENTER
PER HANDRAIL OFG: 4 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES).. . .* ...CONNECTIONS WILL BE DONE IN A........* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+HOLD WITH BEND HANDRAIL FROM TANKTOP TO CARP-12 PTIME 1.02 K ( CUT HANDRAIL INTO 2 PIECES WITH ELECTRODE )3 CARP-1 GET+PLACE 2 HANDRAIL ( END PIECES ) FROM CARP-I TO BRKT-1 F 2
MANUAL METHODS
399. TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH (AND WINCH) AT (WING) TANAND VOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ...WING TANK, HANDRAIL IS LOWERED TO THE* ...MATL-PILE WITH A WINCH BECAUSE THE...* ...TANK IS TO SMALL FOR THE HANDRAIL TO* ...BE THROWN.* CARPENTERS REMOVE 2 HANDRAIL BEFORE.....* ...MOVING TO THE NEXT SECTION.* MAXIHUM NUMBERS OF HANDRAIL IN LIFT = 6
CARF-1 BEGINS AT BULKHEAD
1 CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-1 PTINE 0.26 M ( BURN OFF HANDRAIL3 CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO BRKT-1 SIMO4 CARP-2 HOLD+PLACE HANDRAIL FROM BRKT-1 TO BRNT-PILE5 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 66 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-2 F 1 / 67 CARP-2 GET+MANIPULATE-WITH BEND CARLE AT BRKT-PILE ( HOOK CABLE
AROUND HANDRAIL ) F 1 / 68 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 69 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 610 WINCH-OPER PUSH WINCH-UP PROCESS ( TO NENHOLE ) F 1 / 611 CARP-2 AND CARP1 WALK TO BRKT-2 F I / 2
MANUAL METHODS
401. TEAR DOWN STANCHION ON BULKHEADANII VOIDS CARPENTER
PER STANCHION OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
WITH HAND (AND WINCH) AT (WING) TANKS
* REPRESENTS TEARING DOWN STANCHION IN A..* . . .WING TANK. STANCHION IS LOWERED TO...* ...THE MATL-PILE WITH A WINCH BECAUSE...* ...THE TANK IS TO SHALL FOR THE.........* ...STANCHION TO BE THROWN.* MAXIMUM NUMBER OF STANCHIONS
CARP-2 BEGINS AT BRKT-PILE
123
45
6789
CARP-2 LOOSEN STAN AT BRKT-1
IN LIFT = 6
4 ARM-STROKES USING HANUSCARP-2 HOLD+PLACE STAN FROM BRKT-1 TO BRKT-PILEWINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BENHOLE 5
ARM-STROKES USING HANDS F 1 / 6WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-2 F 1 / 6CARP-2 GETH+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK CABLEAROUND STANCHIONS ) F 1 / 6
WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 6WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6 CARP-2 WALK TO BRKT-2
P A G E 1 1 2
MANUAL METHODS
402. TEAR DOWN STAGING PLANK ON STAGING BRACKETT WITH HAND (AND WINCH) ATTANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER ROARU TO......* ...BD-PILE ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-1 BEGINS AT BULKHEAD
1 CARP-1 AND CARP2 GET+HANIPULATE WITH BEND BOARD AT BRKT-1 ( FLIPBOARDS ONTO 3RD BOARD )
2 WINCH-OPER LOOSEN ( =SWING ) WITH BEND CABLE AT BTRWTH 5 ARM-STRUSING HANDS F 1 / 3
3 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-1 WITH BEND F 1 / 34 CARP-1 GET+MANIPULATE WITH BEND CABLE AT BRKT-I ( HOOK CABLE ARO
BOARD ALLOW FOR 2 ATTEMPTS ) F 2 / 35 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 36 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO BD PILE ) F 1 / 37 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 3 8 CARP-1 AND CARP2 WALK TO BRKT-2
PAGE 113
MANUAL METHODS
403. TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAKI WITH TORCH (AND WINCHAT ANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER,* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...LADDER CLIPS THROWN TO MATL-PILE.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 PULL TORCH AT LDR2 CARP-1 OPERATE TORCH AT LDR PTIME 0.47 N F 4 ( BURN OFF 4 CLIPS )3 CARP-1 GET+THROW 4 LCLIPS FROM LDR TO MATL-PILE WITHOUT BEND F 44 CARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWN ON
BOARDS )5 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKES
USING HANDS6 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BEND7 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND LADR )8 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )9 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )11 CARP-1 WALK TO BRKT-2
MANUAL METHODS
406. TEAR DOUN STAGING BRACKET ON BULKHEAD WITH WRENCH AT ANY TANKS ANIIVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK BRACKETS ARE LOWERED TO* ...MATL-PILE BY WINCH.* MAXIMUM NUMRER OF BRACKETS IN LIFT = 3
CARP-1 BEGINS AT BRKT-2
12
3456
78
9
CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOLDCARP-1 HOLD+LOOSEN NUT AT BRKT-1 13 WRIST-STROKES USING WRENCH-ASIDE TO CARP-1
CARP-1 GET+REMOVE BOLT FROM BRKT-1 TO CARP-1CARP-1 THROW NUT AND BOLT FROM CARP-1 TO MATL-PILE WITHOUT BENDCARP-2 GET+PLACE BRKT FROM BRKT-1 TO BRKT-PILEWINCH-OF’ER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STRUSING HANDS F 1 / 3
WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 F 1 / 3CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK AROUNDBRACKETS ) F 1 / 3
WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 310 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 311 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 312 CARP-2 AND CARP1 WALK TO BRKT-2
MANUAL METHODS
426.
4 2 7 .
4 2 8 .
MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTER
PER STAGING BRACKET OFG: 3 1O-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* ...OR IN TANK AT THE MATERIAL (BIN-1)
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+PLACE WITH BEND BRKT FROM BIN-1 TO BIN-12 CARP-3 GET+PLACE WITH BEND BOLT FROM TOOLBOX-1 TO BIN-1 AND INSERT
BOLT IN BRKT3 CARP-3 FASTEN NUT AT BIN-1 4 WRIST-TURNS USING HANDS4 CARP-3 GET+PLACE BRKT FROM BIN-1 TO BIN-1 ( PILE UP BRKTS FOR
TRANSPORTATION )
MAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTERP E R L A D D E R O F G : 3 1 0 - F E B - 8 2
REPRESENTS ELAPSED TIME* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT,
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE LADR_ AT LDR-PILE AND ADJUST ( ON BOLSTERS )
MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTER
PER STAGING PLANK OFG: 3 10-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE BOARD AT LU-PILE AND ADJUST ( ON BOLSTERS )
MANUAL METHODS
429 MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPEPER STANCHION OFG: 3 10-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING STANCHION READY TO BE* . . .TRANSPORTED,
CARP-3 BEGINS AT LU-PILE
1 CARP-3 GET+PLACE WITH BEND STAN FROM BIN-2 TO BIN-2
430. MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENPER HANDRAIL OFG: 3 10-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...SO THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-2
1 CARP-3 GET+SLIDE HANDRAIL AT HR-PILE AND ADJUST ( ON BOLSTERS )
569. SET-UP STAGING BRACNET ON WEB FRAME WITH WRENCH AT ( WING ) TANKS AVOIDS CARPENTER
PER STAGING BRACKET OFG: 4 24-MAY-83REF’RESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A STAGING BRACKET* .. .ON A EXISTING STAGING CLIP ( LOCATED* ...ON A WEB FRAME )
CARP-1 BEGINS AT WING-TANK
1 CARP-1 GET+HOLD WITH BEND BRKT FROM WING-TANK TO CARP-12 CARP-1 LOOSEN NUT AT WEB-1 4 WRIST-TURNS USING HANDS3 CARP-1 REMOVE BOLT FROM WEB-1 ON BRKT TO CARF-14 CARP-1 GET+PLACE BRKT FROM CARP-1 TO WEB-1 AND INSERT BOLT5 CARP-1 FASTEN NUT AT WEB-I 13 WRIST-TURNS USING HANDS6 CARP-1 FASTEN NUT AT WEB-1 4 ARM-STROKES USING WRENCH-1 ASIDE TO
CARP-I7 CARP-1 WALK TO WEB-2 ( TO 110 NEXT BRKT )
PAGE 117
MANUAL METHODS
570. SET-UP ( ACCESS ) LADDER ON ( INBOARD OR OUTBOARD ) BULKHEAD WITH HANDAT ( WING ) TANKS AND VOIDS CARPENTER
PER LADDER OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP AN ACCESS LADDER* ...ON THE INBOARD OR OUTBOARD BULKHEAD* ...SO THAT THE CARPENTER CAN CLIMB TO* ...THE NEXT LEVEL OF STAGING* ALSO INCLUDES CLIMBING UP AND DOWN THE* . . . L A D D E R
CARF’-1 BEGINS AT WING-TANK
CARP-1 GET+PLACE WITH BEND LADR FROM MING-TANK TO LDRCARP-1 SLIDE ( CLIME-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )
571. POSITION ( SECURE ) ( ACCESS ) LADDER ON ( INBOARD OR OUTROARD )BULKHEAD WITH HAMMER AT ( WING ) TANKS AND VOIDS CARPENTER
PER LADDER OFG: 4 24-MAY-83REPRESENTS ELAPSEKI TIME
* REPRESENTS SECURING A LADDER TO THE* ...INEOARD OR OUTBOARD BULKHEAD USING* . . .FOUR LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT LDR
1 CARP-1 LOOSEN 4 PAINT ON ( INBOARD OR OUTBOARD ) BULKHEAD AT LDR 4STRIKES USING HAMMER-1 ASIDE TO CARP-1
2 CARP-2 GET+PLACE WITH BEND 4 LCLIPS FROM TOOLBOX-2 TO LDR ( TACKINGUPON PLACEMENT ) PF 4 ( 6 )
MANUAL METHODS
573. SET-UP STAGING PLANK ON STAGING BRACKET WITHVOIDS CARPENTER
PER STAGING FLANK OFG: 4 24-MAY-83REPRESEHTS ELAPSED TIME
* REPRESENTS SPREAIIING BOARDS BETWEEN WEBS* 2 HAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ...WEBS+ THEY BOTH PICK UP THE BOARD* ...TOGETHER AND SLlDE IT INTO POSITION,* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.
CARP-1 BEGINS AT WEB-1
1 CARP-1 AND CARP2 GET+SLIDE WITH BEND WITHALIGN
2 CARP-1 WALK TO WEB-2 ( TO DO NEXT SECTIONMOUES TO ANOTHER BRACKET )
575. SET-UP STAGING PLANK ON ( EXISTING ) BRACKETUING ) TANKS AND VOIDS CARPENTER
PER STAGING FLANK OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING BOARDS BETWEEN* ...EXISTING STAGING AND INBOARD OR* ...OUTBOARD BULKHEAD* 2 MAN OPERATION:* CARPENTERS ARE LOCATED AT DIFFERENT WEBS* ...EACH CARPENTER SPREADS TWO BOARDS* . . .SIMULTANEOUSLY* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.
CARP-I BEGINS AT WEB-1
HAND AT ( MING ) TANKS
1 STEP BOARD AT WEB-1
OF BOARDS, CARP2 ALSO
STAGING WITH HAND AT (
1 CARP-1 GET-I-MANIPULATE ( FLIP ) WITH BEND WITH 1 STEP BOARD AT WEAND ALIGN
2 CARP-I WALK TO WEB-2
MANUAL METHODS
577. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT ( WING ) TANKS ANDVOIUS CARPENTER
PER STANCHION CIFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING STANCHION IN THE* . . . H R A C K E T S L E E V E I N A W I N G T A N K
CARP-1 BEGINS AT WEB-1
1 CARP-1 GET+PLACE WITH BEND STANCHION FROM WING-TANK TO WEB-1 ANDINSERT
2 CARP-1 WALK TO WEB-2 ( TO DO NEXT STANCHION )
573. SET-UP HANDRAIL IN STANCHION WITH HAND AT ( WING ) TANKS AND VOIDSCARPENTER
PER HANDRAIL OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL INTO THE * ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL WILL BE DONE IN* ...A SEPARATE SUB OPERATION
CARP-1 BEGINS AT WEB-1
1 CARP-1 GET+SLIDE WITH BEND HANDRAIL AT WEB-2 AND ALIGN ( THRU 2EYELETS (IN THE STANCHIONS AT. WER AND WEB2 ) RETURN TO WEB-1 PF 2
4 5 6 )2 CARF-1 WALK To WEB-2 ( TO DO NEXT SECTION OF HANDRAIL )
5 7 9 . SET-UP HANDRAIL ( END PIECES ) ON ( HAND`RAIL AND ) BULKHEAII WITH HAAT ( WING ) TANKS AND VOIDS CARPENTER
PER HANDRAIL OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL (END PIECES)* . . .AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL ( END PIECES )* ...CONNECTIONS WILL HE DONE IN A* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT WEB-1
1 CARP-1 GET+HOLD WITH BEND HANDRAIL FROM WING-TANK TO CARP-12 FTIME 1,02 M ( CUT HANDRAIL INTO 2 PIECES WITH ELECTRODE )3 CARP-1 GET+PLACE 2 HANDRAIL ( END PIECES ) FROM CARP-1 TO WEB-1
SET-UP ( STAGING CLIP ) ON WEB FRAME WITH HAMMER ( AND STEEL-TAPE )( WING ) TANKS AND VOIUS CARPENTER
PER STAGING CLIP OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A STAGING CLIP ON* ...A WEB FRAME.* WELDING OF THE CLIP WILL BE DONE IN A.* ...SEPARATE SUB OPERATION.
CARP-1 BEGINS AT WING-TANK
CARP-1 MEASURE AT WEB-1 USING STEEL-TAPE-1 ASIDE TO CARP-1CARP-1 LOOSEN PAINT ON WEB AT WEB-1 4 STRIKES USING HAMMER-1 ASITO CARP-1
CARP-1 GET+PLACE WITH BEND SCLIP FROM TOOLBOX-2 TO WEB-1 ( TACKIUPON PLACEMENT )
PAGE 121
SECTION 3MANUAL METHODS
545. ASSEMBLE i-BEAMS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY FLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE BOLTING I-BEAMS* STEPS:* 1-4 ARE FOR THE CONNECTIONS OF I-6 & I-7* ...AT I-1,1-2,I-3,I-4, AND 1-5* 3-6 ARE FOR MOVEMENT OF THE CARPENTER* ...BETUEEN THE CONNECTIONS
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 GET+POSITION 4 BOLTS FROM TOOLBOX-1 TO 1-1 WITH BEND ANDI N S E R T B O L T P F 4 ( 4 5 6 7 ) F 1 0
2 CARP-1 GET+POSITION WITH BEND 4 UASHERS AND NUTS FROM TOOLBOX-1 TOI - 1 W I T H B E N D P F 8 ( 4 5 6 ) F 1 0
3 CARP-1 FASTEN 4 NUTS AT 1-1 13 SPINS DIFFICULT USING FINGERS F 104-CARP-1 FASTEN 4 NUTS AT I-1 13 WRIST-STROKES DIFFICULT USING WRENCH
ASIDE TO CARP-1 F 10S CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO 10 PF 10 (
2 ) PF1O ( 56 )6 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-5 ( AT. I -6 ) TO I-5 (
AT. I-7 ) WITH 10 STEPS WITH BEND
MANUAL METHODS
546. ASSEMBLE ANGLE-EARS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLCARPENTER
PER FLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE ASSEMBLING ANGLES* STEPS:* 1-6 ARE FOR CONNECTIONS OF A-4 AND A-1* ...AT I-1,I-2,I-3,I-4, AND I-S* 7-13 ARE FOR CONNECTIONS OF* ...A-3 AT I-5,I-4, AND I-3 AND* ...A-I AT I-3,I-2, AND I-1* 14-20 ARE FOR CONNECTIONS OF A-5 AND A-6* . . . A T I - 1 . I - 2 . I - 3 . I - 4 . A N D I - 5
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 GET+POSITION ANGLE FROM A-4 TO I-1 WITHOUT BEND F 102 CARP-1 GET+POSITION WITH BEND 2 BOLTS FROM TOOLBOX-1 TO 1-1 WITH
BEND AND INSERT BOLT PF 2 ( 4 3 6 7 ) F 103 CARP-1 GET+POSITION WITH BEND 2 WASHERS AND NUTS FROM TOOLEfoX-1
1-1 WITH BEND PF 2 ( 456 ) F 104 CARP-1 FASTEN 2 NUTS AT I-1 13 SPINS DIFFICULT USING FINGERS F 15 CARP-1 FASTEN 2 NUTS AT I-1 13 WRIST-STROKES DIFFICULT USING WREN
ASIDE TO CARP-1 F 106 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 WIT
STEPS PF 10 ( 2 ) PF 10 ( 56 )7 CARP-1 GET+POSITION ANGLE FROM A-3 TO I-5 WITHOUT BEND F 68 CARP-1 GET+POSITION WITH BEND 2 BOLTS FROM TOOLBOX-1 TO I-5 WITH
BEND AND INSERT BOLT PF 2 ( 4 5 6 7 ) F 69 CARP-1 GET+POSITION WITH BEND 2 WASHERS AND NUTS FROM TOOLBOX-1
1-3 WITH BEND PF 2 ( 4 5 6 ) F 410 CARP-1 FASTEN 2 NUTS AT I-5 13 SPINS DIFFICULT USING FINGERS F 11 CARP-1 FASTEN 2 NUTS AT I-5 13 WRIST-STROKES DIFFICULT USING WRE
ASIDE TO CARP-1 F 612 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-5 TO I-3 WI
10 STEPS PF 3 ( 2 ) PF 3 ( 56 )13 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-3 TO I-1 WI
10 STEPS PF 3 ( 2 ) PF 3 ( 5 6 )14 CARP-1 GET+POSITION ANGLE FROM A-4 TO I-1 ( AT+ A-6 ) F 1015 CARP-1 GET+POSITION WITH BEND 2 BOLTS FROM TOOLBOX-I TO I-1 WIT
BEND AND INSERT BOLT PF 2 ( 4 5 6 7 ) F 10 16 CARP-1 GET+PLACE WITH BEND 2 WASHERS AND NUTS FROM TOOLBOX-1 TO
WITH BEND PF 2 ( 4 5 6 ) F 1017 CARP-1 FASTEN 2 NUTS AT I-1 13 SPINS DIFFICULT USING FINGERS F 18 CARP-1 FASTEN 2 NUTS AT I-1 13 WRIST-STROKES DIFFICULT USING WRE
ASIDE TO CARP-1 F 1019 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-1 TO I-5 PF 10 ( 2 )
10 ( 56 )
PAGE 123
MANIJAL METHODS
20 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-5 ( AT. A-6 ) TO I-5 (AT+ A-5 ) WITH 10 STEPS WITH BEND
539. READ MATERIAL LIST (PRINT) FOR TANK STAGING PLATFORM WITH (EYES) AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER READS PRINT BEFORE LAYING OUT* ...TABLE. READS 48 DIGITS PER LOCATION
CARP-I BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 OPEN+SHUT PRINT F 62 CARP-1 READ 12 DIGITS F 243 CARP-1 HOLD+PLACE PRINT TO CARP-1 ( IN POCKET ) F 6
540. MEASURE (PLATEN) FOR TANK STAGING PLATFORM WITH (STEEL) TAPE AT ANYPLATEN CARPENTER
PER PLATFORll OFG: 4 31-JAN-83REPRESENTS ELAPSED TIME
* REPRESENTS MEASURING TABLE FOR LAYOUT* ANALYSIS INCLUDES ALL THE WALKING....* ...DISTANCES FOR THE LAYOUT.* STEPS:* 2,3,4 ARE FOR I-1,1-2,1-3,I-4, AND 1-5* ...AT A-5 AND A-6.* 5 , 6 , 7 A R E F O R A - 5 , I - 7 , A - 4 , A - 3 , A - 1 , I - 6 ,* . . . A N D 6 - 6 A T I - 5* 5 , 6 , 7 A R E F O R A - 5 , I - 7 , A - 4 , A - 2 , A - 1 , 1 - 6 ,* . . . A N D A - 6 A T I - 1* 9,10,11 ARE FOR A-2 AND A-3 AT I-3
CARP-1 BEGINS AT STORE-2
1 CARP-1 WALK TO TANK-STAGING-PLATFORM ( AT. I-1 ) WITH CLIMB ( ONTABLE )
2 CARP-1 MEASURE AT I-1 USING STEEL-TAPE ASIDE TO CARP-1 F 103 CARP-1 WALK TO 1-5 WITHOUT BEND F 24 CARP-1 WALK TO I-1 WITHOUT BEND AND RETURN TO I-5 WTTHOUT BEND F 25 CARP-1 MEASURE AT A-5 USING STEEL-TAPE ASIDE TO CARP-1 F 146 CARP-1 WALK TO A-6 WITHOUT BEND F 27 CARP-1 WALK TO A-5 WITHOUT BEND AND RETURN TO A-6 WITHOUT BEND F 28 CARP-1 WALK TO I-3 WITH 6 STEPS WITHOUT BEND9 CARP-1 MEASURE WITH 8 STEPS AT A-2 USING STEEL-TAPE ASIDE TO CARP-110 CARP-1 MEASURE AT A-3 USING STEEL-TAPE ASIDE TO CARP-1
MANUAL METHODS
11 CARP-1 WALK TO STORE-2 WITH DESCEND ( OFF TABLE )
541. MARK (PLATEN) FOR TANK STAGING PLATFORM WITH MARKER AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* REPRESENTS MARKING THE LAYOUT FOR A TANK* ..STAGING PLATFORM AND INSPECTING WORK.* THE FOLLOWING PLACES ARE LAID OUT:* ...AT A-5 AND A-6:* ...I-1,l-2,1-3,1-4, AND 1-5* ...AT I-1 AND I-5:* ...A-6,1-6,A-1,A-4,1-7, AND A-5* ...A-2 IS LAID OUT AT I-3 AND I-1* ...A-3 IS LAID OUT AT I-3 AND 1-5
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 MARK AT 1-1 5 DIGITS USING MARKER ASIDE TO CARP-1 F 252 CARP-1 INSPECT 5 POINTS F 25
542. TRANSPORT PALLET (I-BEAMS AND ANGLES) FOR TANK STAGING PLATFORM WIT(CRANE) AT ANY PLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* MATERIAL NEEDED FOR ONE PLATFORM:* . . . I - B E A M S - 7* ...ANGLES - 6
HOOKER-ON BEGINS AT CR-1
1 HOOKER-ON TRANSPORT PALLET FROM STORE-1 USING CRANE-1 WITH 2HOOK+SLING TO STORE-2 PLACE+ADJUST RETURN TO CR-1
MANUAL METHODS
547. TRANSPORT STAGING FLANKS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* BOARDS ARE TRANSPORTED FROM LUMBER PILE* ...WHICH IS LOCATED ON THE PLATEN,* TOTAL NUMBER OF BOARDS IN LIFT = 64* TOTAL LIFTS = 2 (PORT AND STARBOARD)
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT BOARDS FROM LUMBER-FILE USING CRANE-2 WITH 2HOOK+SLING TO TANK-STAGING-PLATFORM ( AT+ A-5 ) PLACE+NANEUVER
RN CRANE-2 TO CR-2 RETURN HOOKER-ON TO STORE-2 F 2
549. TRANSPORT (FINISHED) TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* TRANSPORT FINISHED PLATFORM TO A STORAGE* . . . P I L E
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT FIN-PLATFORM FROM TANK-STAGING-PLATFORM USINGCRANE-2 WITH 2 HOOK+SLING TO FIN-PILE PLACE+HANEUUER RETURN CRANE-2TO CR-2 AND RETURN HOOKER-ON TO STORE-2
PAGE 126
MANUAL METHODS
555. POSITION (RAISE) TANK STAGING PLATFORM WITH (CRANE) AT MID TANKS A NVOIDS CARPENTER
PER PLATFORM OFG: 4 17-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS RAISING TYPICAL PLATFORM IN A* ...CENTER TANK AND SECURING IT TO THE* ...MAIN DECK.* 2 carpenters WORK SIMULTANEOUSLY ON THE
* ...MAIN DECK* 2 CARPENTERS WORK SIMULTANEOUSLY IN THE* ...CENTER TANK ON THE PLATFORM* STEPS:* 1-4 FEEDING 4 CABLES THROUGH BUTTERWORTH* ..HOLES ON MAIN DECK* 7-12 CONNECTION OIF SHACKLES ON PLATFORM* 14-19 CONNECTION OF SUSPENSION CABLES ON* ...PLATFORM AND MAIN DECK* 21-26 REMOVING SHACKLES FROM FLATFORM* 27-29 REMOVING CABLES FROM CENTER TANK
CARP-3 BEGINS AT MENHOLE
1 CARP-3 GET+PLACE WITH BEND CABLE-SLEEVE FROM MENHOLE TO BTRWTH4 INSERT
2 CARP-3 GET+PLACE CABLE-SLEEVE FROM MENHOLE TO BTRWTH2 AND INSERT3 CARP-3 GET+MANIPULATE CABLE AT BTRUTH4 AND ADJUST4 CARP-3 GET+MANIPULATE CABLE AT BTRWTH2 AND ADJUST5 WAIT 5 M ( CRANE LOWERS 4 CABLES TO PLATFORM )6 CARP-1 AND CARP2 WALK TO PLATFORM WITH 24 STEPS WITH CLIMB-OBJEC7 CARP-1 LOOSEN NUT ( ON SHACKEL ) AT BTRUTH4 8 WRIST-TURNS USING
HANDS F 28 CARP-1 GET+REMOUE BOLT FROM BTRWTH4 TO CARP-1 F 29 CARP-1 GET+MANIPULATE WITH BEND SHACKLE AT BTRWTH4 AND ALIGN F 210 CARP-1 GET+POSITION BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 211 CARP-1 FASTEN NUT AT BTRWTH4 8 WRIST-TURNS USING HAHDS F 212 CARP-1 WALK TO BTRWTH2 WITHOUT BEND13 WAIT 15 M ( CRANE RAISES PLATFORM JUST BELOW MAIN DECK )14 CARP-1 LOOSEN WITH BEND+STAND NUT ( ON SUSPENSION CABLE SHACKE
AT BTRWTH2 8 WRIST-TURNS USING HANDS F 415 CARP-1 GET+REMOVE BOLT FROM BTRWTH2 TO CARP-1 F 416 CARP-1 GET+MANIPULATE WITH BEND+STAND SUSPENSION-CABLE AT BTRWT
AND ALIGN F 417 CARP-1 GET+POSITION BOLT FROM CARP-1 TO BTRUTH2 F 418 CARP-1 FASTEN WITH BEND+STAND NUT AT BTRWTH2 8 WRIST-TURNS USIN
HANDS F 419 CARP-1 WALK TO BTRWTH4 WITH FLAT-CRAWL20 WAIT 1 H ( CRANE TO LOWER PLATFORM TO TIGHTEN SLACK ON SUSPENS
CABLE )
MANUAL METHODS
21 CARP-1 LOOSEN NUT WITH BEND ( ON SHACKEL ) AT BTRWTH4 8 WRIST-TURNSUSING HANDS F 2
22 CARP-123 CARP-124 CARP-1
23 CARP-126 CARP-127 WAIT 528 CARF-329 CARP-3
GET+REMOVE BOLT FROM BTRWTH4 TO CARP-1 F 2GET+PICKUP WITH BEND SHACKLE FROM PLATFORM F 2GET+PLACE BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 2FASTEN NUT AT BTRWTH4 8 WRIST-TURNS USING HANDS F 2WALK TO BTRUTH2 WITH FLAT-CRAWLM ( CRANE RAISES 4 CARLES OUT OF THE CENTER TANK )GET+PLACE CABLE-SLEEVE FROM BTRWTH4 TO MENHOLEGET+PLACE CABLE-SLEEVE FROM BTRWTH2 TO MENHOLE
554. POSITION (LOWER) TANK STAGING PLATFORM WITH (CRANE) AT MIDVOIDS CARPENTER
PER PLATFORM OFG: 4 17-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS LOWERING TYPICAL PLATFORM IN* ...A CENTER TANK AND REMOVING IT* . . .THE MAIN DECK,* 2 CANPENTERS WORK* . . .MAIN DECK* 2 CARPENTERS WORK* ...CENTER TANK ON* STEPS:
SIMULTANEOUSLY
SIMULTANEOUSLYTHE PLATFORM
FROM
ON THE
IN THE
* 1-4 FEEDING 4 CABLES THROUGH BUTTERWORTH* ...HOLES ON MAIN DECK* 6-11 CONNECTION OF SHACKLES ON PLATFORM* 13-18 REMOVAL OF SUSPENSION CABLES FROM* ...PLATFORll AND MAIN DECK* 23-28 REMOVING SHACKLES FROM PLATFORM* 29-31 REMOVING CABLES FROM CENTER TANK
CARP-3 BEGINS AT MENHOLE
1 CARP-3 GET+PLACE WITH BEND CABLE-SLEEVE FROM MENHOLE TOI N S E R T
TANKS AND
BTRUTH4 AND
2 CARP-33 CARP-34 CARP-35 WAIT 36 CARP-1
HANDS7 CARP-18 CARP-19 CARP-1
GET+PLACE CABLE-SLEEVE FROM MENHOLE TO BTRWTH2 AND INSERTGET+MANIPULATE CABLE AT BTRWTH4 AND ADJUSTGET+MANIPULATE CABLE AT BTRWTH2 AND ADJUSTM ( CRANE LOWERS 4 CABLES TO PLATFORM )LOOSEN NUT ( ON SHACKEL ) AT BTRWTH4 8 WRIST-TURNS USINGF 2GET+REMOVE BOLT FROM BTRWTH4 TO CARP-1 F 2GET+MANIPULATE WITH BEND SHACKLE AT BTRWTH4 AND ALIGN F 2GET+POSITION BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 2
10 CARP-1 FASTEN NUT AT BTRWTH4 8 WRIST-TURNS USING HANDS F 211 CARP-I WALK TO BTRWTH2 WITH FLAT-CRAUL
PAGE 128
MANUAL METHODS
SUSPENSION CABLES )13 CARP-1 LOOSEN WITH BEND+STANB NUT ( ON SUSPENSION CABLE SHACKEL
AT BTRWTH2 8 WRIST-TURNS USING HANDS F 414 CARP-1 GET+REMOVE BOLT FROM BTRWTH2 TO CARP-1 F 415 CARP-1 GET+MANIPULATE WITH BEND+STAND SUSPENSION-CABLE AT BTRWT
AND ALIGN F 416 CARP-1 GET+POSITION BOLT FROM CARP-1 TO BTRWTH2 F 417 CARP-1 FASTEN WITH BEND+STAND NUT AT BTRWTH2 8 WRIST-TURNS USIN
HANDS F 418 CARP-1 WALK TO BRWTH4 WITH FLAT-CRAUL19 WAIT 15 M ( CRANE TO LOWER PLATFORM TO APPROXIMATELY 3 FEET ABO
THE TANK-TOP )20 CARP-1 AND CARP2 WALK TO MENHOLE WITH CLIMB-OBJECT21 CARP-I GET+MANIPULATE BLOCK FROM MENHOLE TO PLATFORM WITH 12 ST
AND ADJUST F 222 WAIT 1 M ( CRANE LOWERS PLATFORM ON 4 WOODEN BLOCKS )
23 CARP-1 LOOSEN NUT WITH CLIMB-OBJECT ( ON SHACNEL ) AT BTRWTH4 8WRIST-TURNS USING HANDS F 2
24 CARP-1 GET+REMOVE BOLT FROM BTRWTH4 TO CARP-1 F 225 CARP-1 GET+PICKUP WITH BEND SHACKLE FROM PLATFORM F 226 CARP-1 GET+PLACE BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 227 CARP-1 FASTEN NUT AT BTRWTH4 8 WRIST-TURNs USING HANDS F 228 CARP-1 WALK TO ETRWTH2 WITHOUT BEND29 WAIT 5 H ( CRANE RAISES 4 CABLES OUT OF THE CENTER TANK )30 CARP-3 GET+PLACE CABLE-SLEEVE FROM BTRWTH4 TO MENHOLE31 CARP-3 GET+PLACE CABLE-SLEEVE FROM BTRWTH2 TO MENHOLE32 CARP-1 AND CARP2 WALK TO MENHOLE WITH CLIMB-OBJECT
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MANUAL METHODS
557. POSITION (PLACE) TANK STAGING FLATFORM ( AND BOARDS ) IN ( TYPICAL TANK) WITH ( CRANE ) AT ANY SHIP CARPENTER
PER PLATFORM OFG: 4 17-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SETTING TANK STAGING PLATFORM* .. . IN A TYPICAL TANK ON THE SHIP. ALSO* ...THE BOARDS NEEDES TO EXTEND THE* ...PLATFORM UNDER THE MAIN DECK,* 2 HOONER-ONS: ONE AT THE MATERIAL AND* ...ONE ON THE SHIP IN THE TANK.* TOTAL OF 280 FOR TYPICAL TANK* 7 LIFTS ( 40 BOARDS PER LIFT )
HOOKER-ON1 BEGINS AT S-7
1 TRANSPORT TANK-STAGING-PLATFORM FROM S-7 USING CRANE-1 WITH2-HOOK+SLING TO TANK POSITION+MANEUVER RETURN TO S-7 PF 4 ( 3 )
2 TRANSPORT BOARDS FROM S-7 USING CRANE-1 WITH HOOK+SLING TO TANKPLACE+ADJUST RETURN TO S-7 F 6
3 TRANSPORT BOARDS FROM S-7 USING CRANE-1 WITH HOON+SLING TO TANKPLACE+ADJUST RETURN TO CR-1
343. SET-UP I-BEAMS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS SIMULTANEOUSLY WITH THE* ...HOOKER-ON* STEP 3 INCLUDES SPREADING I-BEAMS AT:* . . . I - 2 , 1 - 3 , I - 4 , A N D I - 5
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT I-READ FROM STORE-2 USING CRANE-2 WITHHOOK+SLING TO 1-6 PLACE+HANEUVER RETURN TO STORE-2
2 HOOKER-ON TRANSPORT I-BEAM FROM STORE-2 USING CRANE-2 WITHHOOK+SLING TO I-7 PLACE+HANEUVER RETURN TO STORE-2
3 HOOKER-ON TRANSPORT I-BEAM FROM STORE-2 USING CRANE-2 WITHHOOK+SLING TO I-1 PLACE-I-MANEUVER RETURN TO STORE-2 F 5
MANUAL METHODS
544. SET-UP ANGLE-BARS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANY PLACARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS SIMULTANEOUSLY WITH THE* ...HOOKER-ON* STEP 1 INCLUDES SPREADING ANGLES AT:* . . . A - 6 , A - 1 , A N D A - 2* STEP 2 INCLUDES SPREADING ANGLES AT:* ...A-3,A-4, AND A-5
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT ANGLE FROM STORE-2 USING CRANE-2 WITH HOOK+STO A-6 PLACE+MANEUVER RETURN TO STORE-2 F 3
2 HOOKER-ON TRANSPORT ANGLE FROM STORE-2 USING CRANE-2 WITH HOOK+STO A-4 PLACE+MANEUUER RETURN TO STORE-2 F 3
548. SET-UP STAGING PLANKS ON TANK STAGING PLATFORM WITH HANDS AT ANY PLCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTERS SPREAE BOARDS SIMULTANEOUSLY* BOARDS ARE SPREAE ON PORT SIDE FIRST....* ...THEN STARBOARD SIDE.* TOTAL BOARDS PER SIDE = 32* STEPS:* 2-5 SPREAD BOARDS BETWEEN A-6 & I-6 P/S
* 6-8 SPREAD BOARDS BETWEEN I-6 & A-1 P/S* 9-11 SPREAD BOARDS BETWEEN A-1 & A-3 S* ...AND A-1 & A-2 P* 12-14 SPREAD BOARDS BETWEEN A-3 & A-4 S* ...AND A-2 & A-4 P* 15-17 SPREAD BOARDS BTWN A-4 & I-7 P/S* 18-20 SPREAD BOARDS BTWN I-7 & A-5 P/S* 21-22 SPREAD BOARD AT A-5 P/S
CARP-I BEGINS AT STORE-2
1 CARP-1+CARP-2 WALK TO TANK-STAGING-PLATFORM WITH CLIMB ( ONTOPLATFORM )
2 CARP-1+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-6 F 23 CARF-1+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-6 F 64 CARP-1+CARF’-2 GET+SLIDE WITH BEND BOARD AT A-6 AND ALIGN F 85 CARP-1+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-6 WI
BEND F 166 CARP-1+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO I-6 F 2
PAGE 131
MANUAL METHODS
7 CARP-1+CARP-2 GET+SLIDE WITH BEND BOARD AT I-6 AND ALIEN F 28 CARP-1+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO 1-6 WITH
BEND F 49 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-1 F 81 011
13
14
151617
181920
23
CARP-1+CARP-2 GET+SLIDE WITH BEND BOARD AT A-1 AND ALIGN F 8CARP-1+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-1 WITHBEND F 1 6CARP-1+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-3 ( PORT OR A-2STAR ) F 6CARP-1+CARP-2 GET+SLIDE WITH BEND BOARD AT A-3 ( PORT OR A-2 STAR )AND ALIGN WITH BEND F 6CARP-1+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-3 (PORT OR A-2 STAR ) WITH BEND F 12CARP-1+CARP-2CARP-1+CARP-2CARP-1+CARP-2BEND F 12CARP-1+CARP-2CARP-1+CARP-2CARP-1+CARP-2BEND F 4CARP-1+CARP-2CARP-1+CARP-2BEND F 4CARP-1+CARP-2
GET+POSITION 2 BOARDS FROM A-5 TO A-4 F 6GET+SLIDE WITH BEND BOARD AT A-4 AND ALIGN F 6GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-4 WITH
GET+POSITION 2 BOARDS FROM A-5 TO I-7 F 2GET+SLIDE WITH BEND BOARD AT I-7 AND ALIGN F 2GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO I-7 WITH
GET+SLIDE BOARD AT A-5 AND ALIGN F 2GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-5 WITH
WALK TO STORE-2 WITH DESCEND ( OFF PLATFORM )
MANUAL METHODS
550. TEAR DOWN ANGLES ON TANK STAGING PLATFORM WITH WRENCH AT MIDVOIDS CARPENTER
PER PLATFORM OFG: 4 11-MAY-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE UNBOLTING ANGLES* STEPS:* 1-5 ARE FOR REMOVING BOLTS ON A-4 2 A-1* . . . A T I - 1 , I - 2 , I - 3 , I - 4 , A N D I - 5* 7-11 ARE FOR REMOVING BOLTS * ...ON A-3 AT I-1,I-2, & I-3* ...ON A-1 AT I-3,I-4~ & I-5* 14-18 FOR REMOVING BOLTS ON A-5 & A-6* ...AT I-1,I-2,I-3,I-4 & I-3
CARP-1 BEGINS AT I-1
1 CARP-1ASIDE
2 CARP-I3 CARP-1
F 204 CARP-1
F 105 CARP-I6 CARP-1
STEPS7 CARP-1
ASIDE8 CARP-19 CARP-1
10
1112
13
14
1516
17
1819
12
LOOSEN 2 NUTS AT I-1 5 WRIST-TURNS DIFFICULT USINGTO CARP-1 F 10LOOSEN 2 NUTS AT I-1 20 SPINS USING FINGERS F 10GET+PLACE 2 NUTS AND WASHERS FROM I-1 TO TOOLBOX-1
LOOSEN 2 BOLTS AT I-1 3 STRIKES USING HAMMER ASIDE
TANKS A
WRENCH
WITH BEN
TO CAR
GET+PLACE 2 BOLTS FROM I-1 TO TOOLBOX-1 WITH BEND F 20GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 WITHPF 10 ( 2 ) PF 10 ( 56 )LOOSEN 2 NUTS AT I-5 5 WRIST-TURNS DIFFICULT USING WRENCHTO CARP-1 F 6LOOSEN 2 NUTS AT I-5 20 SPINS USING FINGERS F 6GET+PLACE NUTS AND WASHERS FROM I-5 TO TOOLBOX-1 WITH BEND
CARP-1 LOOSEN 2 BOLTS AT I-5 3 STRIKES USING HAMMER ASIDE TO CARPF 6CARP-1 GET+PLACE 2 BOLTS FROM I-5 TO TOOLBOX-1 WITH BEND F 12CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-5 TO I-3 WIT10 STEPS PF 3 ( 2 ) PF 3 ( 5 6 )CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-3 TO I-1 WI10 STEPS PF 3 ( 2 ) PF3 ( 56 )CARP-1 LOOSEN 2 NUTS AT I-1 5 WRIST-TURNS DIFFICULT USING WRENCASIDE TO CARP-1 F 10CARP-1 LOOSEN 2 NUTS AT I-1 20 SPINS USING FINGERS F 10CARP-1 GET+PLACE 2 NUTS AND WASHERS FROM I-1 TO TOOLROX-1 WITH BEF 20CARP-1 LOOSEN 2 BOLTS AT I-1 3 STRIKES USING HAMMER ASIDE TO C A RPF 10CARP-1 GET+PLACE BOLTS FROM I-1 TO TOOLBOX-1 WITH BEND F 20CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 WIT14 STEPS PF 10 ( 2 ) PF 10 ( 56 )
PAGE 1 3 3
MANUAL METHODS
551. TEAR DOWN I-BEANS ON TANK STAGING PLATFORM WITH WRENCH AT MID TANKS ANDVOIDS CARPENTER
PER PLATFORM OFG: 4 11-MAY-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE UNBOLTING I-BEAMS* STEPS:* I-5 ARE FOR REMOVING BOLTS ON I-6 & I-7* . . . A T I - 1 , I - 2 , I - 3 , I - 4 , A N D I - 5* 6,7 ARE FOR MOVEMENT OF THE CARPENTER* ...BETWEEN THE CONNECTIONS
CARP-1 BEGINS AT I-1
1 CARP-1 LOOSEN 4 NUTS AT I-1 5 WRIST-TURNS DIFFICULT USING WRENCHASIDE TO CARP-1 F 10
2 CARP-1 LOOSEN 4 NUTS AT I-1 20 SPINS USING FINGERS F 103 CARP-1 GET+PLACE 4 NUTS AND MASHERS FROM I-1 TO TOOLBOX-1 WITH BEND
F 404 CARP-1 LOOSEN 4 BOLTS AT I-1 3 STRIKES USING HAMMER ASIDE TO CARP-1
F 105 CARP-1 GET+PLACE 4 BOLTS FROM I-1 TO TOOLBOX-1 WITH BEND F 4 06 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 WITH 1.
STEPS PF 10 ( 2 ) PF 10 ( 5 6 )7 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-5 ( AT, I -6 ) TO I-5 (
AT. I-7 ) WITH 10 STEPS WITH BEND
MANUAL METHODS
552. TEAR DOWN STAGING PLANKS ON TANK STAGING PLATFORM WITH WINCH AT MIDTANKS AND VOIDS CARPENTER
PER PLATFORM OFG: 4 18-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BOARDS ON A TANK* ...STAGING PLATFORM (IN A CENTER TANK) * TOTAL BOARDS = 64 (22 LIFTS)* 2 CARPENTERS MOVE BOARDS FROM THE TANK* ...STAGING PLATFORM TO A LUMBER-PILE* ...LOCATED NEAR A MANHOLE. A WINCH* ...OPERATOR AND A CARPENTER REMOVE THE* ...BOARDS FROM THE TANK. THERE ARE 2* ...CARPENTERS WHO RECEIVE AND STACK THE* ...BOARDS ON THE DECK, THEIR TIME IS* ...INTERNAL TO THE WINCH PROCESS TIME.
CARP-1 BEGINS AT I-5
1 CARP-1 AND CARP2 LOOSEN BOARD AT I-5 WITH BEND 2 ARM-STROKES USINGHANDS F 32
2 CARP-1 AND CARP2 GET+MANIPULATE BOARD WITH CLIMB-OBJECT ATLUMBER-PILE ALIGN AND RETURN TO I-5 WITH CLIMB-OBJECT F 32
3 CARP-I AND CARP2 WALK TO 1-3 WITH CLIMB-OBJECT4 CARP-1 AND CARP2 LOOSEN BOARD AT I-3 WITH BEND 2 ARM-STROKES USING
HANDS F 325 CARP-1 AND CARP2 GET+llANIPULATE WITH CLIMB-OEJECT BOARD AT
LUMBER-PILE ALIGN AND RETURN TO I-3 WITH CLIMB-OBJECT F 326 CARP-3 GET+SLIDE WITH BEND BOARD ( ONTO BOLSTER ) AT LUMBER-PILE
ADJUST F 647 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 228 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 229 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 2210 CARP-3 GET+MANIPULATE WITH BEND CABLE AT LUMBER-FILE ( HOOK AROU
BOARDS ) ( ALLOW FOR 2 ATTEMPTS ) F 4411 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 2212 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 22
PAGE 135
MANUAL METHODS
553. TEAR DOWN ANGLES ON TANK STAGING PLATFORM WITH WINCH AT MID TANKS ANDVOIDS CARPENTER
PER PLATFORM OFG: 4 11-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF ANGLES ON A TANK* ...STAGING PLATFORM (IN A CENTER TANK)* TOTAL ANGLES = 6 (1 LIFT)* 1 CARPENTER MOVES ANGLES TO ONE AREA ON* ...THE TANK STAGING PLATFORM* ...LOCATED NEAR A MIANHOLE. A WINCH* ...OPERATOR AND A CARPENTER REMOVE THE* ...ANGLES FROM THE TANK, THERE ARE 2* ...CARPENTERS WHO RECEIVE AND STACK THE* ...ANGLES ON THE DECK, THEIR TIME IS* ...INTERNAL TO THE WINCH PROCESS TIME.
CARP-3 BEGINS AT LUMRER-PILE
12
3
4
5
678
9
CARP-3 WALK TO A-5 WITH 12 STEPS WITH CLIMB-OBJECTCARP-3 GET+MANIPULATE ANGLE WITH BEND+CLIMB-STEP AT A-6 ALIGN ANDRETURN TO A-4 WITH CLIME-STEP
CARP-3 GET+MANIPULATE WITH BEND+CLIMB-STEP ANGLE AT A-6 ALIGN ANDRETURN TO A-3 WITH CLIMB-STEP
CARP-3 GET+MANIPULATE WITH BEND+CLIMB-STEFF ANGLE AT A-6 ALIGN A N DRETURN TO A-2 WITH CLIMB-STEP
CARP-3 GET+MANIPULATE WITH BEND+CLIMB-STEP ANGLE AT A-6 ALIGN ANDRETURN TO A-1 WITH CLIMB-STEP
CARP-3 GET+MANIPULATE WITH BEND+CLIMII-STEP ANGLE AT A-6 ALIGNWINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP )WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDSWINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3
10 CARP-3 GET+MANIPULATE WITH BEND CABLE AT A-6 ( HOOK AROUND ANGLES ( ALLOW FOR 2 ATTEMPTS ) F 2
11 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )12 WINCH-OPER PUSH WINCH-up PROCESS ( To MENHOLE )
PAGE 136
MANUAL METHODS
554. TEAR DOWN I-BEAMS FOR TANK STAGING PLATFORM WITH WINCH AT MID TANKS VOIDS CARPENTER
PER PLATFORM OFG: 4 11-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF I-BEAMS FROM THE* ...TANK STAGING PLATFORM* TOTAL I-BEAMS = 7 (7 LIFTS)* A CARPENTER AND WINCH OPERATOR REMOVE* ...THE I-BEAMS FROM THE TANK. THERE ARE* ...2 CARPENTERS WHO RECEIVE AND STACK* . . .THE I-BEAMS ON THE BECK, THEIR TIME* ...IS INTERNAL TO THE WINCH PROCESS TIME
CARP-3 BEGINS AT A-6
1 CARP-3 WALK TO 1-5 WITH & STEPS WITH CLIMB-STEP PF 4 ( 2 )2 WINCH-OPER PUSH WINCH-DOWN PROCESS F 73 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT, MENHOLE 5
ARM-STROKES USING HANDS F 74 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 75 CARP-3 GET+MANIPULATE WITH BEND CABLE AT 1-5 ( HOOK AROUND I-BEAM
( ALLOW FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )6 CARP-3 GET+MANIPULATE CABLE AT 1-4 ( HOOK AROUND I-BEAM ) ( ALLOW
FOR 2 ATTEMPTS ) FOR 2 ( 2 3 4 )7 CARP-3 GET+MANIPULATE CABLE AT I-3 ( HOOK AROUND I-BEAM ) ( ALLOW
FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )8 CARP-3 GET+MANIPULATE CABLE AT I-2 ( HOOK AROUND I-BEAM ) ( ALLOW
FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )9 CARP-3 GET+MANIPULATE CABLE AT I-1 ( HOOK AROUND I-BEAM ) ( ALLOW
FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )10 CARP-3 GET+MANIPULATE WITH 13 STEPS CABLE AT I-7 ( HOOK AROUND
I-BEAM ) ( ALLOW FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )11 CARP-3 GET+MANIPULATE CABLE AT I-6 ( HOOK AROUND I-BEAM ) ( ALLO
FOR 2 ATTEMPTS ) PF 2 ( 2 3 4 )12 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 713 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 7
P A G E 1 3 7
MANUAL
538. (BRUSH) CLEAN (PLATEN)PLATEN CARPENTER
METHODS
FOR TANK STAGING PLATFORM WITH BROOM AT ANY
PER PLATFORtf OFG: 4 31-JAN-83REPRESENTS ELAPSED TIME
* REPRESENTS CLEANING THE TABLE BEFORE THE* ...TANK STAGING PLATFORM IS ASSEMBLED.* SQUARE FOOTAGE OF AREA CLEANEE = 700
CARP-1 BEGINS AT STORE-2
1 CARP-1 BRUSHCLEAN TANK-STAGING-PLATFORM ( TABLE ) WITH CLIMB ( ONTABLE ) 7 SQ.FT. USING BROOM RETURN TO STORE-2 WITH DESCEND ( OFF
B L E ) P F 9 9 ( 7 )
559. SET-UP STAGING PLANKS FOR TANK STAGING PLATFORM WITH HAMMER AT MIDTANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 4 20-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING BOADS FROM A TANK* ...STAGING PLATFORM TO EXISTING STAGING* ...ON THE BULKHEADS.* 2 CARPENTERS WHO ARE NOT WORKING
* ...SIMULTANEOUSLY.CARP-1 BEGINS AT STAR-BHD
1
2
3
45
6
7
8
CARP-2 GET+MANEUVER WITH BEND BOARD AT STAR-BHD AND RETURN TOPLATFORM
CARP-1 GET+MANIPULATE WITH 1 STEP WITH BEND BOARD AT STAR-BHDALIGN
AND
CARP-2 GET+PLACE WITH 6 STEPS WITH BEND NAILS FROM TOOLBOX-1 TOCARP-2 WITH 6 STEPS ( POCKET )
CARP-1 GET+PLACE WITH BEND NAILS FROM TOOLBOX-1 TO CARP-1 ( POCKET )CARP-2 GET+POSITION WITH 1 STEP 3 NAILS FROM CARP-2 TO PLATFORH ( 0BOARDS ) WITH BEND PF 3 ( 2 3 4 5 6 7 )
CARP-1 GET+POSITION WITH 1 STEP 3 NAILS FROM CARP-1 TO STAR-BHD ( 01BOARDS ) WITH BEND PF 3 ( 2 3 4 5 6 7 )
CARP-2 FASTEN 3 NAILS AT PLATFORM 16 STRIKES USING HAMMER-2 ASIDE TOCARP-2 F 2
CARP-1 FASTEN 3 NAILS AT STAR-BHD 16 STRIKES USING HAMMER-1 ASIDE TOCARP-I F 2
PAGE 138
MANUAL METHODS
560. TEAR DOWN HANDRAIL ( AND STANCHION ) ON ( LONGITUDINAL ) BULKHEAD TORCH AT MID TANKS AND VOIDS CARPENTER
PER ASSEMBLY OFG; 4 20-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM TOP* ...LEVEL OF BULKHEAD STAGING IN A CENTER* ...TANK, THIS IS DONE AFTER BOARDS HAVE* ...BEEN SPREAD TO TANK STAGING PLATFORM* CARPENTER WORKS ALONE* HOOKUP, IGNITE AND EXTINGUISH TORCH ARE* ...IN A SEPARATE SUB-OP
CARP-3 BEGINS AT FLATFORM
1 CARP-3 GET+MOVE WITH BEND TORCH FROM PLATFORM TO BRKT-12 CARP-3 OPERATE TORCH FROM BRKT-1 TO BRKT-2 AND BURN OFF 2 HANDR
PROCESS PF 4 ( 5 )3 CARP-3 HULD+PLACE TORCH FROM BRNT-2 TO STAR-BHD4 CARP-3 GET+MANIPULATE 2 HANDRAIL AT STAR-BHD F 25 CARP-3 HOLD+PLACE 2 HANDRAIL FROM STAR-BHD TO PLATFORM WITH BEND
RETURN TO STAR-BHD6 CARP-3 LOOSEN 2 STANCHIONS AT STAR-BHD WITH 6 STEPS ( AT. BRKT1
BRKT2 ) 4 ARM-STROKES USING HANDS7 CARP-3 GET+PLACE 2 STANCHIONS FROM STAR-BHD TO PLATFORM WITH BEN
RETURN TO STAR-BHD PF 2 ( 1 2 3 )9 CARP-3 GET+MOVE WITH BEND TORCH FROM STAR-BHD TO PLATFORM WITH B
PAGE 139
MANUAL METHODS
561. SET-UP STAGING BRACKETS FOR (BETWEEN) TANK STAGING PLATFORM WITH WRENCHAT MID TANKS AND VOIDS CARPENTER
PER CENTER TANK OFG: 4 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SETTING UP BRACKETS ON 2 TANK* ...STAGING PLATFORMS, BOARDS ARE SPREAD* ...BETWEEN THE BRACKETS.* THIS ASSEMBLY IS USED TO CONNECT THE TWO* . . .TANK STAGING PLATFORMS.* 2 CARPENTERS WORKING SIMULTANEOUSLY EACH* ...WORKING ON A DIFFERENT PLATFORM.* STEPS:* 1-6 REPRESENTS SETTING UP BRACKETS AT* . . . B R - 1 , B R - 2 , A N D B R - 3* 7 REPRESENTS SFREADING BOARDS BETWEEN* ...BR-1 AND BR-2; BR-2 AND BR-3
CARP-1 BEGINS AT PLFM1
1 CARP-1 GET+HOLD WITH BEND BRKT FROM PLFM1 TO CARP-1 F 32 CARP-1 LOOSEN NUT AT PLFH1 4 WRIST-TURNS USING HANDS F 33 CARP-1 GET+POSITION BRKT FROM CARP-1 TO BR-1 AND INSERT BOLT F 34 CARP-I FASTEN NUT AT BR-1 13 WRIST-TURNS USING HANDS F 35 CARP-1 FASTEN NUT AT BR-l 4 ARM-TURNS USING WRENCH-1 ASIDE TO CARP-1
F 36 CARP-1 WALK TO PLFM1 F 37 CARP-1 GET+MANEUVER 3 BOARBS AT BR-1 AND ALIGN RETURN TO PLFM1 WITH
BEND F 6
MANUAL METHODS
562. SET-UP STAGING PLANKS FOR (BETWEEN) TANK STAGING PLATFORMS WITH HAMMAT HID TANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 4 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING BOARDS BETWEEN TWO* ...TANK STAGING PLATFORMS* 2 CARPERNTERS ARE NOT WORKING* ...SIMULTANEOUSLY
CARP-1 BEGINS AT PLFMl
1 CARP-12 CARP-23 CARP-14 CARP-25 CARP-1
BOARD6 CARP-2
BOARD7 CARP-1
GET+MANEUVER WITH BEND BOARD AT CARP-2 RETURN TO PLFM1GET+MANIFULATE WITH 1 STEP WITH BEND BOARD AT PLFM2GET+PLACE NAILS FROM TOOLBOX-1 TO CARP-1GET+PLACE NAILS FROM TOOLBOX-2 TO CARF-2GET+POSITION WITH 1 STEP 3 NAILS FROM CARP-1 TO PLFM1 ( O) WITH REND PF 3 ( 2 3 4 5 6 7 )GET+POSITION WITH 1 STEP 3 NAILS FROM CARP-2 TO PLFM2 ( O) WITH BEND PFFASTEN 3 NAILS
CARP-1 F 28 CARP-2 FASTEN 3 NAILS
CARP-2 F 2
9. HOOK-UP AND UNHOOK TORCHPER EA OFG: 1 31-JUL-81
3 ( 2 3 4 5 6 7 )AT PLFM1 16 STRIKES USING HAMMER-1 ASIDE T
AT PLFM2 16 STRIKES USING HAMMER-2 ASIDE
ON MANIFOLD WITH WRENCH AT SHIP
* TORCH AND HOSE LOCATED AT MANIFOLD* UNHOOK IS THE REVERSE OF HOOKUP
CARP4 BEGINS AT HOOK-UP
1 FASTEN HOSE TO MANIFOLD 4 SPINS USING FINGERS2 FASTEN HOSE TO MANIFOLO 2 WRIST-STROKES USING WRENCH4 AND ASIDE
MANUAL METHODS
10. IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANKPER EA OFG: 1 03-AUG-81
* HOOK-UP NOT INCLUDEDFITTER BEGINS AT JOB
1 LOOSEN 2 KNOBS ON TORCH AT JOB CLOSE 1 SPIN USING FINGERS2 PRESS STRIKER AT TORCH FOR IGNITING AND CLEAR3 PULL GOGGLES AT SELF OVER EYES4 TURN KNOB AT TORCH AND ADJUST FLAME F 35 HOLD+PLACE TORCH ON TO JOB WITH BEND6 FASTEN 2 KNOBS AT TORCH CLOSE 1 SPIN USING FINGERS7 PULL GOGGLES AT SELF OFF EYES
582. TEAR DOWN STAGING PLANK FOR TANK STAGING PLATFORM WITH (PRYRAR) ANDHAND AT HID TANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 4 31-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BOARDS FROM BELOW* ...THE MAIN DECK. BOARDS ARE CONNECTED* ...TO THE TANK STAGING PLATFORM AND THE* ...EXISTING PERIMETER STAGING BY NAILS.* 2 NAN OPERATION: (WORKING SIMULTANEOUSLY)* ...CARPENTERS LOOSEN THE NAILS ON EACH.* ...END OF THE BOARD, THEN PICK UP THE.* ...BOARD AND PLACE IT ON A FILE ON THE* ...TANK STAGING PLATFORM.
CARP-1 BEGINS AT STAR-BHD
1 CARP-1 PUSH AND LOCATE PRYBAR WITH 1 STEP AT STAR-BHD UNDER BOARD
2 CARP-1 LOOSEN 3 NAILS AT STAR-BHD 3 ARM-STROKES USING PRYBAR AND
ASIDE TO STAR-BHD3 CARP-1 LOOSEN BOARD WITH BEND AT STAR-BHD 3 ARM-STRONES USING HAND4 CARP-1 GET+MANIPULATE WITH REND BOARD AT PLATFORM AND ADJUST RETU
TO STAR-BHD
MANUAL METHODS
583. TEAR DOWN STAGING PLANK FOR ( BETWEEN ) TANKPRYBAR ) AND HAND AT MID TANKS AND VOIDS
PER STAGING PLANK OFG: 4 31-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BOARDS FROM BETWEEN* ...THE TWO TANK STAGING PLATFORMS, THE* ...BOARDS ARE CONNECTED TO THE PLATFORMS* ...BY NAILS.* 2 MAN OPERATION: (MORKING SIMULTANEOUSLY)* ...CARPENTERS LOOSEN THE NAILS ON EACH* ...END OF THE BOARD, THEN PICK UP THE* ...BOARD AND PLACE IT ON A PILE ON ONE* ...OF THE TANK STAGING PLATFORMS.
CARP-1 BEGINS AT PLFM1
1 CARP-1 PUSH AND LOCATE PRYEIAR WITH 1 STEP
STAGING PLATFORM WITH CARPENTER
AT PLFM1 ( UNDER BOARD2 CARP-1 LOOSEN 3 NAILS AT PLFM1 3 ARM-STROKES USING PRYEAR AND AS
3 CARP-1 LOOSEN BOARD WITH BEND AT PLFM1 3 ARM-STROKES USING HANDS4 CARP-1 GET+MANIPULATE WITH BEND BOARD AT PLFM2 AND ADJUST RETURN
PLFM1
MANUAL METHODS
584. TEAR DOWN STAGING BRACKETS ON TANK STAGING PLATFORM WITH WRENCH AT HIDTANKS AND VOIDS CARPENTER
PER CENTER TANK OFG: 4 31-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKETS ON 2 TANK* ...STAGING PLATFORMS. ALSO REMOVAL OF* ...BOARDS THAT ARE SPREAD BETWEEN THE* ...BRACKETS.* 2 CARPENTERS WORKING SIMULTANEOUSLY EACH
* ...WORKING ON A DIFFERENT PLATFORM.* STEPS:* 1 REPRESENTS REMOVAL OF BOARDS BETWEEN* . . .BR-1 AND RR-2; BR-2 AND BR-3* 2-5 REPRESENTS REMOVAL OF BRACKETS FROM* ...BR-1, BR-2 AND BR-3, BRACKETS ARE* ...PLACED ON A PILE ON THE PLATFORM.
CARP-1 BEGINS AT BR-1
1 CARP-1 GET+MANEUVER WITH BEND BOARD AT PLFM1. AND ADJUST RETURN TOBR-1 F 6
2 CARP-1 LOOSEN NUT AT BR-1 1 -ARM-STROKE USING WRENCH-1 AND HOLD F 33 CARP-1 HOLD+LOOSEN NUT AT BR-1 13 WRIST-TURNS USING WRENCH-1 ASIDE
TO CARP-1 F 34 CARP-1 GET+PLACE
TO BR-1 WITHOUT5 CARP-1 GET+PLACE
WITH BEND BRKT FROM BR-1 TO PLFMl WITH BEND RETURNBEND F 3NUT AND BOLT FROM CARP-1 TO TOOLBOX-1 F 3
SECTION 3MANUAL METHODS
435. WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY STRUCTURE) WITH STICKELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 CLIPS. RATE INCLUD
MANUAL ELEMENTS.
1 WELD VERTICAL 3/8 8 FILLET WELD (10 8 PER CLIP) WITH 10% OVERUELDUSING 6011 3/16 ELECTRODE OR COHFARABLE (7018 5/32)+
438. WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD (OR ANY STRUCTURE) WSTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 LADDERS OR 400 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 LADDERS (400 CLIPS
RATE INCLUDES MANUAL ELEMENTS.
1 WELD VERTICAL 3/8 8 FILLET WELD (4 8 PER CLIP) WITH 10% OVERWELD USI6011 3/16 ELECTRODE OR COMPARABLE (7018 5/32),
440. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYTANKS AND VOIDS (SHIP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS, RATE PER 100 PIECES OF AHNDRAIL
(AVG+ 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEHENTS.
1 WELD HORIZONTAL 1/4. FILLET WELD (5 8 PER CONNECTION) USING 6011 3/ELECTRODE OR COMPARABLE (7018 5/32),
516. TRANSPORT AREIAL PLATFORM FOR SIDE SHELL (STAGING) WITH (CRANE) AT ANWAY CARPENTER
PER AERIAL-PLATFORM OFG: 4 18-MAR-S2REPRESENTS ELAPSED TIME
* REPRESENTS MOVING AERIAL PLATFORM FROM A* ...WAY TO A SECTION OF SIDE SHELL
C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT PLATFORM FROM P-REST USING CRANE WITH 2-HOOK+SLINTO AERIAL-PLATFORM POSITION+MANEUVER PF 2 ( 3 )
MANUAL METHODS
521. 0(CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) ON SIDE SHELL AT ANY WAYCARPENTER
PER LADDER OFG: 4 17-MAR-82REPRESENTS ELAPSED TIHE
* REPRESENTS CARPENTERS CLIMBING UP AND* ...DOWN LADDERS TO GET ON AND OFF* ..STAGING AT OUTSIDE SIDE SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* ...PLATFORM.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT BRKT-1 ( 12 RUNGS ) PF 12 ( 1 )PF 12 ( 34 )
2 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT BRKT-1 ( 12 RUNGS ) PF 12 ( 1 )PF 12 ( 34 )
529. TRANSPORT AERIAL PLATFORM FOR SIDE SHELL (STAGING) WITH CRANE AT ANYWAY. CARPENTER
PER AERIAL PLATFORM OFG: 4 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS MOVING AERIAL PLATFORM* ...FROM A SECTION OF THE SIDE SHELL* ...TO A WAY,
C-OPER BEGINS AT CR-I
1 C-OPER TRANSPORT PLATFORM FROM AERIAL-PLATFORM USING CRANE TO P-RESTPOSITION+MANEUVER RETURN TO CR-1
MANUAL METHODS
580. LOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATECARPENTER
PER AERIAL PLATFORM OFG: 4 27-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING MATERIAL ON AN* ...AERIAL PLATFORM* AERIAL PLATFORM CAN HOLD ENOUGH STAGING* ...MATERIAL FOR 3 LEVELS OF STAGING:* ...5 BRACKETS PER LEVEL,.* TOTAL MATERIAL:* MATL QUANTITY* BRKTS 15* STANS 15* BOARDS 36* HANDRAIL 24* LADDERS 5
CARP-1 REGINS AT P-REST
1 CARP-1 GET+PLACE 15 BRKTS FROM BIN-1 TO BIN-1 ( PILE UP BRKTS ) P15 ( 2 3 4 5 6 )
2 C-OPER TRANSPORT 15 BRKTS FROM BIN-1 USING CRANE WITH HOOK+SLING P-REST PLACE+ADJUST RETURN TO BIN-2
3 CARP-1 GET+PLACE 15 STAN FROM BIN-2 TO BIN-2 AND RETURN TO BD-PILWITHOUT BEND PF 15 ( 2 3 4 5 6 )
4 C-OPER TRANSPORT 15 STANS FROM BIN-2 USING CRANE WITH HOOK+SLING P-REST PLACE+ADJUST RETURN TO BD-PILE
5 CARP-1 GET+SLIDE WITH BEND 36 BOARDS FROM BD-PILE TO BD-PILE WITHSTEPS AND ADJUST ( ON BOLSTERS ) PF 2 ( 2 3 4 5 6 ) F 36
6 C-OPER TRANSPORT 36 BOARDS FROM BD-PILE USING CRANE WITH2-HOOK+SLING TO P-REST PLACE+MANEUVER RETURN TO HR-PILE
7 CARP-1 GET+SLIDE 24 HANDRAIL AT HR-PILE AND ADJUST ‘( ON BOLSTERS AND RETURN TO LDR-PILE WITHOUT BEND PF 24 ( 2 3 4 5 6 )
8 C-OPER TRANSPORT 24 HANDRAIL FROM HR-PILE USING CRANE WITH2-HOOK+SLING TO P-REST PLACE+ADJUST RETURN TO LDR-PILE
9 CARP-1 GET+SLIDE WITH BEND 5 LADRS FROM LDR-PILE TO LllR-PILE WITHSTEPS AND ADJUST ( ON BOLSTERS ) PF 2 ( 2 3 4 5 6 ) F 5
10 C-OPER TRANSPORT 5 LADRS FROM LDR-PILE USING CRANE UITH 2-HOOK+SLING TO P-REST PLACE+MANEUVER RETURN TO CR-1
11 CARP-1 GET+PLACE TOOLBOX-1 FROM BIN-1 TO P-REST WITH BEND+CLIMB-STEP
12 CARP-1 GET+PLACE TOOLBOX-2 FROM BIN-2 TO P-REST WITH BEND+CLIMB-STEP
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MANUAL METHODS
UNLOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER AERIAL PLATFORM OFG: 4 27-MAY-83REPRESENTS ELAPSED TIME
************
REPRESENTS REMOUAL OF MATERIAL FROM AN. . .ARIAL PLATFORM
AERIAL PLATFORM CAN HOLD ENOUGH STAGING...MATERIAL FOR 3 LEVELS (IF STAGING:...5 BRACKETS PER LEVELOTOTAL MATERIAL:MATL QUANTITYBRKTS 15STANS 15BOARDS 36HANDRAIL 24LADDERS 5
C-OPER BEGINS AT CR-1
1 C-OPERB I N - 1
2 CARP-1( 2 3
3 C-OPERB I N - 2
4 CARP-1
TRANSPORT 15 HRKTS FROM P-REST USING CRANE WITH HOOK+SLING TOPLACE+ADJUST RETURN TO P-RESTGET+PLACE 15 BRKTS FROM BIN-1 TO BIN-1 ( PUT INTO BIN ) PF 154 5 6 )TRANSPORT 15 STANS FROM P-REST USING CRANE WITH HOOK+SLING TOPLACE+ADJUST RETURN TO P-RESTGET+PLACE 15 STANS FROM BIN-2 TO BIN-2 ( PUT INTO BIN )
RETURN TO RB-PILE WITHOUT BEND PF 15 { 2 3 4 5 6 )5 C-OPER TRANSPORT 36 BOARDS FROM P-REST USING CRANE WITH 2-HOOK+SLINE
TO BD-PILE PLACE+MANEUVER ( ONTO BOLSTERS ) RETURN TO P-REST6 CARP-1 GET+SLIDE WITH BEND 36 BOARDS FROM BD-PILE TO BD-PILE WITH 8
STEPS AND ADJUST ( ONTO PILE ) PF 2 ( 2 3 4 5 6 ) F 367 C-OPER TRANSPORT 24 HANDRAIL FROM P-REST USING CRANE WITH
2-HOOK+SLING TO HR-PILE PLACE+ADJUST RETURN TO P-REST8 CARP-1 GET+SLIDE 24 HANDRAIL AT HR-PILE AND ADJUST ( ON PILE )
RETURN TO LDR-PILE WITHOUT BEND OF 24 ( 2 3 4 5 6 )9 C-OPER TRANSPORT 5 LADRS FROM P-REST USING CRANE WITH 2-HOOK+SLING
10
1112
TO LDR-PILE PLACE+MANEUVER ( ONTO BOLSTERS ) RETURNCARP-1 GET+SLIDE WITH BEND 15 LADRS FROM LDR-PILE TOSTEPS AND ADJUST ( ONTO PILE ) PF 2 ( 2 3 4 5 6 ) FCARP-1 GET+PLACE WITH BEND+CLIMB-STEP TOOLBOX1 FROMCARP-1 GET+PLACE WITH BEND+CLIMB-STEP TOOLBOX2 FROM
TO CR-1LDR-PILE WITH 55P-REST TO BIN-IP-REST TO BIN-2
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MANUAL METHODS
132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW)+ RATE IN ELAPSED MULT BY 6 TO OBTAIN TOTAL TIME,
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS AND 2 UNHOOKS PER (1) 4* ......* ...8-HR SHIFT* - - (1 ) OCCURRENCE FOR IGNITE ANIJ . . . . . . . .* ...EXTINGUISH TORCH* --TO, DETERMINE THE FREQ OF THE SUB-OP...* ...FRO NUMBER OF CUTS >1 USE THE ● . . . . . .* . . .FORMULA: FREQ = 1+ [ (N-1) X .233 . . . .
* ....WHERE ‘N’ = THE NUMBER OF CUTS(BURNS)
C o m b i n e d s u b - o p e r a t i o n e l e m e n t s- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
9. HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
10. IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
5 1 7 . SET-UP (STAGING CLIP) ON SIDE SHELL WITH HAMMER AT ANY WAY CARPENTEPER STAGING CLIP OFG: 3 16-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A STAGING CLIP ON* ...THE SIDE SHELL.* CARPENTERS ARE WORKING FROM AN AERIAL* . . . P L A T F O R M ,* WELDING OF THE CLIP IS DONE IN A* ...SEFERATE SUB OPERATION,
CARP-1 BEGINS AT BRKT-2
1 CARP-1 MEASURE AT BRKT-1 USING STEEL-TAPE-1 ASIDE TO CARP-12 CARP-1 LOOSEN PAINT ON SIDE SHELL AT BRKT-1 4 STRIKES USING HAMM
ASIDE TO CARP-13 CARP-1 GET+PLACE SCLIP FROM TOOLBOX-2 TO BRKT-1 ( TACKING UPON
PLACEMENT )
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MANUAL METHODS
518. SET-UP STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAY CARPENTERPER STAGING BRACKET OFG: 3 16-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A BRACKET ON THE* . . . S I D E S H E L L .* CARPENTERS ARE WORKING FROM AN AERIAL* ...PLATFORHO
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PICKUP NUT AND BOLT FROM TOOLBOX-1 TO SELF ( IN POCKET )2 CARP-1 GET+PLACE WITH BEND BRKT FROM BIN-1 TO BRKT-13 CARP-1 PLACE BOLT FROM CARP-1 TO BRKT-1 AND INSERT4 CARP-1 FASTEN NUT AT BRKT-1 13 WRIST-TURNS USING HANDS5 CARP-I FASTEN NUT AT BRKT-1 4 ARM-STROKES USING WRENCH-1 ASIDE TO
CARP-1
519. SET-LIP STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY MAY CARPENTERPER STAGING PLANK OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING BOARDS UP BETWEEN TWO* ...STAGING BRACKETS,* CARPENTERS ARE WORKING ON AN AREIAL* ...PLATFORH AND THEY ARE WORKING* ...SIMULTANEOUSLY,
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE BOARDS FROM BD-PILE TO ED-PILE WITH 8 STEPS ( ONBOLSTERS ) AND ADJUST
2 CARP-1 AND CARP 2 GET+MANEUVER BOARDS FROM BD-PILE TO BRKT-1SPANNING BRKT2 AND ALIGN
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MANUAL MATHODS
520. SET-UP (ACCESS) LADDER ON SIDE SHELL WITH HAND AT ANY WAY CARPENTPER ACCESS LAKIUER OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP A LADDER ON THE* ...SIDE SHELL*.* CARPENTERS ARE WORKING ON AN AERIAL.* ...PLATFORM, BUT ARE NOT &JORKING.* ...SIMULTANEOUSLY.* WELDING DONE IN A SEPERATE* ...SUB OPERATION,
CARP-3 BEGINS AT ED-PILE
1 CARP-3 GET+SLIDE LADR FROM LDR-PILE TO LDR-PILE WITH 5 STEPS ( ROLSTER ) AND ADJUST
2 CARP-1 GET+PLACE LADR FROM LDR-PILE TO BRKT-13 CARP-2 LOOSEN 4 PAINT ON SIDE SHELL AT BRKT-1 4 STRIKES USING
HAMMER-2 ASIDE TO CARP-24 CARP-2 GET+PLACE 4 LCLIPS FROM TOOLBOX-2 TO BRKT-I ( TACKING UP
PLACEMENT ) PF 4 ( 6 )
522. SET-UP STANCHION FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STANCHION OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING STANCHION IN STAGING* ...EIRACKETS.* TWO CARPENTERS ARE ON THE STAGING? ONE* ...REMAINS ON THE AERIAL PLATFORM.
CARP-3 BEGINS AT LDR-PILE
1 CARP-3 GET+PLACE STAN FROM BIN-2 TO BRKT-12 CARP-1 GET+PLACE WITH BEND STAN FROM BRKT-1 TO BRKT-1 AND INSE
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MANUAL METHODS
S23. SET-UP HANDRAIL FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER HANBRAIL OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP HANDRAIL AT THE* . . . S I D E S H E L L .* TWO CARPENTERS ARE ON THE STAGINGS ONE* ...REMAINS ON THE AERIAL PLATFORM.* WELDING IS DONE IN A SEPERATE SUB* . . . O P E R A T I O N ,
CARP-3 BEGINS AT BIN-2
1 CARP-3 GET+SLIDE HANDRAIL FROM HR-PILE TO CARP-12 CARP-1 GET+SLIDE HANDRAIL FROM BRKT-1 TO BRKT-2 AND ALIGN ( THRU 2
STANCHION SLEEVES ) PF 2 (4 5 6 )
524. TEAR DOWN HANDRAIL ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTERPER HANDRAIL OFG: 2 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN HANDRAIL ON THE* ...SIDE SHELL.* TWO CARPENTERS ARE ON THE STAGING? ONE* ...REHAINS ON THE AERIAL PLATFORM.* THE CARPENTERS ARE NOT WORKING* ...SINULTANEOUSLY.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-1 PTIME 426 M ( BURN OFF HANDRAIL )3 CARP-2 GET+SLIDE HANDRAIL FROM BRKT-2 TO CARP-24 CARP-2 HOLD+MOVE HANDRAIL FROM CARP-2 TO CARP-35 CARP-3 GET+PLACE HANDRAIL FROM BRKT-2 TO HR-PILE
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MANUAL METHODS
525. TEAR DOWN STANCHION FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STANCHION OFG: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF STANCHION FROM* ...SIDE SHELL.* TWO CARPENTERS ARE ON THE STAGING? ONE* ...REHAINS ON AERIAL PLATFORM.* THE CARPENTERS DO NOT WORK* ...SIMULTANEOUSLY,
CARP-3 BEGINS AT BRKT-1
1 CARP-1 LOOSEN STAN AT BRKT-1 4 ARM-STROKES USING HANDS2 CARP-1 HOLD+HOVE STAN FROM CARP-1 TO CARP-33 CARP-3 GET+PLACE STAN FROM BRKT-1 TO BIN-2
526. TEAR DOWN STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY WAY CARPENPER STAGING PLANK OFG: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN BOARDS ON THE* ...SIDE SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* . . . P L A T F O R M .* THE CARPENTERS ARE WORKING* . . .S IMULTANEOUSLY.
CARP-1 BEGINS AT BRKT-1
1 CARP-I AND CARP 2 GET+MANIPULATE BOARD FROM BRKT-1 ( CARP 2 ATBRKT2 ) TO BD-PILE
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MANUAL METHODS
527. TEAR DOWN (ACCESS) LADDER ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTERDPER LADDER OFG: 2 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF LADDER FROM SIDE* . . . S H E L L ,* CARPENTERS ARE WORKING ON AN AERIAL* ...PLATFORM.* THE CARPENTERS ARE NOT WORKING* ...SIMULTANEOUSLY.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-I PTIME 0.47 M ( BURN OFF 4 CLIPS ) F 43 CARP-1 GET+PLACE 4 LCLIPS FROM BRKT-I TO TOOLBOX-2 PF 4 ( 1 2 3 )4 CARP-2 GET+POSITION LADR FROM BRKT-1 TO LDR-PILE
528. TEAR DOWN STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAYCARPENTER
PER STAGING BRACKET OFG: 3 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKETS* ...FROM SIDE SHELL.* CARPENTERS ARE WORKING ON AN* ...AERIAL PLATFORM.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOLD2 CARP-1 HOLD+LOOSEN NUT AT BRKT-1 13 WRIST-STROKES USING WRENCH-1
ASIDE TO CARP-13 CARP-1 GET+REMOVE BOLT FROH BRKT-1 TO CARP-14 CARP-1 PLACE NUT AND BOLT FROM BRKT-1 TO TOOLBOX-1
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MANUAL METHODS
530. TEAR DOWN (STAGING CLIP) ON SIDE SHELL WITH TORCH AT ANY WAY CARPENPER STAGING CLIP OFG: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVING STAGING CLIPS FROM* . . . T H E S I D E S H E L L .* CARPENTERS ARE WORKING ON AN AERIAL* P L A T F O R M .
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 TO BRKT-12 CARP-1 OPERATE TORCH AT BRKT-1 PTIME .55 M ( BURN OFF STAGING C3 CARP-1 GET+PLACE SCLIP FROM BRKT-1 TO TOOLBOX-2
SECTION 3MANUAL METHODS
446. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYPLATEN (SHOP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 PIECES OF HANDRAIL
(AUG. 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEMENTS.
1 WELll HORIZONTAL 1/4' FILLET WELD (5’ PER CONNECTION) USING 6011 3/16ELECTRODE OR COMPARABLE (7018 5/32).
454. (CLIMB UP AND DOWN) MOVE OPERATOR (ON PIPE STAGING) FOR SIDE SHELL ATANY WAYS CARPENTER
PER PIPE STAGING SECTION (16’ LONG) OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER CLIMBING UP AND* ...DOWN END PIECE OF PIPE STAGING.* AVERAGE NUMBER OF STEPS NEEDED = 6.CARP-1 BEGINS AT END-PC-1
1 CARP-1 SLIDE ( CLIMB-UP ) LADDER ( END PIECE ) AT END-PC-1 ( 6STEPS. ) PF6 ( 1 ) PF 6 ( 34 )
2 CARP-1 PULL ( CLIME-DOWN ) LADDER ( END PIECE ) AT END-PC-1 ( 6STEPS. ) PF6 ( 1 ) PF 6 ( 34 )
456. TRANSPORT STAGING” PLANK FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWERCRANE) AT ANY WAYS CARPENTER
PER STAGING PLANK OF(3: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* ...BD-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO BD-PILE AND* ...FROM BD-PILE TO SIDE SHELL ARE* ...AUERAGE DISTANCES FROM, WAY 740’X120’* MAXIMUM NUMBER OF BOARDS IN LIFT = 4
C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM BD-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL ( ON PIPE STAGING SECTION ( 16' LONG ) ) PLACE+MANEUVERETURN TO CR-1 F 1 / 4
MANUAL METHODS
459. TRANSPORT STANCHION FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRAAT ANY WAYS CARPENTER
PER STANCHION OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS TRANSPORTING STANCHION FROM* ...BIN-2 TO SIDE SHELL.
* DISTANCES FROM CRANE-REST TO BIN-2 AND.* ...FROH BIN-2 TO SIDE SHELL ARE AVERAGE* ...DISTANCES FROM A WAY 740’X120’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT STAN FROM BIN-2 USING CRANE WITH HOOK+SLING TO SIDE-SH( ON PIPE STAGING ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
461, TRANSPORT HANDRAIL FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANAT ANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME,
* REPRESENTS TRANSPORTING HANDRAIL FROM* ...HR-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROll HR-PILE TO SIDE SHELL ARE* ...AVERAGE DISTANCES FROM WAY 740’X120’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL ( ON PIPE STAGING ) PLACE+ADJUST RETURN TO CR-1 F 1 /
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MANUAL METHODS
463. TRANSPORT STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS)WITH (TOWER CRANE) AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* ...RD-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO BD-PILE AND* ...FROM BD-PILE TO SIDE SHELL ARE* ...AVERAGE DISTANCES FROM WAY 740’X120’* MAXIMUM NUMBER OF BOARDS IN LIFT = 4
C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM BD-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL (BTWN 2 PIPE STAGING SECTIONS ) PLACE+MANEUVER RETURN
465, TRANSPORT HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH(TOWER CRANE) AT ANY WAYS CARPENTER
PER HANDRAIL OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME -
* REPRESENTS TRANSPORTING HANDRAIL FROM* ...HR-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO SIDE SHELL ARE* ...AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER REGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL; ( BTWN 2 PIPE STAGING SECTIONS ) PLACE+ADUJST RETURN TO
MANUAL METHODS
476. REMOVE HANDRAIL ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER HANDRAIL OFG: 3 16-FEE-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM* ...MATERIAL PILE AT WAY TO HANDRAIL PILE* ...DISTANCES ARE AVERAGE DISTANCES FOR A* ...WAY 740'X120'.* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MAIL-PILE
I CARP-3 GET+SLIDE WITH BEND HANDRAIL ( ONTO BOLSTER ) AT MAIL-PIL2 C-OPER TRANSPORT HANDRAIL FROM MAIL-PILE USING CRANE WITH HOOK+S
TO HR-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / 6
477. REMOVE STANCHION ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER STANCHION OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF STANCHION FROM* ...MATERIAL PILE AT WAY TO BIN-2* ...DISTANCES ARE AVERAGE DISTANCES FOR A* ...WAY 740'X120'.* MAXIMUM NUMBER OF STANCHION IN LIFT = 6* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+PLACE WITH BEND STAN FROM MATL-PILE TO MATL-PILE ( STUP FOR TRANSPORTING )
2 C-OPER TRANSPORT STAN FROM MATL-FILE USING CRANE WITH HOOK+SLINGBIN-2 PLACE+ADJUST RETURN TO CR-1 F 1 / 6
MANUAL METHODS
478. REMOVE STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANE)AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BOARDS FROM PIPE* ...STAGING AT SIDE SHELL TO BOARD PILE* ...DISTANCES ARE AVERAGE DISTANCES FOR A* ... WAY 740'X120'.* MAXIMUM NUMBER OF BOARDS IN LIFT = 4* TOWER CRANE IS USED FOR REMOVAL,
C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT BOARD FROM SIDE-SHELL USING CRANE WITH HOOK+S1.INGTO BD-PILE PLACE+MANEUVER RETURN TO CR-1 F 1 / 4
479. REMOVE BRACE ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER BRACE OFG: 3 16-FEB-82 REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BRACES FROM MATERIAL* ...PILE AT WAY TO BRACE PILE.* ...DISTANCES ARE AVERAGE DISTANCES FOR A* ...WAY 740'X120'.* MAXIMUM NUMBER OF BRACES IN LIFT = 6.* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+SLIDE WITH BEND BRACE ( ONTO BOLSTER ) AT MATL-PILE2 C-OPER TRANSPORT BRACE FROM MATL-PILE USING CRANE WITH HOOK+SLING TO
BRACE-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / 6
MANUAL METHODS
480. REMOVE END RAIL (END PIECE) ON (MATERIAL PILE) WITH (TOWER CRANE) ANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 f6-FEEf-82REFPRESENTS ELAPSED TIME
X REPRESENTS REMOVING END PIECES FROMX ...MATERIAL PILE AT WAY TO END-PC-RACK.* ...DISTANCES ARE AVERAGE DISTANCES FOR A* ...WAY 740’X 120’.* MAXIMUM NUMBER OF END PIECES IN LIFT = 3* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+SLIDE WITH BEND END-PIECE ( ONTO BOLSTER ) AT MATL-P2 C-OPER TRANSPORT END-PIECE FROM MATL-PILE
HOOK+SLING TO END-PC-RACK PLACE+MANEUVER3 CARP-3 GET+MANIPULATE WITH BEND END-PIECE
486. TRANSPORT END RAIL (END PIECE) ON (END-PIECEAT ANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING END PIECES FROM* ...END-PC-RACK TO MATL-PILE.* DISTANCES FROM CRANE REST TO END-PC-RACK* ...AND FROM END-PC-RACK TO MATL-PILE ARE* ...AVERAGE DISTANCES ON A WAY 740’X 120’* MAXIMUM NUMBER END-PCS IN LIFT = 3* ...THERE ARE 2 LIFTS DONE PER SECTION OF* ...PIPE STAGING (16’LONG).
C-OPER BEGINS AT CR-1
USING CRANE WITHRETURN TO CR-1 F 1 / AT END-PC-RACK AND AL
RACK) WITH (TOWER CRAN
1 C-OPER TRANSPORT END-PIECE FROM END-PC-RACK USING CRANE WITHHOOK+SLING TO MATL-PILE PLACE+ADJUST RETURN TO END-PC-RACK F 1
2 C-OPER TRANSPORT END-PIECE FROM.END-PC-RACK USING CRANE WITHHOON+SLING TO MATL-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / 6
MANUAL METHDS
1320
9.
10.
455.
COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTERCREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW)* RATE IN ELAPSED TIME.
MULT BY 6 TO OBTAIN TOTAL TIME,PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81 * THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS AND 2 UNHOOKS PER (1).........* ...8-HR SHIFT* ...(1) OCCURRENCE FOR IGNITE AND .......* ...EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-OP...* ...FRO NUMBER OF CUTS >1, USE THE . . ....* ...FORMULA: FREQ = 1+ [(N-1) X .23] ....
* ..WHERE ‘N' = THE NUMBER OF CUTS(BURNS)
Comibined sub-operation elements-------------- ------ -----------
HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTER
PER STAGING PLANK OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT ITCARP-3 BEGINS AT SIDE-SHELL
1 CARP-3 GET+SLIDE BOARD AT BD-PILE AND ADJUST ( ON BOLSTERS )
PAGE 162
MANUAL METHODS
457. SET UP STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH HAND AT AWAYS CARPENTER
PER STAGING FLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS CARPENTERS SPREADING BOARDS* ...ON PIPE STAGING SECTION (l6’LONG).* . ..CARPENTERS HAVE TO CLIMB UP AND DOWN* ...THE PIPE STAGING TO SPREAD THE BOARDS* ...(SEE SEPARATE ANAYLSIS FOR CLIMBING)CARP-1 BEGINS AT END-PC-1
1 CARP-1 AND CARP 2 GET+SLIDE WITH BEND WITH 1 STEP BOARD ATSIDE-SHELL AND ALIGN
458. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPEPER STANCHION OFG: 3 12-FER-82REPRESENTS ELAPSED TIME* REPRESENTS GETTING STANCHION READY TO BE* ...TRANSPORTED.CARP-3 BEGINS AT BD-PILE
1 CARP-3 GET+PLACE STAN FROM BIN-2 TO BIN-2
PAGE 163
MANUAL METHODS
460, SET UP STANCHION ON PIPE STAGING (AT SIDE SHELL) WITH WRENCH AT ANYWAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS SETTING UP STANCHIONS ON PIPE* ...STAGING.* ...CARPENTERS INSTALL SIMULTANEOUSLY.* ...CARPENTERS ARE STILL ON PIPE STAGING
CARP-1 BEGINS AT END-PC-1
1
3
4
56
CARP-1 GET+PLACE WITH BEND STAN FROM END-PC-2 TO END-PC-3 AND INSERT( INTO END PIECE )
CARP-2 GET+PLACE WITH BEND WITH 3 STEPS STAN FROM END-PC-2 TOEND-PC-3 AND INSERT ( INTO END PIECE ) SIMO
CARP-1 GET+PLACE 2 BOLTS FROH CARP-1 TO END-PC-1 WITH KNEEL ANDINSERT BOLT ( INTO STANCHION ) PF 2 ( 6 7 )
CARP-2 GET+PLACE 2 BOLTS FROM CARP-2 TO END-PC-3 WITH KNEEL ANDINSERT BOLT ( INTO STANCHION ) PF 2 ( 6 7 ) SIMO
CARP-1 FASTEN 2CARP-1 FASTEN 2TO CARP-1CARP-2 FASTEN 2CARP-2 FASTEN 2TO CARP-2 SIMO
NUTS AT END-PC-l 13 WRIST-TURNS USING HANDSNUTS AT END-PC-1 4 ARM-STROKES USING WRENCH-1 ASIDE
NUTS AT END-PC-3 13 WRIST-TURNS USING HANDS SIMONUTS AT END-PC-3 4 ARM-STROKES USING WRENCH-2 ASIDE
PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANY WAYS462. SET UP HANDRAIL ONCARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 12-FEE-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS INSTALLING* ...HANDRAIL THRU EYELETS IN STANCHIONS.* ...CARPENTERS DON’T WORK SIMULTANEOUSLY.*...WELDING DONE IN A SEPARATE SUB-OP.
CARP-1 BEGINS AT END-PC-1
1 CARP-1 GET+SLIDE WITH BEND HANDRAIL AT END-PC-3 AND ALIGN ( THRU 2STANCHION EYELETS ) PF 2 ( 4 5 6 7 )
2 CARP-2 GET+SLIDE WITH BEND HANDRAIL AT END-PC-1 AND ALIGN ( THRU 2STANCHION EYELETS ) PF 2 ( 4 5 6 7 )
MANUAL METHODS
464. SET UP STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WHAND AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEE-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS SPREADING BOARDS* ...BETWEEN PIPE STAGING SECTIONS.* ...THERE IS A 16’ GAP BETWEEN SECTIONS.* ...CARPENTERS HAVE TO CLIMB UP AND DOWN* ...THE PIPE STAGING TO SPREAD THE BOARDS* ...(SEE SEPARATE ANAYLSIS FOR CLIMBING)
CARP-1 BEGINS AT SECTION-1
1 CARP-1 AND CARP 2 GET+SLIIDE WITH BEND WITH 1 STEP BOARD ATSIDE-SHELL AND ALIGN
466. SET UP HANDRIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH HAT ANY WAYS CARPENTER
PER SECTION OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS INSTALLING* ...HANIIRAIL ON EXISTING HANDRAIL.*...CARPENTERS DON’T WORK SIMULTANEOUSLY.* ...WELDING DONE IN A SEPARATE SUB-OF.
CARP-1 BEGINS AT SECTION-1
1 CARP-1 GET+PLACE WITH BEND HANDRAIL FROM SECTION-1 TO SECTION-2 ARETURN TO SECTION-1 ( TACKING DONE UPON PLACEMENT ) PF 2 ( 6 )
2 CARP-2 GET+PLACE WITH BEND HANDRAIL FROM SECTION-2 TO SECTION-1 ARETURN TO SECTION-2 ( TACKING DONE UPON PLACEMENT ) PF 2 ( 6 )
PAGE 165
MANUAL METHODS
469. TEAR DOWN HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WTTHTORCH AT ANY WAYS CARPENTERS
PER SECTION OFG: 3 15-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* ...STAGING (BTWN 2 SECTIONS)+ A TORCH IS* ...USED TO BURN THE HANDRAIL OFF. THE* ...HANDRAIL IS THROWN TO THE MATERIAL* ...PILE. CARPENTERS REMOVE 2 HANDRAIL* ...PIECES BEFORE MOVING TO NEXT SECTION.
CARP-1 BEGINS AT SECTION-1
1 CARP-1 PULL TORCH AT SECTION-12 CARP-I OPERATE TORCH AT SECTION-1 PTIME 0426 H ( BURN OFF HANDRAIL:
2 CONNECTIONS PER HANDRAIL ) F 43 CARP-2 GET+HOLD HANDRAIL FROM SECTION-2 TO CARP-2 F 2 SIMO4 CARP-2 HOLD+THROW HANDRAIL FROM CARP-2 TO MATL-PILE F 25 CARP-1 PULL TORCH AT SECTION-2
470. TEAR DOWN HANDRAIL FOR PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANYWAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 15-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* ...STAGING (BTWN 2 STANCHIONS). THE* ...HANDRAIL IS THROWN TO THE MATERIAL* ...PILE, CARPENTERS REMOVE 2 HANDRAIL* ...PIECES BEFORE MIOVING TO NEXT SECTION,CARP-1 BEGINS AT END-PC-l
CARP-1 GET+SLIDE HANDRAIL AT END-PC-3 ( OUT OF 2 STANCHION SLEEVES )AND ADJUST PF 2 ( 4 5 6 7 )
CARP-1 HOLO+THROW HANDRAIL FROM CARP-I TO MATL-PILECARP-2 GET+SLIDE,HANDRAIL AT END-PC-1 ( OUT OF 2 STANCHION SLEEVES )AND ADJUST PF 2 ( 4 5 6 7 )CARP-2 HOLD+THROW HANDRAIL FROM CARP-2 TO HATL-PILE
MANUAL METHODS
471. TEAR DOWN STANCHION ON PIPE STAGING (AT SIDE SHELL) WITH WRENCH AT AWAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN STANCHION ON* ...SECTION OF PIPE STAGING (16’LONG).* ...CARPENTERS WORK SIMULTANEOUSLY.* ...STANCHIONS ARE THROWN TO MATERIAL* ...PILE.CARP-1 BEGINS AT END-PC-1
1 CARP-1 LOOSEN WITH KNEEL 2 NUTS AT END-PC-l 1 ARM-STROKE USINGWRENCH-1 AND HOLD
2 CARP-1 HOLD+LOOSEN 2 NUTS AT END-PC-1 13 WRIST-TURNS USING WRENCHASIDE TO CARP-1
3 CARP-2 LOOSEN WITH KNEEL 2 NUTS AT END-PC-3 1 ARM-STROKE USINGWRENCH-2 AND HOLD SIMO
4 CARP-2 HOLD+LOOSEN 2 NUTS AT END-PC-3 13 WRIST-TURNS USING WRENCHASIDE TO CARP-2 SIMO
5 CARP-1 GET+REMOVE 2 BOLTS FROM END-PC-1 TO CARP-1 F 26 CARP-2 GET+REMOVE 2 BOLTS FROM END-PC-3 TO CARP-2 F 2 SIMO7 CARP-1 THROW 2 NUTS AND BOLTS FROM CARP-1 TO MATL-PILE WITHOUT BE8 CARP-2 THROW 2 NUTS AND BOLTS FROM CARP-2 TO MATL-PILE WITHOUT BE
SIMO9 CARP-1 GET+THROW STAN FROM END-PC-1 TO MATL-PILE WITHOUT BEND10 CARP-2 GET+THROW STAN FROM END-PC-3 TO MATL-PILE WITHOUT BEND SI
472. TEAR DOWN STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONSWITH HAND AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN BOARDS BETWEEN 2* ...PIPE STAGING SECTIONS. THERE IS A 16’* ...GAP BETWEEN SECTIONS. BOARDS ARE* ...STACKED SO THE CRANE CAN TRANSPORT* ...THEH, CARPENTERS WORK SIMULTANEOUSLY.CARP-1 BEGINS AT SECTION-1
1 CARP-1 AND CARP 2 GET+HANIPULATE. WITH BEND WITH 1 STEP BOARD ATSECTION-1 ( STACK BOARDS )
PAGE 167
473. TEAR DOWN STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH HAND ATANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN BOARDS ON PIPE* ...STAGING SECTION (16’LONG). BOARDS ARE* ...STACKED SO THE CRANE CAN TRANSPORT* ...THEM CARPENTERS WORK SIMULTANEOUSLY.
CARP-1 BEGINS AT END-PC-1
1 CARP-1 AND CARP 2 GET+MAINPULATE WITH BEND WITH 1 STEP BOARD ATEND-PC-l ( STACK BOARDS )
474. TEAR DOWN PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH WRENCHAT ANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN END PIECES AND* ...BRANCES ON PIPE STAGING (2ND LEVEL),* ...END PIECES ARE BOLTED TO END PIECES* ...ON 1ST LEVEL, BRACES ARE HELD ON BY A* ...LOCKING PIN. CARPENTERS WORK* ...SIMULTANEOUSLY. CARPENTER-1 HANDLES* ...REMOVAL AT END-PC-1 AND END-PC-2.* ...MATERIAL IS THROWN OR PLACED AT THE* ...MATERIAL PILE.CARP-1 BEGINS AT END-PC-1
1 CARP-1 AND CARP 2 GET+SLIDE ( REMOVE ) WITH CLIMB 2 BRACES ATEND-pc-2 ( ALSO AT. END-PC-1 ) AND ADJUST ( LOCKING PIN ) F 2
2 CARP-1 GET+PLACE WITH DESCEND 4 BRACES FROM END-PC-2 TO MATL-PILE PF4 (3 ) PF4 ( 6 )
3 CARP-2 AND CARP 1 GET+SLIDE ( REMOVE ) WITH CLIMB 2 BRACES ATEND-PC-2 ( ALSO AT. END-PC-3 ) AND ADJUST ( LOCKING PIN ) F 2
4 CARP-2 GET+PLACE WITH DESCEND 4 BRACES FROM END-PC-2 TO MATL-PILE PF4 (3) PF4 ( 6 )
5 CARP-1 LOOSEN 2 NUTS AT END-PC-1 1 ARM-STROKE USING WRENCH-1 ANDHOLD ( ALSO AT. END-PC-2 ) F 2
6 CARP-1 HOLD+LOOSEN 2 NUTS AT END-PC-l 13 WRIST-TURNS USING WRENCH-1ASIDE TO CARP-1 ( ALSO AT. END-PC-2 ) F 2
7 CARP-2 LOOSEN 2 NUTS AT END-PC-3 1 ARM-STROKE USING WRENCH-2 ANDHOLD SIMO
8 CARP-2ASIDE
9 CARP-1
HOLD+LOOSEN 2 NUTSTO CARP-2 SIMOGET+REMOVE 2 BOLTS
AT END-PC-3 13 WRIST-TURNS USING WRENCH-2
FROM END-PC-2 TO CARP-1 ( ALSO AT.
PAGE 168
MANUAL METHODS
END-PC-1 ) F 410 CARP-2 GET+REMOVE 2 BOLTS FROM END-PC-3 TO CARP-2 F 2 SIMO11 CARP-1 HOLD+THROW 4 NUTS AND BOLTS FROM CARP-1 TO MATL-PILE12 CARP-2 HOLD+THROW 2 NUTS AND BOLTS FROM CARP-2 TO MATL-PILE SIM13 CARP-1 GET+PLACE END-PIECE FROM END-PC-1 TO MATL-PILE ( ALSO FR
END-PC-2 ) RETURN TO END-PC-1 F 214 CARP-2 GET+PLACE END-PIECE FROM END-PC-3 TO MATL-PILE RETURN TO
END-PC-3 SIMO
475. TEAR DOWN PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HANANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN END PIECES AND* ...BRACES ON PIPE STAGING (1ST LEVEL),* ...RRACES ARE HELD ON BY A LOCKING PIN* ...CARPENTERS WORK SIMULTANEOUSLY.* ...CARPENTER-I HANDLES REMOVAL AT* ...END-PC-l AND END-PC-2, MATERIAL IS * ...THROWN OR PLACED AT THE MATERIAL* ...PILE.
CARP-1 BEGINS AT END-PC-1
1 CARP-1 AND CARP 2 GET+SLIDE ( REMOVE ) 2 BRACES AT END-PC-2 ( ALAT, END-PC-1 ) AND ADJUST ( LOCKING PIN ) F 2
2 CARP-1 GET+PLACE 4 BRACES FROM END-PC-2 TO MATL-PILE PF 4 ( 3 ) P( 6 )
3 CARP-2 AND CARP 1 GET+SLIDE ( REMOVE ) 2 BRACES AT END-PC-2 ( ALAT. END-PC-3 ) AND ADJUST ( LOCKING PIN ) F 2
4 CARP-2 GET+PLACE 4 BRACES FROM END-PC-2 TO MATL-PILE PF 4 ( 3 ) ( 6 )
5 CARP-1 GET+PLACE END-PIECE FROM END-PC-1 TO MATL-PILE ( ALSO FROEND-PC-2 ) RETURN TO END-PC-1 F 2
6 CARP-2 GET+PLACE END-PIECE FROM END-PC-3 TO MATL-PILE RETURN TOEND-PC-3 SIMO
PAGE 169
MANUAL METHODS
487. MAKE READY END RAIL (END PIECE) FOR (TRANSPORTING) AT ANY WAYSCARPENTER
PER END RAIL (END PIECE) OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING END PIECES ON BOLSTER* ...S0 THAT CRANE CAN TRANSPORT IT.
CARP-3 BEGINS AT END-PC-RACK
1 CARP-3 GET+PLACE END-PIECE FROM END-PC-RACK TO END-PC-RACK WITH BEND
4880 SET-UP PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HAND ATANY WAYS CARPENTER
PER SECTION (16’ LONG) OF PIPE STAGING OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS SETTING UP 1ST LEVEL OF A 16’* ...LONG SECTION OF PIPE STAGING. SECTION* ...INCLUDES 3 END PIECES AND 8 BRACES* ...WHICH ARE HELD IN PLACE BY A LOCKING* ...PIN.* CARP-1 AND CARP-2 ARE WORKING* ...SIMULTANEOUSLY IN PUTTING UP THE END* ...PIECES AND BRACES.CARP-1 BEGINS AT END-PC-1
1 CARP-1 GET+PLACE ENF-PIECE FROM MATL-PILE TO END-PC-12 CARP-2 GET+PLACE END-PIECE FROM MATL-PILE TO END-PC-2 SIMO3 CARP-3 GET+PLACE 4 BRACES FROM BRACE-PILE TO MATL-PILE4 CARP-1 AND CARP 2 GET+SLIDE WITH BEND 2 BRACES AT END-PC-2 ( ALSO
AT+ END-PC-l. ) AND ADJUST ( LOCKING PIN ) F 45 CARP-1 GET+PLACE END-PIECE FROM MATL-PILE TO END-PC-36 CARP-3 GET+PLACE 4 BRACES FROM BRACE-PILE TO MATL-PILE7 CARP-1 AND CARP 2 GET+SLIDE WITH BEND 2 RRACES AT END-PC-2 ( ALSO
AT. END-PC-3. ) AND ADJUST ( LOCKING PIN ) F 4
PAGE 170
MANUAL METHODS
489. SET-UP PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH WRENCANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 18-FEB-82REPESENTS ELAPSED TIME
* REPRESENTS SETTING UP 2ND LEVEL OF A 16’* ...LONG SECTION OF PIPE STAGING. SECTION* . ..INCLUDES 3 END PIECES AND 8 BRACES* ...WHICH ARE HELD IN PLACE BY A LOCKING* ...PIN. END PIECES ARE BOLTED TO 1ST* ...LEVEL END PIECES.* CARP-1 AND CARP-2 ARE WORKING* ...SIMULTANEOUSLY IN PUTTING UP THE END* ...PIECES AND BRACES,CARP-1 BEGINS AT END-PC-l
1 CARP-1 GET+MANIPULATE WITH BEND WITH 2 STEPS ( FROM MATL PILE )END-PIECE AT END-PC-l AND ALIGN
2 CARP-2 GET+MANIPULATE WITH BEND WITH 2 STEPS ( FROM MATL PILE )END-PIECE AT END-PC-2 AND ALIGN SIMO
3 CARP-1 GET+PLACE 2 BOLTS FROM TOOLBOX-1 TO END-PC-l AND INSERT ( 6 7 )
4 CARP-2 GET+PLACE 2 BOLTS FROM TOOLBOX-1 TO END-PC-2 AND INSERT (67) SIMO
5 CARP-1 FASTEN 2 NUTS AT END-PC-1 13 WRIST-TURNS USING HANDS5 CARP-1 FASTEN 2 NUTS AT END-PC-l 4 ARM-STROKES USING WRENCH-1 A
ASIDE TO CARP-17 CARP-2 FASTEN 2 NUTS AT END-PC-2 13 WRIST-TURNS USING HANDS SIM8 CARP-2 FASTEN 2 NUTS AT END-PC-2 4 ARM-STROKES USING WRENCH-2 A
TO CARP-2 SIMO9 CARP-3 GET+PLACE 4 BRACES FROM BRACE-PILE TO MATL-PlLE10
11
12
1314
1516
CARP-1 AND CARP 2 GET+SLIDE WITH CLIMB 2 RRACES AT END-PC-2 ( AT, END-PC-1. ) AND ADJUST ( LOCKING PIN ) F 4CARP-1 GET+MANIPULATE WITH DESCEND END-PIECE ( FROM MATL PILE END-PC-3 AND ALIGNCARP-1 GET+PLACE 2 BOLTS FROM CARP-1 TO END-PC-3 AND INSERT PF 6 7 )CARP-1 FASTEN 2 NUTS AT END-PC-3 13 WRIST-TURNS USING HANDSCARP-1 FASTEN 2 NUTS AT END-PC-3 4 ARM-STROKES USING WRENCH-1 TO CARP-1CARP-3 GET+PLACE 4 BRACES FROM BRACE-PILE TO MATL-PILE CARP-1 AND CARP 2 GET+SLIDE WITH CLIMB 2 RRACES AT END-PC-2 ( AT+ END-PC-3+ ) AND ADJUST ( LOCKING PIN ) F 4
PAGE 171
SECTION 4STANDARD TIME CALCULATION
4.1 TITLE SHEETS
SET-UP AND TEAR DOWN BRACKET STAGING MID TANKS AND VOIDS CAR
Titlesheet Orgnization List
435.
438.
440.
378.
381.
384.
387.
392 .
395.
Join----
WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY STRUCTURE) WITH STICKELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQUIREMENTS. RATE PER 200 CLIPS. RATE INCLUDES
MANUAL ELEMENTS,
WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD (OR ANY STRUCTURE) WITHSTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 LADDERS (400 CLIPS).
RATE INCLUDES MANUAL ELEMENTS.
WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYTANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 PIECES OF AHNDRAIL
(AVG. 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEMENTS.
Move----
TRANSPORT STAGING BRACKET WITH (GROVE CRANE) AT TANK (OR WAY) CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT LADDERS WITH (GROVE CRANE) AT TANK CARPENTERREPRESENTS ELAPSED TIME
POSITION -(SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMHER (AND LADDERCLIPS) AT TANK CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT STAGING PLANK WITH (GROVE CRANE) AT TANK CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT STANCHION WITH (GROVE CRANE) AT TANK CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT HANDRAIL WITH (GROVE CRANE) AT TANK CARPENTERREPRESENTS ELAPSED TIME
PAGE 172
STANDARD TIME CALCULATION
404. (CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) ON BULKHEAD AT ANY TANAND VOIDS CARPENTERREPRESENTS ELAPSED TIME
407. REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
408. REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDCARPENTERREPRESENTS ELAPSED TIME
409. REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS ANVOIDS CARPENTERREPRESENTS ELAPSED TIME
410. REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOICARPENTERREPRESENTS ELAPSED TIME
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
412. REMOWE TOOLBOX ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
432. (WALD WP OR DOWN) MOWE OPERATOR (ON INCLINED STAIRS) ON BWLKHEAD AT TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
OPerate
132. COMBINED SWB-OP
HWOK-WP/WNHOOK AND IGNITE/EXTINGWISH TORCH FOR BURNING WITH HANDAT TANK CARPENTERCREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW)+ RATE IN ELAPSED TIM
WLT BY 6 TO OBTAIN TOTAL TIME.
Prepare-------
376. SET-UP (STAGING CLIP) ON BWLKHEAD WITH HAMMER (AND STEEL-TAPE) AT TACARPENTER
PAGE 173
STANDARD TIME CALCULATION
REPRESENTS ELAPSED TIME
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORWAY) CARPENTERREPRESENTS ELAPSED TIME
379. SET-WP STAGING BRACKETS ON BWLKHEAD WITH WRENCH AT TANK CARPENTERREPRESENTS ELAPSED TIME
380. MAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTERREPRESENTS ELAPSED TIME
382. SET-WP LADDER ON BWLKHEAD (AT BRACKET LOCATION) WITH HAND AT TANKCARPENTERREPRESENTS ELAPSED TIME
383. SET-WP (ACCESS) LADDER ON BWLKHEAD WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
385. POSITION (SECWRE) (ACCESS) LADDER FOR BRACKET STAGING WITH PLIER (ANDWIRE ROPE) AT TANK CARPENTERREPRESENTS ELAPSED TIME
386. MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTERREPRESENTS ELAPSED TIME
388. SET-WP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
389. SET-WP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
390. SET-WP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
391. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTERREPRESENTS ELAPSED TIME
393. SET-WP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
394. MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTERREPRESENTS ELAPSED TIME
PAGE 174
STANDARD TIME CALCULATION
396.
397 .
398 .
399 ✎
400 ✎
402 ✎
403.
405 ✎
406.
SET-WP HANDRAIL ON STANCHION WITH HAND AT TANK CARPENTERREPRESENTS ELAPSEW TIME
SET-WP HANDRAIL (END PIECES) ON HANDRAIL (AND BWLKHEAD) WITH HAND ATTANK CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH AT (CENTER) MID TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN HANDRAIL ON BWLKHEAD WITH TORCH (AND WINCH) AT (WING) TANKAND VOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STANCHION ON BWLKHEAD WITH HAND AT (CENTER) MID TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH HAND (AND WINCH) AT ATANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN LADDER (AND LADDER CLIPS) ON BWLKHEAII WITH TORCH (AND WINCHAT ANY TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN LADDER (AND WIRE ROPE) ON BULKHEAD WITHANY TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR IIOWN STAGING BRACKET ON BWLKHEAD WITH WRENCHVOIDS CARPENTERREPRESENTS ELAPSED TIME
PLIER (AND WINCH)
AT ANY TANKS AND
SECTION 4STANDARD TIME CALCWLATION
4.1 TITLE SHEETS
SET-UP AND TEAR DOWN BRACKET STAGING (WING) TANKS AND VOIDS
Titlesheet Orgnization List
435 .
438.
440.
404.
407 .
408.
409.
410.
Join----
WELD STAGING BRACKET (CLIP) ON BWLKHEAD (OR ANY STRWCT[JRE) WITH STICKELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQWIREMENTS. RATE PER 100 CLIPS. RATE INCLWDES
MANWAL ELEMENTS.
WELD LADDER (CLIP) (SECWRES LADDER) ON BULKHEAD (OR ANY STRWCTtJRE) WITHSTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP)WELD TO MEET SAFETY REQUIREMENTS. RATE PER
RATE INCLWRES MANWAL ELEMENTS,
WELD HANDRAIL (CONNECTIONS) ON STANCHION WITHTANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQWIREMENTS RATE PER
WELDI?4G100 LADDERS (400 CLIPS).
STICK ELECTRODE AT ANY
100 PIECES OF AHNDRAIL(AVG. 1 CONNECTION EACH). RATE INCLWDES HANWAL ELEMENTS.
Move----
(CLIMB WP AND KIOWN) MOVE OPERATOR (ON LADDER) ON BWLKHEAD AT ANY TANKSAND VOIDS CARPENTERREPRESENTS ELAPSED TIME
REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDECARPENTERREPRESENTS ELAPSED TIME
REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS ANDWOIJIS CARPENTERREPRESENTS ELAPSED TIME
REMOVE STAGING PLANK ON (BOARD FILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
STANDARD TIME CALCWLATION
411.
412.
431.
563 .
564.
565.
566.
567.
132.
376.
REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND WOIDSCARPENTERREPRESENTS ELAPSED TIME
REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
(WALK UP OR DOWN) MOVE OPERATOR (ON INCLINED STAIRS) ON BWLKHEAD AT ATANKS AND VOIDS CARPENTERREPRESENTS ELAPSEW TIME
TRANSPORT STAGING BRACKET WITH (TOWER CRANE) AT (WING) TANKS AND VOICARPENTERREPRESENTS ELAPSED TIME
TRANSPORT LADDER WITH (TOWER CRANE) AT (WING) TANKS AND VOIDS CARPENTREPRESENTS ELAPSED TIME
TRANSPORT STAGING PLANK WITH (TOUER CRANE) AT (WING) TANKS AND VODISCARPENTERREPRESENTS ELAPSED TIME
TRANSPORT STANCHION WITH (TOUER CRANE) AT (WING) TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
TRANSPORT HANDRAIL WITH (TOUER CRANE) AT (WING) TANKS AND VODISCARPENTERREPRESENTS ELAPSED TIME
Operete-------
COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTERCREDJ SIZE = 6 (3 CARPS AROVE DECK AND 3 BELOW). RATE IN ELAPSED TIME
ULT BY 6 TO OBTAIN TOTAL TIME.
Prepare-------
SET-UP (STAGING CLIP) ON BULKHEAD WITH HAMMER (AND STEEL-TAPE) AT TANCARPENTER
PAGE 177
STANDARD TIME CALCULATION
REPRESENTS ELAPSED TIME
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORWAY) CARPENTERREPRESENTS ELAPSED TIME
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
384., POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDERCLIPS) AT TANK CARPENTERREPRESENTS ELAPSED TIME
388. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
393. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
394. SET-UP HANDRAIL ON STANCHION WITH HAND AT TANK CARPENTERREPRESENTS ELAPSED TIME
397. SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND BULKHEAD) WITH HAND ATTANK CARPENTERREPRESENTS ELAPSED TIME
399, TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTERREPRESENTS ELAPSED TIME
401. TEAR DOWN STANCHION ON BWLKHEAW WITH HAND (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTERREPRESENTS ELAPSED TIME
402. TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH HAND (AND WINCH) AT ANYTANKS AND VODE CARPENTERREPRESENTS ELAPSED TIME
403. TEAR DOWN LADDER (AND LADDER CLIPS) ON BWLKHEAD WITH TORCH (AND WINCH)AT ANY TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
406. TEAR DOWN STAGING BRACKET ON BULLKHEAD WITH WRENCH AT ANY TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
426. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH-HAND AT ANY WAYS
427 .
428 .
429.
430.
569.
570.
571.
573.
578.
579.
STANDARD TIME CALCULATION
CARPENTERREPRESENTS ELAPSED TIME
MAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
MAKE READY STAGING PLANKCARPENTERREPRESENTS ELAPSED TIME
MAKE READY STANCHION FORREPRESENTS ELAPSED TIME
FOR (TRANSPORTING) WITH HAND AT
(TRANSPORTING) WITH HAND AT ANY
ANY WAYS
WAYS CARPEN
MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTREPRESENTS ELAPSED TIME
SET-WP STAGING BRACKET ON WEB FRAME WITH WRENCH AT ( WING ) TANKS ANVOIDS CARPENTERREPRESENTS ELAPSED TIME
SET-WP ( ACCESS ) LADDER ON ( INBOARD OR 0WT130ARIJ ) BWLKHEAD WITH HAAT ( WING ) TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
POSITION ( SECWRE ) ( ACCESS ) LADDER ON ( INBOARD OR OUTBOARD )BULKHEAD WITH HAMMER AT ( WING ) TANKS AND VODIS CARPENTERREPRESENTS ELAPSED TIME
SET-WP STAGING PLANK ON STAGING BRACKET WITH HAND AT ( WING ) TANKS VOIDS CARPENTERREPRESENTS ELAPSED TIME
SET-UP STAGING PLANK ON ( EXISTING ) BRACKET STAGING WITH HAND AT (WING ) TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
SET-WP STANCHION IN STAGING BRACKET WITH HAND AT ( WING ) TANKS ANDVODfS CARPENTERREPRESENTS ELAPSED TIME
SET-WP HANDRAIL IN STANCHION WITH HANW AT ( WING ) TANKS AND VOIDSCARPENTERREPRESENTS ELAPSED TIME
SET-WP HANDRAIL ( END PIECES ) ON ( HANDRAIL AND ) BWLKHEAD WITH HANAT ( WING ) TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED-TIME
PAGE 179
STANDARD TIME CALCULATION
568. SET-UP ( STAGING CLIP ) ON WEB FRAME WITH HADHER ( AND STEEL-TAPE ) AT( WING ) TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
SECTION 4STANDARD TIME CALCULATION
4.1 TITLE SHEETS
SET UP AND TEAR DOWN TANK STAGING PLATFORM AT ANY SHIPYARD C
Titlesheet Organization List-------------- ------ ------ ---
545 .
546 .
539.
540.
541.
542.
547 ✎
549.
Assemble/Disassemble-------------- ------
ASSEMBLE I-BEAMS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
ASSEMBLE ANGLE-EARS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLACARPENTERREPRESENTS ELAPSED TIME
E x a m i n e - - - - - - -
READ MATERIAL LIST (PRINT) FOR TANK STAGING PLATFORM WITH (EYES) AT APLATEN CARPENTERREPRESENTS ELAPSED TIME
MEASWRE (PLATEN) FOR TANK STAGING PLATFORM WITH (STEEL) TAPE AT ANYPLATEN CARPENTERREPRESENTS ELAPSED TIME
MARK (PLATEN) FOR TANK STAGING PLATFORM WITH MARKER AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
Move----
TRANSPORT PALLET (I-BEAMS AND ANGLES) FOR TANK STAGING PLATFORMl WITH(CRANE) AT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT STAGING PLANKS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANPLATEN CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT (FINISHED) TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
STANDARD TIME CALCULATION
5 5 5
556.
557.
9.
10.
543.
544.
548.
550.
551.
552.
POSITION (RAISE) TANK STAGING PLATFORMVOIDS CARPENTERREPRESENTS ELAPSED TIME
POSITION (LOWER) TANK STAGING PLATFORMVOIDS CARPENTERREPRESENTS ELAPSED TIME
POSITION (PLACE) TANK STAGING PLATFORM) WITH ( CRANE ) AT ANY SHIP CARPENTER
WITH (CRANE) AT MID TANKS AND
WITH (CRANE) AT MID TANKS AND
( AND BOARDS ) IN ( TYPICAL TANK
REPRESENTS ELAPSED TIME
Operate-------
HOOK-WP AND WNHOOK TORCH ON
IGNITE AND EXTINGWISH TORCH
Prepare-------
MANIFOLD WITH WRENCH AT SHIP
FOR BWRNING WITH HAND AT TANK
SET-WP I-BEAMS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
SET-WP ANGLE-BARS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
SET-WP STAGING PLANKS ON TANK STAGING PLATFORM WITH HANDS AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN ANGLES ON TANK STAGING PLATFORM WITH WRENCH AT MID TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN I-BEAMS ON TANK STAGING PLATFORM WITH WRENCH AT MID TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STAGING PLANKS ON TANK STAGING PLATFORM WITH WINCH AT MIDTANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
STANDARD TIME CALCULATION
553. TEAR DOWN ANGLES ON TANK STAGING PLATFORM WITH WNCH AT MID TANKS ANDVOIDS CARPENTERREPRESENTS ELAPSED TIME
554. TEAR DOWN I-BEAMS FOR TANK sTAGING PLATFORM tDTH WINCH AT KID TANKS ANVOIDS CARPENTERREPRESENTS ELAPSED TIME
559. SET-WP STAGING PLANKS FOR TANK STAGING PLATFORM WITH HAMMER AT MIDTANKS AND WOILkS CARPENTERREPRESENTS ELAPSED TIME
560. TEAR DOWN HANWRAIL ( AND STANCHION ) ON ( LONGITWDINAL ) BWLKHEAD WITTORCH AT MID TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
561. SET-WP STAGING BRACKETS FOR (BETWEEN) TANK STAGING PLATFORM WITH WRENAT MID TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
562. SET-UP STAGING PLANKS FOR (BETWEEN) TANK STAGING PLATFORMS WITH HAMMEAT MID TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
582. TEAR DOWN STAGING PLANK FOR TANK STAGING PLATFORM WITH (PRYBAR) AND)HAND AT MID TANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
583. TEAR DOWN STAGING PLANK FOR ( BETWEEN ) TANK STAGING PLATFORM WITH (PRYBAR ) AND HAND AT MID TANKS AND VODIS CARPENTERREPRESENTS ELAPSED TIME
584. TEAR DOWN STAGING BRACKETS ON TANK STAGING PLATFORM WITH WRENCH AT MITANKS AND VOIDS CARPENTERREPRESENTS ELAPSED TIME
Surface Treat------ --------
538. (BRWSH) CLEAN (PLATEN) FOR TANK STAGING PLATFORM WITH BROOM AT ANYPLATEN CARPENTERREPRESENTS ELAPSED TIME
PAGE. 183
SECTION 4STANDARD TIME CALCULATION
4.1 TITLE SHEETS
SET-UP AND TEAR DOWN PIPE STAGING AT SIDE SHELL AND/OR PLATE
Titlesheet 0rganization List ------- ---------------------
446.
454.
456.
459.
461.
463.
465.
476.
477.
Join----
WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYPLATEN (SHOP) WELDINGWELW TO MEET SAFETY REQWIREMENTS. RATE PER 100 PIECES OF HANDRAIL
(AVG. 1 CONNECTION EACH). RATE INCLWDES HANWAL ELEMENTS.
Hove----
(CLIMB WP AND DOWN) MOVE OPERATOR (ON PIPE STAGING) FOR SIDE SHELL ATANDY WAYS CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT STAGING PLANK FOR PIPE STAGING (AT SDIE SHELL) WITH (TOWERCRANE) AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME”
TRANSPORT STANCHION FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANE)AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME.
TRANSPORT HANDRAIL FOR PIPE STAGING (AT SDIE SHELL) WITH (TOWER CRANE) AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME.
TRANSPORT STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS)WITH (TOWER CRANE) AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
TRANSPORT HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH(TOWER CRANE) AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
REMOVE HANDRAIL ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTERREPRESENTS ELAPSED TIME
REMOVE STANCHION ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYS
STANDARD TIME CALCULATION
CARPENTERREPRESENTS ELAPESED TIME
478. REMOVE STAGING PLANK ON PIPE STAGING (AT SDIE SHELL) WITH (TOWER, CRANAT ANY WAYS CARPENTERREPRESENTS ELAPSEW TIME
479. REMOVE BRACE ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTERREPRESENTS ELAPSED TIME
480. REMOVE END RAIL (END PIECE) ON (MATERIAL FILE) WITH (TOWER CRANE) ATANY WAYS CARPENTERREPRESENTS ELAPSEW TIME
486. TRANSPORT END RAIL (ENW PIECE) ON (END-PIECE RACK) WITH (TOWER CRANE)AT ANY WAYS CARPENTERREPRESENTS ELAPSEW TIME
Operate- - - - - -
132, COMEDNED SUB-OP
HOCIK-WF/WNHOOK AND IGNITE/EXTINGWISH TORCH FOR BWRNING WITH HANDAT TANK CARPENTERCREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 EELOW)C RATE IN ELAPSED TIME
WLT BY 6 TO OBTAIN TOTAL TIME,
Prepare-------
455. MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTERREPRESENTS ELAPSED TIME
457. SET WP STAGING PLANK ON PIPE STAGING (AT SDIE SHELL) WITH HAND AT ANYWAYS CARPENTERREPRESENTS EL#tPSED TIME.
458. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTREPRESENTS ELAPSED TIME
460. SET WF STANCHION ON PIPE STAGING (AT SDIE SHELL) WITH WRENCH AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME,
462.
464.
466.
469.
470.
471.
472.
473.
474 .
475.
487.
480.
STANDARD TIME CALCULATION
SET UP HANDRAIL ON PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANY WAYSCARPENTERREPRESENTS ELAPSED TIME
SET UP STAGING PLANK FOR SIDE SHELL (BTwN 2 PIPE STAGING SECTIONS) WITHHAND AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
SET UP HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH HANDAT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITHTORCH AT ANY WAYS CARPENTERSREPRESENTS ELAPSED
TEAR DOWN HANDRAILWAYS CARPENTERREPRESENTS ELAPSED
TIME
FOR PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANY
TIME
TEAR DOWN STANCHION ON PIPE STAGING (AT SIDE SHELL) WITH WRENCH AT ANYWAYS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS)WITH HAND AT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOLDN STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WTTH HAND AT aANY WAYS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH WRENCHAT ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HAND ATANY WAYS CARPENTERREPRESENTS ELAPSED TIME
MAKE READY END RAIL (END PIECE) FOR (TRANSPORTING) AT ANY WAYSCARPENTERREPRESENTS ELAPSED TIME
SET-UP PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HAND ATANY WAYS CARPENTERREPRESENTS ELAPSED TIME.
STANDARD TIME CALCULATION
489. SET-UP PIPE STAGING (END PCS AND BRACES) FOR SDJE SHELL WITH WRENCH ANY WAYS CARPENTERREPRESENTS ELAPSED TIME
490. SET UP PIPE STAGING (END-PCS & BRACES) FOR (8’LONG) SECTION WITH HANAT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
491. SET UP (PIPE STAGING) ASSEMBLY FOR PIPE STAGING (1ST LEVEL) WITH (TOCRANE) AT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
492. SET UP (PIPE STAGING) ASSEDBLY FOR PIPE STAGING (ADDL LEVELS) WITH(TOUER CRANE) AT ANY PLATEN CARPENTERREPRESENTS ELAFSED TIME
496. TEAR DOWN (PIPE STAGING) ASSEMBLY FOR PIPE STAGING (ADDL- LEVELS) WITHWRENCH (AND TOWER CRANE) AT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
497. TEAR DOWN (PIPE STAGING) ASSEMBLY FOR PIPE STAGING (FIRST LEVEL) WITH(TOWER CRANE) AT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
498. TEAR DOWN PIPE STAGING (END PCS 2 BRACES) FOR (8’ LONG) SECTION WITHHAND AT ANY PLATEN CARPENTERREPRESENTS ELAPSED TIME
510. MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTREPRESENTS ELAPSED TIME
PAGE 187
SECTION 4STANDARD TIME CALCULATION
4.1 TIME SHEETS
SET-UP AND TEAR DOWN BRACKET STAGING (EXTERIOR) SHELL CARPEN
Titlesheet Organization List---------------------- -------
Join
435.
438.
440.
516.
521.
529.
580 .
581.
- - - -
WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY STRUCTURE) WITH STICKELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 CLIPS. RATE INCLUDES
MANUAL ELEMENTS.
WELD LADDER (CLIP) (SECURES LADDER) ON BDLKHEAD (OR ANY STRUCTURE) WITHSTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDINGUELD TO MEET SAFETY REQUIREMENTS, RATE PER 100 LADDERS (400 CLIPS)o
RATE INCLUDES MANUAL ELEHENTS.
WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYTANKS AND VOIDS (SHIP) WELDINGWELD TO MEET SAFETY REQUIREMENTS, RATE PER 100 PIECES OF AHNDRAIL
(AVG, 1 CONNECTION EACH), RATE INCLUDES MANUAL ELEMENTSO
Move----
TRANSPORT AREIAL PLATFORM FOR SIDE SHELL (STAGING) WITH (CRANE) AT ANYWAY CARPENTERREPRESENTS ELAPSED TIME
(CLIMB UP AND DOWN) MOVE OPERATOR(ON LADDER) ON SIDE SHELL AT ANY WAYCARPENTERREPRESENTS ELAPSED TIME
TRANSPORT AERIAL PLATFORM FOR SIDE SHELL (STAGING) WITH CRANE AT ANYWAY CARPENTERREPRESENTS ELAPSED TIME
LOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
UNLOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATENCARPENTERREPRESENTS ELAPSED TIME
STANDARD TIME CALCULATION
132.
517.
518.
519.
520.
522.
523 .
524.
525.
526 .
527 .
528.
530.
Operate-------
COMBINED SUB-OP
H00K-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTERCREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW) RATE IN ELAPSED TIMMULT BY 6 TO OBTAIN TOTAL TIME.
Prepare-------
SET-UP (STAGING CLIP) ON SIDE SHELL WITH HAMMER AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
SET-UP STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAY CARPENTEREPRESENTS ELAPSED TIME
SET-UP STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
SET-UP (ACCESS) LADDER ON SIDE SHELL WITH HAND AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
SET-UP STANCHION FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
SET-UP HANDRAIL FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN HANDRAIL ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STANCHION FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTEREPRESENTS ELAPSED TIME
TEAR DOWN (ACCESS) LADDR ON SIDE SHELL WITH TORCH AT ANY WAY CARPENREPRESENTS ELAPSED TIME
TEAR DOWN STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAYCARPENTERREPRESENTS ELAPSED TIME
TEAR DOWN (STAGING CLIP) ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTREPRESENTS ELAPSED TIME
STANDARD TIME CALCULATION
4.2 HOW TO CALCULATE TIME STANDARDS
M O S T OPERATION TIME CALCULATION
DETAIL/UNIT/PART
PROCESS/OPER CODE
PART NAME
SHIP CLASS
COST CLASS/JOB
GROUP (UNIT/ZONE)
SUB-GROUP
SUB-SUB-GROUP
CREW/MACHINE
ITEM
GEN. DRAWING
DET, DRAWING
WORK PACKAGE
OPER.
DATE
X REV. LTR/DATE------- -----------SET UP STANDARD CODE------ ----------- -----2 BOARD BRACKET STAGING
x---------------x---------------
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -x HULL------------------131 TRADE------ ------------x WORK AREA------------------x WORK ZONE------------------x WORK CENTER------------------3 CARPENTERS ASSET/MACHINE------------------131-3 SUB-ITEM------------------131 WORK ORDER------------------x SHEET------ ------- -----x APPLICATOR------------------SET UP BRACKET STAGING-ON A SMOOTH
x- - - - - - - - - - - - - - - - - -
CARPENTER- - - - - - - - - - - - - - - - - -
x- - - - - - - - - - - - - - - - - -x------------------x------------------x
131-3-1
x------------------1------ ------------
PA- - - - - - - - - - - - - - - - - -
BULKHEAD- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -PER 100 LINEAR FEET
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -08-JUN-83 ISSUE # 1- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Step Method Instruction FreQ
1 SET-UP (STAGING CLIP) ON BULKHEAD WITH HAMMER ((AND STEEL-TAPE)
376) 3
* REPRESENTS PUTTING UP A STAGING CLIP ON* ...THE BULKHEAD* WELDING OF THE CLIP WILL BE MINE IN A...* . ..SEPARATE SUB OPERATION
STANDARD TIME CALCULATION
4
5
6
7
8
WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY(STRUCTURE) WITH
MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND
* REPRESENTS GETTING BRACKET READY-TO BE..* ... TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* . ..OR IN TANK AT THE MATERIAL (BIN-1)
TRANSPORT STAGING BRACKET WITH (GROVE CRANE) (* REPRESENTS TRANSPORTING BRACKETS FROM...* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* ...FROM BIN-1 TO BULKHEAD ARE AVERAGE...* ...DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH(* REPRESENTS PUTTING UP A BRACKET ON AN...* ...EXISTING STAGING CLIP
MAKE READY STAGING PLANK FOR (TRANSPORTING) WIT(H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
TRANSPORT STAGING PLANK WITH (GROVE CRANE) (* REPRESENTS TRANSPORTING BOARDS FROM.....* .....LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3SET-UP STAGING PLANK ON STAGING BRACKET WITH HA(ND
* REPRESENTS SETTING UP BOARDS BETWEEN...* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH LIFT THE BOARD....* ...TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEVEL BELOW THE BOARDS.
MAKE READY STANCHION FOR (TRANSPORTING) WITH HA(ND
435 )
377 )
378 )
379 )
386)
387 )
388)
391)
.06
6
6
3
10
10
6
* REPRESENTS GETTING STANCHION READY TO BE
STANDARD TIME CALCULATION
* ...TRANSFORTED.10 TRANSPORT STANCHION WITH (GROVE CRANE) ( 392)-
* REPRESENTS TRANSPORTING STANCHION FROM...* ...BIN-2 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND..* ..FROM BIN-2 TO BULKHEAD ARE AVERAGE...*...DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
11 SET-UP STANCHION IN STAGING BRACKET WITH HAND ( 393)* REPRESENTS PUTTING STANCHION IN THE....* ...BRACKET SLEEVE.
l2 MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAN( 394)D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
13 TRANSPORT HANDRAIL WITH (GROVE CRANE)* REPRESENTS TRANSPORTING HANDRAIL FROM...* ...HR-PILE TO BDLKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
14 SET-UP HANDRAIL ON STANCHION WITH HAND* REPRESENTS PUTTING HANDRAIL INTO THE..,.* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR...* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SDB OPERATION
( 395)
( 396)
15 SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND B( 397)BULKHEAD) WITH HAND
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES)+OO+* ...CONNECTIONS WILL BE DONE IN A.....* ...SEPARATE SUB OPERATION
16 WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH S( 440)TICK ELECTRODE
17 MAKE READY LADDER FOR (TRANSPORTING) WITH HAND ( 380)* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.
18 TRANSPORT LADDERS WITH (GROVE CRANE) ( 381)* REPRESENTS TRANSPORTING LADDERS FROM....+* ...LDR-PILE TO BULKHEAD
3
12
12
12
1 2
STANDARD TIME CALCULATION
* DISTANCES FROM CRANE-REST TO LDR-PILE...* ...AND FROM LDR-PILE TO BULKHEAD ARE....* ....AVERAGE DISTANCES IN A CENTER TANK...* ...98’X 5O’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
19 SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND ( 383)* REPRESENTS PUTTING UP AN ACCESS LADDER..* ...ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER,* ALSO INCLUDES CLIMBING UP AND DOWN THE..* ...LADDER.* AVERAGE NUMBER OF RUNGS = 12
20 POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD ( 384)WITH
* REPRESENTS SECURING A LADDER TO THE.....* ...BULKHEAD USING 4 LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A....* ...SEPARATE SUB OPERATION
21 WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD( 438)(OR ANY STRUCTURE)
PAGE 193
2
2
.02
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
INTERNAL EXTERNAL LOCSTEP SA FREQ TMU TMU #---------------------- ------- ------------------------ ------------------
12345678
101112131415161718192021
0000O.OOO.OO0.000.000.00O.OOO.OO0.000.000.000. 000.000.000.000.000.00O.OO0.000.000.00
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
TOTAL INTERNAL TIME(TMU)
TITLE SHEET USED IN SETTING STANDARD:
3.OO0.066.006.OO3.00
10.0010.005.OO6.006.003.00
12.0012.0012.002.000.122.OO2.002.OO2.00O.O2
201O.63801.3060 .6402.3240.4200 .25670.1450.3300 .6402.750.
6000.12804.7800.3940.
23531.1200 .4800 .2840 .1420.34032.
- - - - - - - - - - - - - - - - - -
0. 218652.
0. 0.
0.
0.
0
376435377378379386387388391392393394395396397440380381383384438
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Engineered Operetion Time Calculation---------------------- ---------------
Type ofwork
------------------
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
ElementelTime
---------
2.187
( 0.000)
0.000
STANDARD(HRS./CYCLE) “ 2.187
PIECES PER CYCLE 1
STANDARD HOURS
Percent ADouence StanderdADowance Time Time--------- --------- ---------
O.OOO 2.187
() ( 0.000) ( 0.000)
0.000 0.000
0. 000 2.187
2.2
STANDARD TIME CALCULATION
3
4
7
8
9
10
MAKE READY STAGING BRACKET FOR (TRANSPORTING) W( 377)ITH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATER EITHER ON THE WAY..* ...OR IN TANK AT THE MATERIAL (BIN-1)
TRANSPORT STAGING BRACKET WITH (GROVE CRANE) ( 378)* REPRESENTS TRANSPORTING BRACKETS FROM....* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* ...FROM BIN-1 TO BULKHEAD ARE AVERAGE...* ...DISTANCES IN A CENTER TANK 98’*50’* MA*IMUH NUMBER OF BRKTS IN LIFT = 6SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH( 379)* REPRESENTS PUTTING UP A BRACKET ON AN...* ,+,E*ISTING STAGING CLIP
MAKE READY STAGING PLANK FOR (TRANSPORTING) WIT( 386 )H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
TRANSPORT STAGING PLANK WITH (GROVE CRANE) ( 387)* REPRESENTS TRANSPORTING BOARDS FROM...* ....LU-PILE TO BULKHEAD* DSTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...SIISTANCES IN A CENTER TANK 98’*50’* HA*IMUH NUMBER OF BOARDS IN LIFT = 3SET-UP STAGING PLANK ON STAGING BRACKET WITH HA( 389)ND
6
6
3
15
10
* REPRESENTS SETTING UP BOARDS BETWEEN......* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH PICK-UP THE BOARD* ..TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.
MAKE REALLY STANCHION FOR (TRANSPORTING) WITH HA( 391) 6 ND
* REPRESENTS GETTING STANCHION READY TO BE* ...TRANSPORTED,
TRANSPORT STANCHION WITH (GROVE CRANE) ( 392) 6
PAGE 197
STANDARD TIME CALCULATION
* REPRESENTS TRANSPORTING STANCHION FROM..* ...BIN-2 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND..* ...FROM BIN-2 TO BULKHEAD ARE AVERAGE...* ...DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
11 SET-UP STANCHION IN STAGING BRACKET WITH HAND ( 393)* REPRESENTS PUTTING STANCHION IN THE....* ....BRACKET SLEEVE.
12 MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAN( 394)D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
13 TRANSPORT HANDRAIL WITH (GROVE CRANE) ( 395)* REPRESENTS TRANSPORTING HANDRAIL FROtit.** ...HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROH HR-PILE TO BULKHEAD ARE AVERAGE * ..oDISTANCES IN A CENTER TANK 98’*50’* MA*IMUM NUMBER OF HANDRAIL IN LIFT = 6 .
14 SET-UP HANDRAIL ON STANCHION WITH HAND ( 396)* REPRESENTS PUTTING HANDRAIL INTO THE....* ..oEYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR....* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ● ..BE DONE IN A SEPARATE SUB OPERATION
15 SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND E( 397)ULKHEAD) WITH HAND
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ..oAT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES) . . . .* ...CONNECTIONS WILL BE DONE IN A........* . ..SEPARATE SUB OPERATION
16 WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH S( 440 )TICK ELECTRODE
17 MAKE READY LADDER FOR (TRANSPORTING) WITH HAND ( 380)* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.
18 TRANSPORT LADDERS WITH (GROVE CRANE) ( 381)* REPRESENTS TRANSPORTING LADDERS FROM....* ...LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILEa..* ..*AND FROM LDR-PILE TO BULKHEAD AREe..o
3
12
12
12
2
12
2
2
STANDARD TIME CALCULATION
* ...AUERAGE DISTANCES IN A CENTER TANK...* ...98’*5O’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
19 SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND ( 383)* REPRESENTS PUTTING UP AN ACCESS LADDER..* ...ON THE BULKHEAD SO THAT THE CARPENTER* ..cCAN CLIME TO THE NE*T LADDER.* ALSO INCLUDES CLIMBING UP AND DOWN THE..* ..*LADDERe* AVERAGE NUMBER OF RUNGS = 12
20 POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD ( 384)WITH
* REPRESENTS SECURING A LADDER TO THE***..* ...BULKHEAD USING 4 LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A......* ..cSEPARATE SUB OPERATION
21 WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD( 438)(OR ANY STRUCTURE)
2
0 2
PAGE 199
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
INTERNAL EXTERNAL LOCSTEP SA FREQ TMU TMU #-------------------- -------------------------- -------------------- -----
123456789
1011121314 1516
17192021
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
TOTAL INTERNAL TIME(TMU)
0.00O.OO0.000.00O.OO0.000.00O.OO0.00O.OOO.OO0.000.000.000.000.00O.OO0.000.000.000.00
TITLE SHEET USED IN SETTING STANDARD:
3.00O O 66.006.003.OO
15.OO15.OO10.OO6.006.003.00
12.0012.oo12.002.000.122.OO2.002.002.00O.O2
2010.63801 .3060 .6402 .3240.6300 .
38505 .3500 .3300.6402 .750.
6000 .12804.7800.
3940.23531.1200.4800 .2840.1420.34032.
- - - - - - - - - - - - - - - - - -O. 454290,
o. 0.
0.
0.
0
376435377378379386387389391392393394395396397440380381383384438
PAGE 200
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Type ofWork
-----------------
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
Engineered “Operetion Time Calculetion------- ------ -------------------- ---
ElementalTime
2.356
( 0.000)
0.000
STANDARD(HRS+/CYCLE) 2.356
PIECES pER CYCLE
STANDARD HOURS
1
Percent Allowance StandardAllowence Time Time--------- ------- -- ---------
0.000 2.l 356
() ( 0.000) ( 0.000)
0.000 0.000
0.000 2.356
2.4
PAGE 201
STANDARD TIME CALCULATION
3
4
6
7
8
9
10
MAKE READY STAGING BRACKET FOR (TRANSPORTING) W( 377 )ITH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD * CARPENTER IS LOCATED EITHER ON THE WAY..* ...OR IN TANK AT THE MATERIAL (BIN-1)
TRANSPORT STAGING BRACKET WITH (GROVE CRANE) ( 378)* REPRESENTS TRANSPORTING BRACKETS FRO?f.00* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* ...FROil BIN-1 TO BULKHEAD ARE AVERAGE...* ...D1STANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH( 379 )* REPRESENTS PUTTING UP A BRACKET ON AN...* ...EXISTING STAGING CLIP
HAKE READY STAGING PLANK FOR (TRANSPORTING) WIT( 386)H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
TRANSPORT STAGING PLANK WITH (GROVE CRANE) ( 387)* REPRESENTS TRANSPORTING BOARDS FROM..*O.* .o.LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* .eoIiISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3SET-UP STAGING PLANK ON STAGING BRACKET WITH HA( 388 )ND
* REPRESENTS SETTING UP BOARDS BETWEEN...* ...BRACKETS* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH LIFT THE BOARD . . . .* ..TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* . ..ON THE LEVEL BELOW THE BOARDS.
MAKE READY STANCHION FOR (TRANSPORTING) WITH HA( 391)ND
* REPRESENTS GETTING STANCHION READY TO BE* . ..TRANSPORTED.
TRANSPORT STANCHION WITH (GROVE CRANE) ( 392)
PAGE 203
6
6
3
12
6
12
12
STANDARD TIME CALCULATION
* REPRESENTS TRANSPORTING STANCHION* ..eBIN-2 TO BULKHEAD
FROM..
( 396)
* DISTANCES FROM CRANE-REST TO BIN-2 ANIJ.Q* ..oFROM BIN-2 TO BULKHEAD ARE AVERAGE...* t..DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
11 SET-UP STANCHION IN STAGING BRACKET WITH HAND ( 393)*I REPRESENTS PUTTING STANCHION IN THE......* ......BRACl(ET SLEEVE.
12 HAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAN( 394)D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
13 TRANSPORT HANDRAIL WITH (GROVE CRANE) ( 395)* REPRESENTS TRANSPORTING HANDRAIL FROH....* ...HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO BULKHEAD ARE AVERAGE* ..*DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
14 SET-UP HANDRAIL ON STANCHION WITH HAND* REPRESENTS PUTTING HANDRAIL INTO THE...;* ....EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR....* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
15 SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND B( 397)ULKHEAD) WITH HAND
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END (IF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES).....* ...CONNECTIONS WILL BE DONE IN A........* ...SEPARATE SUB OPERATION
16 WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH S( 440)TICK ELECTRODE
17 (WALK UP OR DOWN) MOVE OPERATOR (ON INCLINED ST( 431)AIRS) ON BULKHEAD
* REPRESENTS CARPENTER WALKING UP OR DOWN* ...A SET OF INCLINED STAIRS. AVERAGE* ..oNUMBER OF TREADS IN A SET OF INCLINED* ...STAIRS = 16.* CARPENTERS ARE WALKING UP OR DOWN STAIRS
6
12
12
12
6
PAGE 204
.
STANDARD TIME CALCULATION
* AT THE SAME TIME.
PAGE 205
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
INTERNAL EXTERNAL LOCSTEP SA FREQ TMU TMU #------- -------------- ------- ------- -------------------- ----------------
123456789
1011121314151617
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
TOTAL INTERNAL TIME(TMU)
0.000.00O.OO0.000.00O.OO0.000.00O.OO0.000.00O.OOO.OO0.000.00O.OOO.OO
3.000.066.006.003.OO
12.OO12.006.0012.0012.006.00
12.0012.0012.006.000.121.OO
2010.63801.3060 .6402.3240.5040.
30804 .1740.6600.
12804.1500 .6000.12804.7800.11820.23531 .
320.
- - - - - - - - - - - - - - - - - -0. 653566 .
0. 04
0.
0.
376435377378379386387388391392393394395396397440431
TITLE SHEET USED IN SETTING STANDARD:
STANDARD
H O S T OPERATION TIME
TIME CALCULATION
CALCULATION
Engineered OPeretion Time Calculetion---------------------- ---------------
Type of Elementel Percent Allowance Standardwork Time Allowence Time Time
----------------- --------- --------- --------- ---------
EXTERNAL MANUAL 1.993 0.000 1.993
ASSIGNED INTERNAL ( 0.000) () ( 0.000) ( 0.000)
PROCESS TIME 0.000 0.000 0.000
STANUARD(HRS./CYCLE) 1. 993 0.000 1.993
PIECES PER CYCLE
STANDARD HOURS 2.0
PAGE 207
STANDARD TIME CALCULATION
3 MAKE READY STAGING BRACKET FOR (TRANSPORTING) W(ITH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* . ..OR IN TANK AT THE MATERIAL (BIN-1)
TRANSPORT STAGING BRACKET WITH (GROVE CRANE) (* REPRESENTS TRANSPORTING BRACKETS FROM...* ...BIN-1 TO BULKHEAD*DISTANCES FROM CRANE-REST TO BIN-1 AND...* ...FROM BIN-1 TO BULKHEAD ARE AVERAGE...* ..DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6
5 SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH(* REPRESENTS PUTTING UP A BRACKET ON AN...* ...EXISTING STAGING CLIP
6 MAKE READY STAGING PLANK FOR (TRANSPORTING) WIT(H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
7 TRANSPORT STAGING PLANK WITH (GROVE CRANE) (* REPRESENTS TRANSPORTING BOARDS FROM....* ...LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF BOARSIS IN LIFT = 3
8 SET-UP STAGING PLANK ON STAGING BRACKET WITH HA(ND
* REPRESENTS SETTING UP BOARDS BETWEEN....* ....BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH LIFT THE BOARD.. ..TOGETHER AND SLIDE IT INTO POSITION. * IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEVEL BELOW THE BOARDS.
9 SET-UP STAGING PLANK ON STAGING BRACKET WITH HA(ND
* REPRESENTS SETTINGUP BOARDS BETWEEN.....* ...BRACKETS. .
377)
378)
379)
386 )
387)
388)
390 )
4
14
14
* ONE MAN OPERATION:
* USUALLY OCCURS WHEN CRANE CANNOT PLACE..* ...BOARD ON BRACKETS.
10 MAKE READY STANCHION FOR (TRANSPORTING) WITH HA(ND
. REPRESENTS GETTING STANCHION READY TO BE
. ...TRANSPORTED.11 TRANSPORT STANCHION WITH (GROVE CRANE) (
. REPRESENTS TRANSPORTING STANCHION FROM..
. . ..BIN-2 TO BULKHEAD
. DISTANCES FROM CRANE-REST TO BIN-2 ANDD...* ...FROM BIN-2 TO BULKHEAD ARE AVERAGE...* ...DISTANCES IN A CENTER TANK 98’X 50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
12 SET-UP STANCHION IN STAGING BRACKET WITH HAND (* REPRESENTS PUTTING STANCHION IN THE......* ..BRACKET SLEEVE.
13 MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAN(D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS. . ..S0 THAT THE CRANE CAN TRANSPORT IT
14 TRANSPORT HANDRAIL WITH (GROVE CRANE) (* REPRESENTS TRANSPORTING HANDRAIL FROM...* ...HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* . ..FROM HR-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
15 SET-UP HANDRAIL ON STANCHION WITH HAND (* REPRESENTS PUTTING HANDRAIL INTO THE . . . .* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR....* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
16 SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND B(ULKHEAD) WITH HAND
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES)....* ...CONNECTIONS WILL BE DONE IN A.....* ...SEPARATE SUB OPERATION
17 WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH S(TICK ELECTRODE
391)
392)
393)
394)
395)
396)
397)
440)
8
4
12
12
● 14
PAGE 210
STANDARD TIME CALCULATION
18 MAKE READY LADDER FOR (TRANSPORTING) WITH HAND ( 380)* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.
19 TRANSPORT LADDERS WITH (GROVE CRANE) ( 381)* REPRESENTS TRANSPORTING LADDERS FROM...* ..LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE...* ...AND FROM LDR-PILE TO BULKHEAD ARE...* ...AVERAGE DISTANCES IN A CENTER TANK...* ....98'X50' * MAXIMUM NUMBER OF LADDERS IN LIFT = 3
20 SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND ( 383)* REPRESENTS PUTTING UP AN ACCESS LADDER..* ...ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER.* ALSO INCLUDES CLIMBING UP AND DOWN THE..* ..LADDER.* AVERAGE NUMBER OF RUNGS = 12
21 POSITION (SECURE) (ACCESS) LADDER FOR BRACKET S( 385)TAGING WITH
* REPRESENTS SECURING LADDER TO STAGING...* ...BOARDS USING WIRE ROPE
22 (WALK UP OR DOWN) MOVE OPERATOR (ON INCLINED ST( 431)AIRS) ON BULKHEAD
2
* REPRESENTS CARPENTER WALKING UP OR DOWN* ... SET OF INCLINED STAIRS, AVERAGE* ...NUMBER OF TREADS IN A SET OF INCLINED* ...STAIRS = 16.* CARPENTERS ARE WALKING UP OR DOWN STAIRS* AT THE SAME TIME.
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Type ofwork
-----------------
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
Engineered Operetion Time Calculation--------------------- ---------------
ElementalTime
2,395
( 0.000)
0.000
STANDARD(HRS./CYCLE) 2.395
PIECES PER CYCLE 1
STANDARD HOURS
Percent Allowance StandardAllowance Time Time--------- --------- ---------
O.OOO 2.395
() ( 0.000) ( 0.000)
0.000 0.000
0.000 2.395
2.4
PAGE 213
STANDARD TIME CALCULATION
3
6
7
a
9
10
* ...STANCHION IS THROWN TO A MATERIAL...* ...FILE ON THE TANKTOP
TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH( 402)HAND (AND WINCH)
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO.....* ...BD-PILE ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3(CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) 0( 404)N BULKHEAD
* REPRESENTS CARPENTERS CLIMBING Up AND...* ...DOWN LADDERS TO REMOVE STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAD( 403)WITH
* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER.* ...LADDER LOWERD TO LDR-PILE BY WINCH* ...LADDER CLIPS THROWN TO MATL-PILE.
TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WREN( 406)CH
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK. BRACKETS ARE LOWERED TO* ...MATL-PILE BY WINCH.* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH ( 407)* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ...PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH ( 408)* REPRESENTS REMOVAL OF STANCHION FROM ...* ....MATL-PILE ON TANKTOP TO DECK (GOING* ..THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH( 410)* REPRESENT REMOVING BOARDS FROM BOARD...* ...PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE)* MAXIMUM NUMBER OF BOARDS IN LIFT = 3REMOVE LADDER ON (LADDER-PILE) WITH WINCH ( 411)* REPRESENT REMOVING LADDERS FROM LADDER* ....PILE ON TANKTOP TO DECK (GOES THRU..
10
14
6
10
2
STANDARD TIME CALCULATION
* ...HANHOLE).* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
11 REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH ( 409) 6WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... FILE ON TANKTOP TO DECK (GOING THRU* ...HANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
12 REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH ( 412) 1* REPRESENTS REMOVING TOOLBOX FROM MATL..* ...PILEON TANKTOP TO DECK (GOES THRU...* ...MANHOLE).* TOOLBOX CONTAINS:* ...28 BOLTS* ...28 NUTS* ...28 LADDER CLIPS
PAGE 216
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
INTERNAL EXTERNAL LOCSTEP SA FREQ TMU TMU #---------------------- --------------------- --------------------- -------
0.00 14.00 8400. 398 2 O.OO 3.00 1170. 4003 0.00 10.OO 19430. 402
4 0.00 2.0O 2560. 4045 0.00 2.00 17940. 4036 0.00 6.00 16782. 4067 O.OO 14.00 12852. 4078 0.00 6.00 5928. 4089 O.OO 10.00 19830. 410
10 O.OO 2.00 3966. 41111 0.00 6.00 10662. 40912 O.OO 1.00 7210. 412
- - - - - - - - - - - - - - - - - -
MANUAL TIME(TMU) 0. 1019751.
ACTUAL PROCESS TIME(TMU) 0. 0.
FACTORED PROCESS TIME(TMU) 0.
TOTAL INTERNAL TIME(TMU) 0.
TITLE SHEET USED IN SETTING STANDARD: 0
PAGE 217
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Engineered OPeretion Time Calculation--------------------- ---------------
TYPe of Elemental Percent Allowance StandardWork Time Allowance Time Time
----------------- --------- --------- --------- ---------
EXTERNAL MANUAL
ASSIGNED INTERNAL (
PROCESS TIME
STANDARD(HRS ./CYCLE)
PIECES PER CYCLE
STANDARD HOURS
1.267 0.000 1.267
0.000) () ( 0.000) ( 0.000)
0.000 0.000 0.000
1.267 0.000 1.267
1.3
STANDARD TIME CALCULATION
3
4
5
6
7
8
9
10
* ...STANCHION IS THROWN TO A MATERIAL.....* ...PILE ON THE TANKTOP
TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH(HAND (AND WINCH)
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO.....* ....BD-PILE ON TANKTOP,* MAXIMUM NUMBER OF BOARDS IN LIFT = 3(CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) 0(N BULKHEAD
* REPRESENTS CARPENTERS CLIMBING UP AND...* ...DOWN LADDERS TO REMOVE STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAD(WITH
* REPRESENTS REMOVING LADDER,FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...LADDER CLIPS THROWN TO MATL-PILE.
402)
404)
403)
TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WREN(. 406)CH
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK. BRACKETS ARE LOWERED TO* ...MATL-PILE BY WINCH,* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3
REMOVE HANDRAIL ON (HATERIAL-PILE) WITH WINCH (* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* .... PILE ON TANKTOP TO DECK (GOING THRU* ...HANHOLE),* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH (* REPRESENTS REMOVAL OF STANCHION FROM . ...* ...MATL-PILE ON TANKTOP TO DECK (GOING* ...THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH(* REPRESENT REMOVING BOARDS FROM BOARD....* ...PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE),* MAXIMUM NUMBER OF BOARDS IN LIFT = 3REMOVE LADDER ON (LADDER-FILE) WITH WINCH* REPRESENT REMOVING LADDERS FROM LADDER* ...-PILE ON TANKTOP TO DECK <GOES THRU..
407)
408)
410)
15
2
2
6
14
6
15
2
STANDARD TIME CALCULATION
* ....MANHOLE)* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
11 REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH ( 409 )WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MTL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...HANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH ( 412)* REPRESENTS REMOVING TOOLBOX FROM MATL...* ...-PILEON TANKTOP TO DECK (GOES THRU..* ....MANHOLE).* TOOLBOX CONTAINS:* ....28 BOLTS* ....28 NUTS* ...28 LADDER CLIPS
6
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Engineered Operation Tipe Calculation--------------------- ---------------
Type of Elenentel Percent Allowance StandardWork Time Allowence -Time Time
----------------- --------- --------- --------- ---------
EXTERNAL MANUAL 1.464 0.000 1.464
ASSIGNED INTERNAL ( 0.000) () ( 0.000) ( 0.000)
PROCESS TIME 0.000 0.000 0. 000
STANDARD(HRS,/CYCLE) 1.464 0.000 1.464
PIECES PER CYCLE 1
STANDARD HOURS 1.5
STANDARD TIME CALCULATION
* ...STANCHION IS THROWN TO A MATERIAL....* ...PILE ON THE TANKTOP
3 TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH(HAND (AND WINCH)
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO.....* ...BD-PILE ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
4 TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WREN(CH
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK, BRACKETS ARE LOWERED TO* ....MATL-PILE BY WINCH.* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3
5 REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH (* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
6 REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH (* REPRESENTS REMOVAL OF STANCHION FROM . ..* ...MATL-PILE ON TANKTOP TO DECK (GOING* ...THRU HANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT =.6
7 REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH(* REPRESENT REMOVING BOARDS FROM BOARD...* ...-PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE).* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
8 REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH (WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
9 REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH (* REPRESENTS REMOVING TOOLBO* FROM MATL...* ...-PILEON TANKTOP TO DECK (GOES THRU...* ...HANHOLE).* TOOLBOX CONTAINS:* ...28* ...28* ...20
10 (WALK UP
BOLTSNUTSLADDER CLIPSOR DOWN) MOVE OPERATOR (ON INCLINED ST(
402)
406)
407)
408)
410)
409 )
412)
431)
12
6
18
12
12
6
1
1
STANDARD TIME CALCULATION
AIRS) ON BULKHEAD
* REPRESENTS CARPENTER WALKING UP OR DOWN* ...A SET OF INCLINED STAIRS. AVERAGE* ..NUMBER OF TREADS IN A SET OF INCLINED* ...STAIRS = 16* CARPENTERS ARE WALKING UP OR DOWN STAIRS* AT THE SAME TIME.
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
INTERNAL EXTERNAL LOCSTEP S4 FREQ TMU TMU #--------------------- -------------------------- ---------------------- --
1 0.00 18.00 10800. 3982 0.00 6.00 2340 . 4003 0.00 12.OO 23316. 4024 O.OO 6.00 16782. 4065 O.OO 18.00 16524 . 4076 0.00 12.OO 11856. 4087 0.00 12.OO 23796. 4108 0.00 6.00 10662. 409
0.00 1.OO 7210. 41210 0.00 1.00 320 431
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
TOTAL INTERNAL TIME(TMU)
TITLE SHEET USED IN SETTING STANDARD:
- - - - - - - - - - - - - - - - - -0. 1289717.
0. 0.
0.
0.
PAGE 227
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Type ofwork
-----------------
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
Engineered Operetion Time Calculation--------------------- ---------------
ElementalTime
1•236
( 0.000)
0.000
STANDARD(HRS /CYCLE) 1.236
PIECES PER CYCLE 1
STANDARD HOURS
Percent Allowance StandardAllowance Time Time--------- --------- ---------
0.000 1.236
() ( 0.000) ( 0.000)
0.000 0.000
0.000 1.236
1.2
STANDARD TIME CALCULATION
3
4
5
6
7
8
9
1.0
* ...STANCHION IS THROWN TO A MATERIAL....* ...PILE ON THE TANKTOP
TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH(HAND (AND WINCH)
* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO....* ...BD-PILE ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WREN(CH
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK, BRACKETS ARE LOWERED TO* ...MATL-PILE BY WINCH.* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3
TEAR DOWN LADDER (AND WIRE ROPE) ON BULKHEAD WI(TH
* REPRESENTS REMOVING LADDER FROM BULKHEAD * ...THERE IS 1 WIRE ROPE PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...WIRE-ROP-E IS THROWN TO MATL-PILE.
REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH (* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...HANHOLE),* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH (* REPRESENTS REMOVAL OF STANCHION FROM . . .* ...MATL-PILE ON TANKTOP TO DECK (GOING* ...THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH(* REPRESENT REMOVING BOARDS FROM BOARD...* ...-PILE ON TANKTOP TO DECK (GOES THRU.* ...MANHOLE).* MAXIMUM NUMBER OF BOARDS IN LIFT = 3REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH (WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3REMOVE LADDER ON (LADDER-PILE) WITH WINCH* REPRESENT REMOVING LADDERS FROM LADDER
402)
4 06
405)
407)
408)
410)
409)
411)
14
14
8
14
8
STANDARD TIME CALCULATION
* ...-PILE ON TANKTOP TO DECK (GOES THRU..* ...HANHOLE).* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
11 REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH ( 412)* REPRESENTS REMOVING TOOLBOX FROM MATL.....* ...-PILEON TANKTOP TO DECK (GOES THRU...* ...HANHOLE)* TOOLBOX CONTAINS:* ...28 BOLTS* ..28 NUTS* ...28 LADDER CLIPS
12 (WALK UP OR DOWN) HOVE OPERATOR (ON INCLINED ST( 431 )AIRS) ON BULKHEAD
* REPRESENTS CARPENTER WALKING UP OR DOWN* ...A SET OF INCLINED STAIRS. AVERAGE* ...NUMBER OF TREADS IN A SET OF INCLINED* ...STAIRS = 16.* CARPENTERS ARE WALKING UP OR DOWN STAIRS* AT THE SAME TIME.
1
1
PAGE 231
STANDARD
H O S T OPERATION TIME
STEP- - - - - - - - - - - - - - - - - - - - - - - -
TIME CALCULATION
CALCULATION
123456709
101112
MANUAL TIME(TWU)
ACTUAL PROCESS TIME(TMU)
INTERNAL EXTERNAL LOCSA FREQ THU TMU #
--------------------- --------------------- -----
FACTORED PROCESS TIME(TMU)
TOTAL INTERNAL TIME(TMU)
0.00O.OOO.OOO.OO0.00O.OOO.OO0.00O.OOO.OO0.00O.OO
14.QO4.0014.OO8.002.00
14.OO8.00
14.OO80002.001.OO1.00
TITLE SHEET USED IN SETTING STANDARD: 0
8400•1560.
27202.22376.1094O.128527904 .
27762.14216.3966.7210.320 .
- - - - - - - - - - - - - - - - - -0. 1434425.
O. 0.
0.
0.
398400402406405407408410409411412431
STANDARD TIME CALCULATION
H O S T OPERATION TIME CALCULATION
Engineered Operation Time Calculation--------------------- ---------------
Type of ElementalWork Time
EXTERNAL MANUAL 1.447
ASSIGNED INTERNAL ( 0.000)
PROCESS TIME 0.000
STANDARD(HRS./CYCLE) 1.447
PIECES PER CYCLE 1
STANDARD HOURS
Percent Allowance StandardAllowance Time Time--------- --------- ---------
0.000 1.447
() ( 0.000) ( 0.000)
0 . 0 0 0 0.000
0.000 1.447
1.4
PAGE 233
STANDARD TIME CALCULATION
3
4
5
6
7
8
9
MAKE READY STAGING BRACKET FOR (TRANSPORTING) WI(TH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTEII TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY++* ...OR IN TANK AT THE MATERIAL (BIN-1)
TRANSPORT STAGING BRACKET WITH (TOWER CRANE) (* REPRESENTS TRANSPORTING BRACKETS FROM...* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* t..FROtl BIN-1 TO BULKHEAD ARE AVERAGE*.C* ...DISTANCES FROM THE SIDE OF A BASIN* ...1200’X200’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6SET-UP STAGING BRACKET ON WEB FRAME WITH WRENCH(* REPRESENTS PUTTING UP A STAGING BRACKET* ...ON A EXISTING STAGING CLIP ( LOCATED* ...ON A WEB FRAME )
MAKE READY STAGING PLANK FOR (TRANSPORTING) WIT(H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* .o.THAT THE CRANE CAN TRANSPORT IT
TRANSPORT STAGING PLANK WITH (TOWER CRANE) (* REPRESENTS TRANSPORTING BOARDS FROM* .+.LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES FROM THE SIDE OF A BASIN* ...1200’X200’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3SET-UP STAGING PLANK ON STAGING BRACKET WITH HA(ND
* REPRESENTS SPREADING BOARDS BETWEEN WEBS* 2 MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ...WEBS. THEY BOTH PICK UP THE BOARD* ...TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* .*.ON THE SAME LEVEL AS THE BOARDS.SET-WP STAGING PLANK ON ( EXISTING ) BRACKET ST(AGING WITH HAND
* REPRESENTS SPREADING BOARDS BETWEEN
426)
563)
569)
428)
565 )
6
3
34
34
573) 5
575) 12
PAGE235
STANDARD TIME CALCULATION
* E X I S T I N G S T A G I N G A N D I N B O A R D O R* OUTBOARD BULKHEAD* 2 MAN OPERATION:* CARPENTERS ARE LOCATED AT DIFFERENT WEBS* E A C H C A R P E N T E R S P R E A D S T W O B O A R D S* S I M U L T A N E O U S L Y* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ON THE SAME LEVEL AS THE BOARDS.
1 0 M A K E R E A D Y S T A N C H I O N F O R ( T R A N S P O R T I N G ) W I T H H A (ND
* REPRESENTS GETTING STANCHION READY TO BE* TRANSPORTED,
11 TRANSPORT STANCHION WITH (TOWER CRANE) (* REPRESENTS TRANSPORTING STANCHION FROM..* B I N - 2 T O B U L K H E A D* DISTANCES FROM CRANE-REST TO BIN-2 AND..* FROM BIN-2 TO BULKHEAD ARE AVERAGES...* *DISTANCES FROM THE SIDE OF A BASIN* . . 1 2 O O ’ X 2 O O ’* M A X I M U M N U M B E R O F S T A N C H I O N S I N L I F T = 6
1 2 S E T - U P S T A N C H I O N I N S T A G I N G B R A C K E T W I T H H A N D (* REPRESENTS PUTTING STANCHION IN THE* BRACKET SLEEVE IN A WING TANK
1 3 M A K E R E A D Y H A N D R A I L F O R ( T R A N S P O R T I N G ) W I T H H A N (D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* SO THAT THE CRANE CAN TRANSPORT IT
1 4 T R A N S P O R T H A N D R A I L W I T H ( T O W E R C R A N E ) (* REPRESENTS TRANSPORTING HANDRAIL FROM...* H R - P I L E T O B U L K H E A D* D I S T A N C E S F R O M C R A N E - R E S T T O H R - P I L E A N D* FROH HR-PILE TO BULKHEAD ARE AVERAGE* DISTANCES FROM THE SIDE OF A BASIN* 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
1 5 S E T - U P H A N D R A I L I N S T A N C H I O N U I T H H A N D (* REPRESENTS PUTTING HANDRAIL INTO THE* E Y E L E T S O N T H E S T A N C H I O N* INCLUDES ACTION DISTANCES NEEDED FOR* Gs,ALIGNING THE HANDRAIL* W E L D I N G O F T H E H A N D R A I L W I L L B E D O N E I N* A SEPARATE SUB OPERATION
1 6 S E T - U P H A N D R A I L ( E N D P I E C E S ) O N ( H A N D R A I L A N (D ) RULKHEAD WITH
4 2 9 )
5 6 6 )
5 7 7 )
4 3 0 )
567 )
578 )
5 7 9 )
P A G E 2 3 6
6
6
1 2
1 2
1 2
STANDARD TIME CALCULATION
* REPRESENTS PUTTING HANDRAIL (END PIECES)* A T T H E E N D O F A S T A G I N G L E V E L* W E L D I N G O F T H E H A N D R A I L ( E N D P I E C E S )* CONNECTIONS WILL BE DONE IN A* S E P A R A T E S U B O P E R A T I O N
1 7 W E L D H A N D R A I L ( C O N N E C T I O N S ) O N S T A N C H I O N W I T H S ( 440 )TICK ELECTRODE
1 8 M A K E R E A D Y L A D D E R F O R ( T R A N S P O R T I N G ) W I T H H A N D ( 4 2 7 )* REPRESENTS GETTING LADDER ON BOLSTERS SO* T H A T T H E C R A N E C A N T R A N S P O R T I T .
1 9 T R A N S P O R T L A D D E R W I T H ( T O W E R C R A N E ) ( 564)* REPRESENTS TRANSPORTING LADDERS FROM* LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE* . . . A N D F R O M L D R - P I L E T O B U L K H E A D A R E* . . . A V E R A G E D I S T A N C E F R O M S I D E O F B A S I N* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
2 0 S E T - U P ( A C C E S S ) L A D D E R O N ( I N B O A R D O R O U T B O A ( 570 )RD ) BULKHEAD WITH
* REPRESENTS PUTTING UP AN ACCESS LADDER* ...ON THE INBOARD OR OUTBOARD BULKHEAD* . . . S O T H A T T H E C A R P E N T E R C A N C L I M B T O* . . . T H E N E X T L E V E L O F S T A G I N G* ...ALSO INCLUDES CLIMBING UP AND DOWN THE* ...LADDER
21 P O S I T I O N ( S E C U R E ) ( ACCESS ) LADDER ON ( 571)* REPRESENTS SECURING A LADDER TO THE* . . . INBOARD OR OUTBOARD BULKHEAD USING* ...FOUR LADDER CLIPS* W E L D I N G O F C L I P S W I L L B E D O N E I N A* . . . S E P A R A T E S U B O P E R A T I O N
2 2 W E L D L A D D E R ( C L I P ) ( S E C U R E S L A D D E R ) O N B U L K H E A D ( 4 3 8 )(OR ANY STRUCTURE)
1 2
0 1
P A G E 2 3 7
STANDARD TIME CALCULATION
M O S T OPERATION TIME CALCULATION
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMW TMW #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
123456789
1 01 11 21 31 41 51 61 71 81 92 02 12 2
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
T O T A L I N T E R N A L T I M E ( T M U )
0 . 0 0O.OOO.OO0 . 0 00 . 0 00 . 0 0O.OOO.OOO.OO0 . 0 00 . 0 0O.OOO.OO0 . 0 0O.OO0 . 0 00 . 0 0O.OOO.OOO.OOO.OOO.OO
3 . O O0 . 0 66 . O O6 . 0 03 . O O
3 4 . 0 03 4 . 0 0
5 . 0 01 2 . 0 0
6 . 0 06 . 0 03 . 0 0
1 2 . 0 01 2 . 0 01 2 . O O1 2 . 0 0
O . 1 21 . 0 01 . 0 01 . 0 01 . 0 00 . 0 1
0 . 3 6 3 1 S 0 .
0 . 0 .
0 .
0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : o
2 0 1 0 .6 3 8 0 1 4
3060 .1 0 8 0 0 .
3 2 4 01 7 0 0 0 .
1 3 7 1 2 2 .1 7 5 0 .5 0 4 01 7 4 0 .
1 0 8 0 0 .750 .
6 0 0 0 .2 1 6 0 0 .
7800 .23640 .23531 .
720 .3 6 0 0 .1420 .
7 1 O .1 7 0 1 6 .
5 6 84 3 54 2 65 6 35 6 94 2 85 6 55 7 35 7 54 2 95 6 65 7 74 3 05 6 75 7 85 7 94 4 04 2 75 6 45 7 05 7 14 3 8
P A G E 2 3 8
STANDARD TIME CALCULATION
M O S T OPERATION TIME CALCULATION
T y p e o fWork
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dT i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
(
STANDARD(HRS ./CYCLE)
PIECES PER CYCLE
STANDARD HOURS
3 . 6 3 2
0.000) ()
0 . 0 0 0
3 . 6 3 2
1
0 . 0 0 0 3 . 6 3 2
( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0
0 . 0 0 0 3 . 6 3 2
3 . 6
STANDARD T I M E C A L C U L A T I O N
CALCULATION
R E V . L T R / D A T E
M 0 T O P E R A T I O N T I M E
D E T A I L / U N I T / P A R T x x- - - - - - - - - - - - - - -xSET UP STANDARD CODE
- - - - - - - - - - - - - - - - - -2 BOARD BRACKET STAGING
PROCESS/OPER CODE
PART
S H I P
COST
NAME
CLASS
CLASS/JOB
HULL
TRADE
xx- - - - - - - - - - - - - - - - - -1 3 1- - - - - - - - - - - - - - - - - -x
CARPENTER
x- - - - - - - - - - - - - - - - - -
CORK
WORK
WORK
AREA
ZONE
CENTER
G R O U P ( U N I T / Z O N E )
SUB-GROUP
SUB-SUE-GROUP
CREW/MACHINE
xx- - - - - - - - - - - - - - - - - -x x
3 CARPENTERS ASSET/MACHINE
S U B - I T E M
WORK ORDER
SHEET
APPLICATOR
x
DRAWING
DRAWING
PACKAGE
1 3 1 - 3- - - - - - - - - - - - - - - - - -1 3 1
1 3 1 - 3 - 1I T E M
G E N .
DET .
WORK
x
1x- - - - - - - - - - - - - - - - - -
PA- - - - - - - - - - - - - - - - - -
x- - - - - - - - - - - - - - - - - -
O P E R . D E S C R I P T I O N SET UP BRACKET STAGING ON SMOOTH BULKHEAD WING- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T A N K P E R 1 0 0 L I N E A R F E E T
0 8 - J U N - 8 3 I S S U E # 1- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
DATE
F r e e- - - -3
S t e p M e t h o d I n s t r u c t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 S E T - U P ( S T A G I N G C L I P ) O N B U L K H E A D w I T H H A M M E R ( (A N D S T E E L - T A P E )
376 )
* REPRESENTS PUTTING UP A STAGING CLIP ON* THE RULKHEAD* WELDING OF THE CLIP WILL BE DONE IN A...* SEPARATE SUB OPERATION
W E L D S T A G I N G B R A C K E T ( C L I P ) O N B U L K H E A D ( O R A N Y ( 4 3 5 )STRUCTURE) WITH
. 0 6
STANDARD TIME CALCULATION
3 M A K E R E A D Y S T A G I N G B R A C K E T F O R ( T R A N S P O R T I N G ) W I ( 4 2 6 )TH HAND
* REPRESENTS GETTING BRACKET READY TO BE. .* ...TRANSPORTED TO TANK OR BULKHEAD* C A R P E N T E R I S L O C A T E D E I T H E R O N T H E W A Y . .* ...OR IN TANK AT THE MATERIAL (BIN-1)
4 T R A N S P O R T S T A G I N G B R A C K E T W I T H ( T O U E R C R A N E ) ( 563)* REPRESENTS TRANSPORTING BRACKETS FROM.. .* ...BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* . , . F R O M B I N - 1 T O B U L K H E A D A R E A V E R A G E . . .* ...DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6
5 M A K E R E A D Y S T A G I N G B R A C K E T F O R ( T R A N S P O R T I N G ) W ( 3 7 7 )ITH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* . . . T R A N S P O R T E D T O T A N K O R B U L K H E A D* C A R P E N T E R I S L O C A T E D E I T H E R O N T H E W A Y . .* ...OR IN TANK AT THE HATERIAL (BIN-1)
6 M A K E R E A D Y S T A G I N G P L A N K F O R ( T R A N S P O R T I N G ) W I T ( 4 2 8 ) . 1 0H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
7 T R A N S P O R T S T A G I N G P L A N K W I T H ( T O U E R C R A N E ) ( 565)* REPRESENTS TRANSPORTING BOARDS FROM* . . . L U - P I L E T O B U L K H E A D* D I S T A N C E S F R O M C R A N E - R E S T T O L U - P I L E A N D* . . . F R O M L U - P I L E T O B U L K H E A D A R E A V E R A G E* . . . D I S T A N C E S F R O M T H E S I D E O F A B A S I N* . . . 1 2 0 0 ’ x 2 0 0 ’* MAXIMUMl NUMBER OF BOARDS IN LIFT = 3
8 S E T - U P S T A G I N G P L A N K O NN D
* REPRESENTS SETTING UP* . . . B R A C K E T S .* TWO MAN OPERATION:
S T A G I N G B R A C K E T W I T H H A ( 3 8 8 )
B O A R D S B E T W E E N . . . .
* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH LIFT THE BOARD...* . . T O G E T H E R A N D S L I D E I T I N T O P O S I T I O N .* IN THIS ANALYSIS CARPENTERS ARE LOCATED* . . .ON THE LEVEL BELOW THE BOARDS.
6
6
3
1 0
5
STANDARD TIME CALCULATION
9 M A K E R E A D Y S T A N C H I O N F O R ( T R A N S P O R T I N G ) W I T H H A (N D
* REPRESENTS GETTING STANCHION READY TO BE* ...TRANSPORTED.
1 0 T R A N S P O R T S T A N C H I O N W I T H ( T O U E R C R A N E ) (* REPRESENTS TRANSPORTING STANCHION FROM.. * ..RIN-2 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND..* ...FROM BIN-2 TO BULKHEAD ARE AVERAGE...* ...DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
1 1 S E T - U P S T A N C H I O N I N S T A G I N G B R A C K E T W I T H H A N D (* REPRESENTS PUTTING STANCHION IN THE...* ...BRACKET SLEEVE.
12 M A K E R E A D Y H A N D R A I L F O R ( T R A N S P O R T I N G ) W I T H H A N (D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
13 TRANSPORT HANDRAIL WI WITH (TOWER CRANE) (* REPRESENTS TRANSPORTING HANDRAIL FROM...* ...HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES FROM THE SIDE OF A BASIN* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
1 4 S E T - U P H A N D R A I L O N S T A N C H I O N W I T H H A N D (* REPRESENTS PUTTING HANDRAIL INTO THE..,** ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR...* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
1 5 S E T - U P H A N D R A I L ( E N D P I E C E S ) O N H A N D R A I L ( A N D B (ULKHEAD) WITH HAND
* REPRESENTS PUTTING HANDRAIL (END PIECES)* . . . A T T H E E N D O F A S T A G I N G L E V E L* WELDING OF THE HANDRAIL (END PIECES)...* ...CONNECTIONS WILL BE DONE IN A.....* ...SEPARATE SUB OPERATION
1 6 W E L D H A N D R A I L ( C O N N E C T I O N S ) O N S T A N C H I O N W I T H S (TICK ELECTRODE
4 2 9 )
5 6 6 )
3 9 3 )
4 3 0 )
! 5 6 7 )
3 9 6 )
3 9 7 1
4 4 0 )
6
6
3
1 4
1 4
1 4
4
. 1 4
17
1 8
1 9
2 0
2 1
STANDARD TIME CALCULATION
MAKE READY LADDER FOR (TRANSPORTING) WITH HAND (* REPRESENTS GETTING LADDER ON BOLSTERS SO* . . . T H A T T H E C R A N E C A N T R A N S P O R T I T ,
TRANSPORT LADDER WITH (TOUER CRANE) (* REPRESENTS TRANSPORTING LADDERS FROM* . . . L D R - P I L E T O B U L K H E A D* D I S T A N C E S F R O M C R A N E - R E S T T O L D R - P I L E* . . . A N D F R O M L D R - P I L E T O B U L K H E A D A R E* ...AVERAGE DISTANCE FROM SIDE OF BASIN* 1 2 0 0 ’ x 2 0 0 ’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
S E T - U P ( A C C E S S ) L A D D E R O N B U L K H E A D W I T H H A N D (* REPRESENTS PUTTING UP AN ACCESS LADDER..* ...ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER,* ALSO INCLUDES CLIMBING UP AND DOWN THE. .* . . . L A D D E R . AVERAGE NUMBER OF RUNGS = 12
P O S I T I O N ( S E C U R E ) ( A C C E S S ) L A D D E R F O R B U L K H E A D (WITH
* REPRESENTS SECURING A LADDER TO THE....* . . . B U L K H E A D U S I N G 4 L A D D E R C L I P S* WELDING OF CLIPS WILL BE DONE IN A.....* ...SEPARATE SUB OPERATION
W E L D L A D D E R ( C L I P ) ( S E C U R E S L A D D E R ) O N B U L K H E A D ((OR ANY STRUCTURE)
4 2 7 )
5 6 4 )
383 )
384 )
4 3 8 ) .01
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ THU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
123456789
1 01 11 21 31 41 51 61 71 81 92 02 1
MANUAL TIHE(TMU)
A C T U A L P R O C E S S T I M E ( T M U )
FACTORED PROCESS TIME(TMU)
T O T A L I N T E R N A L T I M E ( T M U )
0 . 0 00 . 0 00 . 0 0O.OOO.OO0 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 0O.OO0 . 0 00 . 0 0O.OO0 . 0 00 . 0 00 . 0 0O.OOO.OO0 . 0 0
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D :
3 . O O0 . 0 66 . O O6 . 0 03 . 0 0
1 0 . O O1 0 . 0 05 . O O6 . 0 06 . 0 03 . 0 0
1 4 . 0 01 4 . 0 01 4 . O O
4 O O0 . 1 41 . O O1 . O O1 . O O1 . O O0 . 0 1
0
2 0 1 O .63801 .
3 0 6 0 .10800 .
1 5 3 0 .5000 .
40330 .1 4 5 0 .1 7 4 0 .
1 0 8 0 0 .750 .
7 0 0 0 .2 5 2 0 0 ,
9 1 O O .7880.
2 7 4 5 3 .720 .
3 6 0 0 .1 4 2 0 .
7 1 O .1 7 0 1 6 .
0 . 604520 .
o . o .
0 .
0 .
3 7 64 3 54 2 65 6 33 7 74 2 85 6 53 8 84 2 95 6 63 9 34 3 05 6 73 9 63 9 74 4 04 2 75 6 43 8 33 8 44 3 8
STANDARD TIME CALCULATION
H O S T. OPERATION TIME CALCULATION
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T Y P e o f E l e m e n t a lwork. T i m e
EXTERNAL MANUAL 2 . 4 1 4
A S S I G N E D . I N T E R N A L ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 2 . 4 1 4
PIECES PER CYCLE 1
STANDARD HOURS
P e r c e n tA l l o w a n c e- - - - - - - - -
( ) (
A l l o w a n c e S t a n d a r dT i m e T i m e
- - - - - - - - - - - - - - - - - -
0 . 0 0 0 2 , 4 1 4
0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0
0 . 0 0 0 2 . 4 1 4
2 . 4
STANDARD
M O S T OPERATION TIME
D E T A I L / U N I T / P A R T
PROCESS/OPER”
PART NAME
S H I P C L A S S
CODE
C O S T C L A S S / J O B #
G R O U P ( U N I T / Z O N E )
SUB-GROUP
SUB-SUB-GROUP
CREW/MACHINE
I T E M
GEN. DRAWING.
D E T . D R A W I N G
WORK PACKAGE
O P E R . D E S C R I P T I O N
DATE
x
T I M E C A L C U L A T I O N
CALCULATION
R E V . L T R / D A T E X
SET UP STANDARD CODE X
2 BOARD BRACKET STAGING
x- - - - - - - - - - - - - - - - - -1 3 1
x
x- - - - - - - - - - - - - - - - - -x
3 CARPENTERS
1 3 1 - 3
1 3 1
x
x
HULL
TRADE
WORK AREA
WORK ZONE
WORK CENTER
ASSET/MACHINE X
S U B - I T E H
WORK ORDER
SHEET
APPLICATOR
x
CARPENTER
x
x
x
x
1 3 1 - 3 - 1
x
1- - - - - - - - - - - - - - - - - -PA
SET UP BRACKET STAGING AT FLOOR LEVEL TRANSVERSE
B U L K H E A D W I N G T A N K P E R 1 0 0 L I N E A R F E E T
0 8 - J U N - 8 3 I S S U E # 1
S t e m M e t h o d I n s t r u c t i o n F r e Q
1 S E T - U P ( S T A G I N G C L I P ) O N B U L K H E A D W I T H H A M M E R ( ( 376 ) 3A N D S T E E L - T A P E )
* REPRESENTS PUTTING UP A STAGING CLIP ON* THE BULKHEAD* WELDING OF THE CLIP WILL BE DONE IN A...* .SEPARATE SUB OPERATION
2 W E L D S T A G I N G B R A C K E T ( C L I P ) O N B U L K H E A D ( O R A N Y ( 4 3 5 )S T R U C T U R E ) W I T H
P A G E 2 4 6
. 0 6
STANDARD TIME CALCULATION
3 M A K E R E A D Y S T A G I N G B R A C K E T F O R ( T R A N S P O R T N 6 ) W I ( 4 2 6 )TH HAND
* REPRESENTS GETTING BRACKET READY TO BE..* TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* O R I N T A N K A T T H E H A T E R I A L ( B I N - 1 )
4 T R A N S P O R T S T A G I N G B R A C K E T W I T H ( T O W E R C R A N E ) ( 5 6 3 )* R E P R E S E N T S T R A N S P O R T I N G B R A C K E T S F R O M . .* BIN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* . . . F R O M B I N - 1 T O B U L K H E A D A R E A V E R A G E . . .* . . . D I S T A N C E S F R O M T H E S I D E O F A B A S I N* . . . 1 2 0 0 ’ X 2 0 0 ”* M A X I M U M N U M B E R O F B R K T S I N L I F T = 6
5 S E T - U P S T A G I N G B R A C K E T O N W E B F R A M E W I T H W R E N C H ( 5 6 9 )* REPRESENTS PUTTING UP A STAGING BRACKET* . . . O N A E X I S T I N G S T A G I N G C L I P ( L O C A T E D* . . . O N A W E B F R A M E )
6 M A K E R E A D Y S T A G I N G P L A N K F O R ( T R A N S P O R T I N G ) W I T ( 4 2 8 )H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
7 T R A N S P O R T S T A G I N G P L A N K W I T H ( T O W E R C R A N E ) ( 565 )* REPRESENTS TRANSPORTING BOARDS FROM* ...LU-FILE TO BULKHEAD* D I S T A N C E S F R O M C R A N E- R E S T T O L U - P I L E A N D* ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* . . . D I S T A N C E S F R O M T H E S I D E O F A B A S I N* . . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
8 S E T - U P S T A G I N G P L A N K O N S T A G I N G B R A C K E T W I T H H A ( 573 )N D
* REPRESENTS SPREADING BOARDS BETWEEN WEBS* 2 M A N O P E R A T I O N :* CARPENTERS ARE LOCATED AT TWO DIFFERENT* . . . W E B S . T H E Y B O T H P I C K U P T H E B O A R D* . . . T O G E T H E R A N D S L I D E I T I N T O P O S I T I O N .* IN THIS ANALYSIS CARPENTERS ARE LOCATED* O N T H E S A M E L E V E L A S T H E B O A R D S .
9 S E T - U P S T A G I N G P L A N K O N ( E X I S T I N G ) B R A C K E T S T ( 5 7 5 )AGING WITH HAND
6
3
4 0
4 0
5
1 5
* REPRESENTS SPREADING BOARDS BETWEEN
STANDARD TIME CALCULATION
* . . . E X I S T I N G S T A G I N G A N D I N B O A R D O R* ...OUTBOARD BULKHEAD* 2 M A N O P E R A T I O N :* CARPENTERS ARE LOCATED AT DIFFERENT WEBS* . . .EACH CARPENTER SPREADS TWO BOARDS* . . . S 1 M U L T A N E 0 U S L Y* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.
1 0 M A K E R E A D Y S T A N C H I O N F O R ( T R A N S P O R T I N G ) W I T H H A ( 4 2 9 )NDl
* REPRESENTS GETTING STANCHION READY TO BE* . . . T R A N S P O R T E D +
1 1 T R A N S P O R T S T A N C H I O N W I T H ( T O W E R C R A N E ) ( 566)* REPRESENTS TRANSPORTING STANCHION FROM.. .* . . . B I N - 2 T O B U L K H E A D* D I S T A N C E S F R O M C R A N E - R E S T T O B I N - 2 A N D . .* . . . F R O M B I N - 2 T O B U L K H E A D A R E A V E R A G E . . .* . . . D I S T A N C E S F R O M T H E S I D E O F A B A S I N* . . . 1 2 0 0 ’ X 2 0 0 ’* M A X I M U M N U M B E R O F S T A N C H I O N S I N L I F T = 6
1 2 S E T - U P S T A N C H I O N I N S T A G I N G B R A C K E T W I T H H A N D ( 577)* R E P R E S E N T S P U T T I N G S T A N C H I O N I N T H E* . . . B R A C K E T S L E E V E I N A W I N G T A N K
1 3 M A K E R E A D Y H A N D R A I L F O R ( T R A N S P O R T I N G ) W I T H M A N ( 4 3 0 )D
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* . . . S 0 T H A T T H E C R A N E C A N T R A N S P O R T I T
1 4 T R A N S P O R T H A N D R A I L W I T H ( T O W E R C R A N E ) ( 567)* R E P R E S E N T S T R A N S P O R T I N G H A N D R A I L F R O M . . .* . . . H R - P I L E T O B U L K H E A D* D I S T A N C E S F R O M C R A N E - R E S T T O H R - P I L E A N D* . . . F R O M H R - P I L E T O B U L K H E A D A R E A V E R A G E* . . . D I S T A N C E S F R O M T H E S I D E O F A B A S I N* ...1200’X200’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
1 5 S E T - U P H A N D R A I L I N S T A N C H I O N W I T H H A N D ( 578)* R E P R E S E N T S P U T T I N G H A N D R A I L I N T O T H E* . . . E Y E L E T S O N T H E S T A N C H I O N* INCLUDES ACTION DISTANCES NEEDED FOR* . . . A L I G N I N G T H E H A N D R A I L* W E L D I N G O F T H E H A N D R A I L W I L L B E D O N E I N* . . . A S E P A R A T E S U B O P E R A T I O N
1 6 W E L D H A N D R A I L ( C O N N E C T I O N S ) O N S T A N C H I O N W I T H S ( 4 4 0 )TICK ELECTRODE
6
6
3
1 0
1 0
1 0
● lo
STANDARD TIME CALCULATION
1 7 ( W A L K U P O R D O W N ) M O V E O P E R A T O R ( O N I N C L I N E D S T ( 4 3 1 )AIRS) ON BULKHEAD
* REPRESENTS CARPENTER WALKING UP OR DOWN* . . . A S E T O F I N C L I N E D S T A I R S . A V E R A G E* . . . N U M B E R O F T R E A D S I N A S E T O F I N C L I N E D* . . . S T A I R S = 1 6 .* CARPENTERS ARE WALKING UP OR DOWN STAIRS* A T T H E S A M E T I M E .
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r e t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a lWork T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 3 . 3 5 0
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0
STANDARD(HRS+/CYCLE) 3 . 3 5 0
PIECES PER CYCLE 1
STANDARD HOURS
P e r c e n t A l l o w a n c e S t a n d a r dA l l o w a n c e T i m e T i m e- - - - - - - - - - - - - - - - - - - - - - - - - - -
0 . 0 0 0 3 . 3 5 0
( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0
0 . 0 0 0 3 . 3 5 0
3 . 4
STANDARD TIME CALCULATION
* I N C L U D E S A C T I O N D I S T A N C E S N E E D E D F O R . . . .* . . . A L I G N I N G T H E H A N D R A I L* WELDING OF THE HANDRAIL CONNECTIONS WILL* . . . B E D O N E I N A S E P A R A T E S U B O P E R A T I O N
1 7 W E L D H A N D R A I L ( C O N N E C T I O N S ) O N S T A N C H I O N W I T H S ( 4 4 0 )TICK ELECTRODE
18 ( W A L K U P O R D O W N ) M O V E O P E R A T O R ( O N I N C L I N E D S T ( 4 3 1 )AIRS) ON BULKHEAD
* REPRESENTS CARPENTER WALKING UP OR DOWN* . . . A S E T O F I N C L I N E D S T A I R S A V E R A G E* . . . N U M B E R O F T R E A D S I N A S E T O F I N C L I N E D* . . . S T A I R S = 1 6 .* CARPENTERS ARE WALKING UP OR DOWN STAIRS* A T T H E S A M E T I M E .
. 1 0
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
T y p e o fWork
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n
E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dT i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
2 . 2 6 8 0 . 0 0 0 2 . 2 6 8
( 0.000) () ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0 0 ● 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 2 . 2 6 8 0 . 0 0 0 2 . 2 6 8
PIECES PER CYCLE 1
STANDARD HOURS 2 . 3
STANDARD TIME CALCULATION
* M A X I M U M N U M B E R O F S T A N C H I O N I N L I F T = 69 R E M O V E S T A G I N G P L A N K O N ( B O A R D P I L E ) W I T H W I N C H ( 4 1 0 )
* REPRESENT REMOVING BOARDS FROM BOARD.. .* . . . P I L E O N T A N K T O P T O D E C K ( G O E S T H R U . .* . . . M A N H O L E ) .* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
1 0 R E M O V E S T A G I N G B R A C K E T O N ( M A T E R I A L P I L E ) W I T H ( 4 0 9 )WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MATL* . . . PILE ON TANKTOP TO DECK (GOING THRU* . . . M A N H O L E ) .* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
1 1 R E M O V E L A D D E R O N ( L A D D E R - P I L E ) W I T H W I N C H ( 411)* REPRESENT REMOVING LADDERS FROM LADDER* . . . - P I L E O N T A N K T O P T O D E C K ( G O E S T H R U . .* . . . M A N H O L E ) .* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
1 2 R E M O V E T O O L B O X O N ( M A T E R I A L P I L E ) W I T H W I N C H ( 412)* REPRESENTS REMOVING TOOLBOX FROM MATL. . .* . . . - P I L E O N T A N K T O P T O D E C K ( G O E S T H R U . . .* . . . M A N H O L E ) .* TOOLBOX CONTAINS:* . . . 2 8 B O L T S* . . . 2 8 N U T S* . . . 2 8 L A D D E R C L I P S
1 0
6
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o fWork
E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dT i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL
ASSIGNED INTERNAL
PROCESS TIME
1 • 3 2 6 0 . 0 0 0 1 . 3 2 6
( 0 . 0 0 0 ) ( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 1 • 3 2 6 0 . 0 0 0 1 • 3 2 6
P I E C E S P E R C Y C L E 1
STANDARD HOURS 1 . 3
P A G E 2 4 7
STANDARD TIME CALCULATION
* . . . M A N H O L E ) . * MAXIMUM NUMBER OF BOARDS IN LIFT = 3
9 R E M O V E S T A G I N G B R A C K E T O N ( M A T E R I A L P I L E ) W I T H ( 409 )WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MATL* . . . PILE ON TANKTOP TO DECK (GOING THRU* . . . M A N H O L E ) .* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
1 0 R E M O V E T O O L B O X O N ( M A T E R I A L P I L E ) W I T H W I N C H ( 4 1 2 )* REPRESENTS REMOVING TOOLBOX FROM MATL. . .* . . . - P I L E O N T A N K T O P T O D E C K ( G O E S T H R U . . .* . . . M A N H O L E ) .* TOOLBOX CONTAINS:* ...28 BOLTS* . . . 2 8 N U T S* . . . 2 8 L A D D E R C L I P S
6
1
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
12
3456789
1 0
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TWJ)
FACTORED PROCESS TIME(THU)
T O T A L I N T E R N A L T I M E ( T M U )
0 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 0
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D :
1 0 . 0 03 . 0 0
4 0 . 0 06 . 0 01 . 0 0
1 0 . 0 06 . O O
4 0 . 0 06 . 0 01 . 0 0
0
16380 .4 7 6 4 .
7 7 7 2 0 .1 6 7 8 2 .
3 2 0 .9 1 8 0 .5 9 2 8 .
7 9 3 2 0 .1 0 6 6 2 .
7 2 1 0 .
- - - - - - - - - - - - - - - - - -O . 1 7 6 6 8 2 7 .
0 . 0 .
0 .
0 .
3 9 94 0 14 0 24 0 64 3 14 0 74 0 84 1 04 0 94 1 2
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
T y p e o fW o r k
- - - - - - - - - - - - - - - - -
EXTERNAL MANUAL
A S S I G N E D I N T E R N A L
PROCESS TIME
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dT i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
2 . 2 8 3 0 . 0 0 0 2 . 2 8 3
( 0.000) () ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 2 . 2 8 3 0 . 0 0 0 2 . 2 8 3
P I E C E S P E R C Y C L E 1
STANDARD HOURS 2 . 3
STANDARD
M O S T O P E R A T I O N T I M E
D E T A I L / U N I T / P A R T
PROCESS/OPER CODE
PART NAME
SHIP CLASS
COST CLASS/JOB #
G R O U P ( U N I T / Z O N E )
SUB-GROUP
SUB-SUB-GROUP
CREW/MACHINE
I T E M
GEN.
DET .
WORK
DRAWING
DRAWING
PACKAGE
x
TIME CALCULATION
CALCULATION
R E V . L T R / D A T E- - - - - - - - - - - - - - - - - -
REMOVE STANDARD CODE- - - - - - - - - - - - - - - - - -2 BOARD BRACKET STAGING
x- - - - - - - - - - - - - - -x- - - - - - - - - - - - - - -
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
x- - - - - - - - - - - - - - - - - -1 3 1- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x
6 CARPENTERS
1 3 1 - 3- - - - - - - - - - - - - - - - - -1 3 1
x - - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -
HULL
TRADE
WORK AREA
WORK ZONE
WORK CENTER
A S S E T / M A C H I N E
S U B - I T E M
WORK ORDER
SHEET
APPLICATOR
x- - - - - - - - - - - - - - - - - -CARPENTER- - - - - - - - - - - - - - - - - -
x
x
x
x- - - - - - - - - - - - - - - - - -1 3 1 - 3 - 3- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -1- - - - - - - - - - - - - - - - - -PP- - - - - - - - - - - - - - - - - -
OPER. DESCRIPTION TEAR DOWN AND REMOVE BRACKET STAGING BELOW FLOOR- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T R A N S V E R S E B U L K H E A D W I N G T A N K P E R 1 0 0 L I N F T
DATE
S t e p- - - -
1
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -0 8 - J U N - 8 3 I S S U E #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
M e t h o d I n s t r u c t i o n F r e q
TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH (AND ( 3 9 9 ) 1 0WINCH)
* R E P R E S E N T S T E A R I N G D O W N H A N D R A I L I N A . . .* . . . W I N G T A N K . H A N D R A I L I S L O W E R E D T O T H E* . . . M A T L - P I L E W I T H A W I N C H B E C A U S E T H E . . .* . . . T A N K I S T O S M A L L F O R T H E H A N D R A I L T O* . . . B E T H R O W N .* C A R P E N T E R S R E M O V E 2 H A N D R A I L B E F O R E . . . . .
STANDARD TIME CALCULATION
* . . . M A N H O L E ) .* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
9 R E M O V E S T A G I N G B R A C K E T O N ( M A T E R I A L P I L E ) W I T H ( 409 )WINCH
* REPRESENTS REMOVAL OF BRACKET FROM MAIL* ...PILE ON TANKTOP TO DECK (GOING THRU* . . . M A N H O L E ) O* MAXIMUM NUMBER OF BRACKET IN LIFT = 3
1 0 R E M O V E T O O L B O X O N ( M A T E R I A L P I L E ) W I T H W I N C H ( 412)* REPRESENTS REMOVING TOOLBOX FROM MAIL. . .* . . . - P I L E O N T A N K T O P T O D E C K ( G O E S T H R U . . .* . . . M A N H O L E ) .* TOOLBOX CONTAINS:* . . . 2 8 B O L T S* . . . 2 8 N U T S* . . . 2 8 L A D D E R C L I P S
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TlME TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
0 . 0 01 0 . 0 03 0 . 0 04 0 . 0 05 0 . 0 06 0 . 0 07 0 . 0 08 0 . 0 09 0 . 0 0
1 0 0 . 0 0
M A N U A L T I M E ( T M U )
A C T U A L P R O C E S S T I M E ( T M U )
FACTORED PROCESS TIME(THU)
T O T A L I N T E R N A L T I M E ( T M U )
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D :
1 0 . 0 03 * O O
2 0 . 0 06 . 0 01 . 0 0
1 0 . 0 06 . 0 0
2 0 . 0 06 . 0 01 . 0 0
1 6 3 8 0 .4 7 6 4 .
3 0 8 6 0 .1 6 7 8 2 .
3 2 0 .9 1 8 0 .5 9 2 0 .
3 9 6 6 0 .1 0 6 6 2 .
7 2 1 0 .
- - - - - - - - - - - - - - - - - -
0 . 1 9 1 6 5 7 3 .
0 . 0 .
0 .
o .
o
3 9 94 0 14 0 24 0 64 3 14 0 74 0 84 1 04 0 94 1 2
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a lw o r k T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 1 . 4 9 7
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 1 . 4 9 7
PIECES PER CYCLE 1
STANDARD HOURS
P e r c e n t A l l o w a n c e S t a n d a r d A l l o w a n c e T i m e T i m e- - - - - - - - - - - - - - - - - - - - - - - - - - -
0 . 000 1 . 4 9 7
( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0
0 . 0 0 0 1 . 4 9 7
1 . 5
PAGE 277
STANDARD TIME CALCULATION
4 . 2 H O W T O C A L C U L A T E T I M E S T A N D A R D S
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
x R E V . L T R / D A T ED E T A I L / U N I T / P A R T x- - - - - - - - - - - - - - - - - -SET UP STANDARD CODE- - - - - - - - - - - - - - - - - -TANK STAGING PLATFORM
- - - - - - - - - - - - - - -x- - - - - - - - - - - - - - -
PROCESS/OPER CODE
PART NAME- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -131- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -2 CARPENTERS
HULL x- - - - - - - - - - - - - - - - - -
S H I P C L A S S
TRADE CARPENTERC O S T C L A S S / J O B #- - - - - - - - - - - - - - - - - -
WORK AREA x G R O U P ( U N I T / Z O N E )- - - - - - - - - - - - - - - - - -
x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -
WORK ZONESUE-GROUP
SUB-SUB-GROUP
CREW/MACHINE
I T E M
GEN. DRAWING
D E T . D R A W I N G
WORK PACKAGE
WORK CENTER
A S S E T / M A C H I N E
1 3 1 - 3 S U B - I T E M
W ORK O R D E R
1 3 1 - 3 - 3- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -1 - - - - - - - - - - - - - - - - - -
131
x- - - - - - - - - - - - - - - - - -
SHEET
PPx APPLICATOR- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
ASSEMBLE TANK STAGING PLATFORM, PLACE ON SHIP,- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
S E C U R E T O M A I N D E C K P E R 1 0 0 S Q U A R E F E E T- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -1 8 - M A Y - 8 3 I S S U E # 1
O P E R . D E S C R I P T I O N
DATE- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
S t e p M e t h o d I n s t r u c t i o n F r e q
1 ( B R U S H ) C L E A N (PLATEN) FOR TANK STAGING PLATFOR( 538 ) . 1 4M WITH BROOM
* REPRESENTS CLEANING THE TABLE BEFORE THE* . . . T A N K S T A G I N G P L A T F O R M I S A S S E M B L E D .* SQUARE FOOTAGE OF AREA CLEANED = 700
2 R E A D M A T E R I A L L I S T ( P R I N T ) F O R T A N K S T A G I N G P L A ( 539 ) . 1 4
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMU T M U #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
123456789
1 01 11 21 31 4
MANUAL TIME(TMU)
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
T O T A L I N T E R N A L T I M E ( T M U )
0 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 00 . 0 0
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D :
0 . 1 40 . 1 40 . 1 40 . 1 40 . 1 40 . 1 40 . 1 40 . 1 40 . 1 40 . 1 4 0 . 1 40 . 1 40 . 1 40 . 1 4
5 9 6 1 .4 3 7 .
2 1 6 4 .1 1 9 0 .1 0 9 2 .6 1 0 4 .6552 .7 5 1 1 .
1 0 3 6 4 .3 6 4 0 .5 0 4 3 .1 7 6 4 .9 7 5 8 .8 0 7 1 .
- - - - - - - - - - - - - - - - - -
0 . 6 9 6 5 2 .
0 . 0.
0 .
0 .
0
5 3 85 3 95 4 05 4 15 4 25 4 35 4 45 4 55 4 65 4 75 4 85 4 95 5 75 5 5
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dWork T i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 0 . 6 9 7 0 . 0 0 0 0 . 6 9 7
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 ) ( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0 0 . 0 0 0 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 0 . 6 9 7 0 . 0 0 0 0 . 6 9 7
PIECES PER CYCLE 1
STANDARD HOURS 0 . 7
P A G E 2 8 3
STANDARD TIME CALCULATION
* REPRESENTS REMOVAL OF ANGLES ON A TANK* . . . S T A G I N G P L A T F O R M ( I N A C E N T E R T A N K )* T O T A L A N G L E S = 6 ( 1 L I F T )* 1 CARPENTER MOVES ANGLES TO ONE AREA ON* . . . T H E T A N K S T A G I N G P L A T F O R M* . . . L O C A T E D N E A R A M A N H O L E , A W I N C H* . . .OPERATOR AND A CARPENTER REMOVE THE* . . . A N G L E S F R O M T H E T A N K . T H E R E A R E 2* ...CARPENTERS WHO RECEIVE AND STACK THE* . . . A N G L E S ( I N T H E D E C K . T H E I R T I M E I S* ...INTERNAL TO THE WINCH PROCESS TIME.
6 T E A R D O W N I - B E A M S F O R T A N K S T A G I N G P L A T F O R M WI T( 554 )H WINCH
* REPRESENTS REMOVAL OF I -BEAMS FROM THE* . . . T A N K S T A G I N G P L A T F O R M* T O T A L I - B E A M S = 7 ( 7 L I F T S )* A CARPENTER AND WINCH OPERATOR REMOVE* . . . T H E I - B E A M S F R O M T H E T A N K . T H E R E A R E* . . . 2 C A R P E N T E R S W H O R E C E I V E* . . . T H E I - B E A M S O N T H E D E C K .* . . . I S I N T E R N A L T O T H E W I N C H
AND STACKT H E I R T I M EPROCESS TIME
. 1 4
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 0 . 0 0 0 . 1 4 8 5 7 1 . 5 5 62 0 . 0 0 0 . 1 4 3 0 1 1 1 . 5 5 23 0 . 0 0 0 . 1 4 7 9 6 0 . 5 5 04 0 . 0 0 0 . 0 0 5 3 9 4 . 5 5 15 0 . 0 0 0 . 1 4 1 2 9 4 . 5 5 36 0 . 0 0 0 . 1 4 4 9 7 6 . 5 5 4
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _
MANUAL TIME(TMU) 0 . 1 2 7 9 5 7 .
ACTUAL PROCESS TIME(TMU)
FACTORED PROCESS TIME(TMU)
T O T A L I N T E R N A L T I M E ( T M U )
o . o .
o .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : o
S T A N D A R D T I M E C A L C U L A T I O N
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n
T y p e o f E l e m e n t a lw o r k T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 0 . 5 8 3
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 0 . 5 8 3
P e r c e n t A l l o w a n c eA l l o w a n c e T i m e- - - - - - - - - - - - - - - - - -
0 . 0 0 0
( ) ( 0 . 0 0 0 ) (
0 , 0 0 0
P I E C E S P E R C Y C L E 1
STANDARD HOURS
0 . 0 0 0
S t a n d a r dT i m e
0 . 5 8 3
0 . 0 0 0 )
0 . 0 0 0
0 . 5 8 3
O . 6
STANDARD TIME CALCULATION
TUDINAL ) BULKHEAD
* REPRESENTS REMOVAL OF HANDRAIL FROM TOP* . . . L E V E L O F B U L K H E A D S T A G I N G I N A C E N T E R* ...TANK. THIS IS DONE AFTER BOARDS HAVE* . . . B E E N S P R E A D T O T A N K S T A G I N G P L A T F O R M* CARPENTER WORKS ALONE* H O O K U P , I G N I T E A N D E X T I N G U I S H T O R C H A R E* . . . I N A S E P A R A T E S U B - O P
3 H O O K - U P A N D U N H O O K T O R C H O N M A N I F O L D W I T H W R E E N C ( 9 )H
* TORCH AND HOSE LOCATED AT MANIFOLD* UNHOOK IS THE REVERSE OF HOOKUP
4 I G N I T E A N D E X T I N G U I S H T O R C H F O R B U R N I N G W I T H H A ( 1 0 )ND
* HOOK-UP NOT INCLUDED
6
6
PAGE 290
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ THU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 0 . 0 0 1 0 0 . 0 0 6 7 3 0 0 0 . 5 5 92 0 . 0 0 6 . 0 0 5 7 3 6 0 . 5 6 03 0 . 0 0 6 . 0 0 1 6 8 0 . 94 0 . 0 0 6 . 0 0 3960. 10
- - - - - - - - - - - - - - - - - -
t4ANUAL TIME(TMU) 0 . 8 6 3 9 5 7 .
ACTUAL PROCESS TIME(TMU) 0 . 0 .
FACTORED PROCESS TIME(TMU) 0 .
T O T A L I N T E R N A L T I M E ( T M U ) 0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : o
S T A N D A R D T I M E C A L C U L A T I O N
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
e n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o fWork
- - - - - - - - - - - - - - - - -
EXTERNAL MANUAL
A S S I G N E D I N T E R N A L
PROCESS TIME
E l e m e n t a lT i m e
- - - - - - - - -
7 . 3 6 0
( 0 . 0 0 0 )
0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 7 . 3 6 0
P I E C E S P E R C Y C L E 1
STANDARD HOURS
P e r c e n t A l l o w a n c e S t a n d a r d A l l o w a n c e T i m e T i m e- - - - - - - - - - - - - - - - - - - - - - - - - - -
0 . 0 0 0 7 . 3 6 0
( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
0 . 0 0 0 0 . 0 0 0
0 . 0 0 0 7 . 3 6 0
7 . 4
STANDARD TIME CALCULATION
H O S T O P E R A T I O N T I M E C A L C U L A T I O N
D E T A I L / U N I T / P A R T
PROCESS/OPER CODE
PART NAME
S H I P C L A S S
COST CLASS/JOB #
G R O U P ( U N I T / Z O N E )
SUB-GROUP
SUB-SUB-GROUP
CREW/MACHINE
I T E M
GEN. DRAWING
DET. DRAWING
WORK PACKAGE
O P E R . D E S C R I P T I O N
DATE
x R E V . L T R / D A T E X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -SET UP STANDARD CODE X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -STAGING BRACKETS AND BOARDS- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -1 3 1- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -
2 CARPENTERS- - - - - - - - - - - - - - - - - -1 3 1 - 3
1 3 1- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - - - -x
HULL
TRADE
WORK AREA
WORK ZONE
WORK CENTER
A S S E T / M A C H I N E
S U B - I T E M
WORK ORDER
SHEET 1
APPLICATOR
x- - - - - - - - - - - - - - - - - -CARPENTER- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -1 3 1 - 3 - 3- - - - - - - - - - - - - - - - - -x- - - - - - - - - - - - - - - - - -1- - - - - - - - - - - - - - - - - -PP- - - - - - - - - - - - - - - - - -
CONNECT TWO TANK STAGING PLATFORMS: USING STAGING- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
BRACKETS AND BOARDS PER 100 LINEAR FEET- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -2 5 - M A Y - 8 3 ISSUE # 1- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
S t e p M e t h o d I n s t r u c t i o n F r e q- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 S E T - U P S T A G I N G B R A C K E T S F O R ( B E T W E E N ) T A N K S T A G ( 5 6 1 ) 5ING PLATFORM WITH
* REPRESENTS SETTING UP BRACKETS ON 2 TANK* . . . S T A G I N G P L A T F O R M S . B O A R D S A R E S P R E A D* . . . B E T W E E N T H E B R A C K E T S .* THIS ASSEMBLY IS USED TO CONNECT THE TWO* ...TANK STAGING PLATFORMS.* 2 CARPENTERS WORKING SIMULTANEOUSLY EACH
STANDARD TIME CALCULATION
2
* . . . W O R K I N G O N A D I F F E R E N T P L A T F O R M .* S T E P S :* 1 - 6 R E P R E S E N T S S E T T I N G U P B R A C K E T S A T* . . . B R - 1 , B R - 2 , A N D B R - 3* 7 REPRESENTS SPREADING BOARDS BETWEEN* . . . B R - I A N D B R - 2 ; B R - 2 A N D B R - 3
S E T - U P S T A G I N G P L A N K S F O R ( B E T W E E N ) T A N K S T A G I N ( 5 6 2 ) 1 0 0G PLATFORMS WITH
* REPRESENTS SPREADING BOARDS BETWEEN TWO* . . . T A N K S T A G I N G P L A T F O R M S* 2 CARPENTERS ARE NOT WORKING* ...SIMULTANEOUSLY
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 0 . 0 0 5 . 0 0 3 2 7 0 0 , 5 6 12 0 . 0 0 1 0 0 . 0 0 6 8 3 0 0 0 . 5 6 2
- - - - - - - - - - - - - - - - - -
MANUAL TIME(TMU) 0 . 1 5 7 9 6 5 7 .
ACTUAL PROCESS TIME(TMU) 0 . 0 .
FACTORED PROCESS TIME(TMU) 0 .
T O T A L I N T E R N A L T I M E ( T M U ) 0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : o
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dWork T i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 7 . 1 5 7 0 . 0 0 0 7 . 1 5 7
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 ) ( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0 0 . 0 0 0 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 7 . 1 5 7 0 . 0 0 0 7 . 1 5 7
PIECES PER CYCLE 1
STANDARD HOURS 7 . 2
STANDARD TIME CALCULATION
* . . . E N D O F T H E B O A R D , T H E N P I C K U P T H E* . . . B O A R D A N D P L A C E I T O N A P I L E O N T H E* ...TANK STAGING PLATFORM.
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TIME TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 0 . 0 0 1 0 0 . 0 0 1 5 3 0 0 0 . 5 8 2
- - - - - - - - - - - - - - - - - -
MANUAL TIME(TMU) 0 , 1 7 3 2 6 5 7 .
ACTUAL PROCESS TIME(TMU) 0 . 0 .
FACTORED PROCESS TIME(TWU) 0 .
T O T A L I N T E R N A L T I M E ( T M U ) 0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : 0
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a lw o r k T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 1 . 5 3 0
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 1 . 5 3 0
P I E C E S P E R C Y C L E 1
STANDARD HOURS
P e r c e n t A l l o w a n c eA l l o w a n c e T i m e
0 . 0 0 0
( ) ( 0 . 0 0 0 ) (
0 . 0 0 0
0 . 0 0 0
1 . 5 3 0
0 . 0 0 0 )
0 . 0 0 0
1 . 5 3 0
1 . 5
STANDARD
M O S T O P E R A T I O N T I M E
STEP
T I M E C A L C U L A T I O N
CALCULATION
I N T E R N A L E X T E R N A L LOCSA FREQ TMU TMU #
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -O*OO 5 . 0 0 2 8 2 0 0 . 5 8 4
1 0 . 0 0 1 0 0 . 0 0 1 8 5 0 0 0 . 5 8 3
- - - - - - - - - - - - - - - - - -MANUAL TIME(TMU) 0 . 1 9 4 5 8 5 7 .
ACTUAL PROCESS TIME(TMU) 0 . 0 .
FACTORED PROCESS TIME(TMU) 0 .
T O T A L I N T E R N A L T I M E ( T M U ) 0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : 0
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
T y p e o fW o r k
- - - - - - - - - - - - - - - - -
EXTERNAL MANUAL
A S S I G N E D I N T E R N A L
PROCESS TIME
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
E l e m e n t a l P e r c e n tT i m e A l l o w a n c e
- - - - - - - - - - - - - - - - - -
2 . 1 3 2
( 0 . 0 0 0 ) ( ) (
0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 2 . 1 3 2
P I E C E S P E R C Y C L E 1
STANDARD HOURS
A l l o w a n c eT i m e
- - - - - - - - -
O.OOO
0 . 0 0 0 ) (
0 . 0 0 0
0 . 0 0 0
S t a n d a r dT i m e
- - - - - - - - -
2 . 1 3 2
0 . 0 0 0 )
0 . 0 0 0
2 . 1 3 2
2 . 1
STANDARD TIME CALCULATION
H O S T O P E R A T I O N T I M E C A L C U L A T I O N
I N T E R N A L E X T E R N A L LOCSTEP SA FREQ TMU TMU #- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 0 . 0 0 1 4 . 0 0 2 1 8 4 0 . 5 2 42 0 . 0 0 8 . 0 0 4 2 4 0 . 5 2 53 0 . 0 0 1 . 8 0 8 1 9 0 . 5 2 74 0 . 0 0 1 . 8 0 2 3 0 4 . 5 2 15 0 . 0 0 2 1 . 0 0 9 2 4 0 . 5 2 66 0 . 0 0 8 . 0 0 7 2 0 0 . 5 2 87 0 . 0 0 8 . 0 0 1 1 3 6 0 . 5 3 08 0 . 0 0 1 . 0 0 9 9 0 0 . 5 2 99 0 . 0 0 1 . 0 0 6 1 1 5 0 . 5 8 1
MANUAL TIME(TMU)- - - - - - - - - - - - - - - - - -
0 . 4 2 0 9 6 4 .
ACTUAL PROCESS TIME(TMU) 0 . 0 .
FACTORED PROCESS TIME(TMU) 0 .
T O T A L I N T E R N A L T I M E ( T M U ) 0 .
T I T L E S H E E T U S E D I N S E T T I N G S T A N D A R D : o
STANDARD TIME CALCULATION
M O S T O P E R A T I O N T I M E C A L C U L A T I O N
E n g i n e e r e d O p e r a t i o n T i m e C a l c u l a t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
T y p e o f E l e m e n t a l P e r c e n t A l l o w a n c e S t a n d a r dW o r k T i m e A l l o w a n c e T i m e T i m e
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
EXTERNAL MANUAL 1 . 3 5 4 0 . 0 0 0 1 . 3 5 4
A S S I G N E D I N T E R N A L ( 0 . 0 0 0 ) ( ) ( 0 . 0 0 0 ) ( 0 . 0 0 0 )
PROCESS TIME 0 . 0 0 0 0 . 0 0 0 0 . 0 0 0
S T A N D A R D ( H R S . / C Y C L E ) 1 . 3 5 4 0 . 0 0 0 1 . 3 5 4
P I E C E S P E R C Y C L E 1
STANDARD HOURS 1 . 4
STANDARD TIME CALCULATION
* REPRESENTS TRANSPORTING END PIECES FROM* . . .END-PC-RACK TO MATL-PILE.* DISTANCES FROM CRANE REST TO END-PC-RACK* * AND FROM END-PC-RACK TO HATL-PILE ARE* . . . AVERAGE DISTANCES ON A WAY 740'X120’* MAXIMUM NUMBER END-PCS IN LIFT = 3* . . .THERE ARE 2 LIFTS DONE PER SECTION OF* . . . PIPE STAGING (16'LONG).
3 SET-UP PIPE STAGING (END PCS AND BRACES) FOR SI(DE SHELL WITH HAND
* REPRESENTS SETTING UP 1ST LEVEL OF A 16'* . . . LONG SECTION OF PIPE STAGING. SECTION* *. . . INCLUDES 3 END PIECES AND 8 BRACES* WHICH ARE HELD IN PLACE BY A LOCKING* . . .PIN.* CARP-1 AND CARP-2 ARE WORKING* . . .SIMULTANEOUSLY IN PUTTING UP THE END* . . . PIECES AND BRACES.
4 SET-UP PIPE STAGING (END PCS AND BRACES) FOR SI(DE SHELL WITH WRENCH
* REPRESENTS SETTING UP 2ND LEVEL OF A 16'* . . . LONG SECTION OF PIPE STAGING. SECTION* . . . INCLUIIES 3 END PIECES AND 8 BRACES* . . . WHICH ARE HELD IN PLACE BY A LOCKING* . . . PIN, END PIECES ARE BOLTED TO 1ST* . . . LEVEL END PIECES.* CARP-1 AND CARP-2 ARE WORKING* . . . SIMULTANEOUSLY IN PUTTING UP THE END* . . . PIECES AND BRACES.
5 MAKE READY STAGING PLANK FOR (TRANSPORTING) WIT(H HAND
* REPRESENTS GETTING BOARD ON BOLSTERS SO* . . . THAT THE CRANE CAN TRANSPORT IT
6 TRANSPORT STAGING PLANK FOR PIPE STAGING (AT SI(DE SHELL) WITH
* REPRESENTS TRANSPORTING BOARDS FROM* BD PILE TO SIDE SHELL
4 8 8 )
4 8 9 )
4 5 5 )
4 5 6 )
3
3
24
12
STANDARD TIME CALCULATION
ING) FOR
* REPRESENTS CARPENTER CLIMBING UP AND* . . . DOWN END PIECE OF PIPE STAGING.* AVERAGE NUMBER OF STEPS NEEDED = 6.
8 SET UP STAGING PLANK ON PIPE STAGING (AT SIDE S( 4 5 7 )HELL) WITH HAND
1 2
* REPRESENT’S CARPENTERS SPREADING BOARDS* . . . ON PIPE STAGING SECTION (16'LONG).* . . . CARPENTERS HAVE TO CLIMB UP AND DOWN* . . . THE PIPE STAGING TO SPREAD THE BOARDS* . . . (SEE SEPARATE ANAYLSIS FOR CLIMBING)
9 MAKE READY STANCHION FOR (TRANSPORTING) WITH HA( 458 )ND
* REPRESENTS GETTING STANCHION READY TO BE* . . . TRANSPORTED.
10 TRANSPORT STANCHION FOR PIPE STAGING (AT SIDE S( 4 5 9 ) 6HELL) WITH
* REPRESENTS TRANSPORTING STANCHION FROM* . . . BIN-2 TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO BIN-2 AND. .* . . . FROM BIN-2 TO SIDE SHELL ARE AVERAGE* . . . DISTANCES FROM A WAY 740'X120'* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
11 SET UP STANCHION ON PIPE STAGING (AT SIDE SHELL( 460 )) WITH WRENCH
* REPRESENTS SETTING UP STANCHIONS ON PIPE* . . . STAGING* . . . CARPENTERS INSTALL SIMULTANEOUSLY.* . . . CARPENTERS ARE STILL ON PIPE STAGING
12 TRANSPORT HANDRAIL FOR PIPE STAGING (AT SIDE SH(ELL) WITH
* REPRESENTS TRANSPORTING HANDRAIL FROM* . . . HR-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO HR-PILE AND* . . . FROM HR-PILE TO SIDE SHELL ARE* . . . AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
13 SET UP HANDRAIL ON PIPE STAGING (AT SIDE SHELL)(WITH HAND
4 6 1 )
4 6 2 )
* REPRESENTS CARPENTERS INSTALLING
PAGE 317
STANDARD TIME CALCULATION
( 464) 12
* . . . HANDRAIL THRU EYELETS IN STANCHIONS.* . . . CARPENTERS DON’T WORK SIMULTANEOUSLY.* WELDING DONE IN A SEPARATE SUB-OP.
14 TRANSPORT STAGING PLANK FOR ( 4 6 3 ) 12* REPRESENTS TRANSPORTING BOARDS FROM* . . . BD-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO RD-PILE AND* . . . FROM BD-PILE TO SIDE SHELL ARE* . . . AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF BOARDS IN LIFT = 4
15 SET UP STAGING PLANK FOR* REPRESENTS CARPENTERS SPREADING BOARDS* . . . BETWEEN PIPE STAGING SECTIONS.* . . . THERE IS A 16' GAP BETWEEN SECTIONS.* . . . CARPENTERS HAVE TO CLIMB UP AND DOWN*. . . THE PIPE STAGING TO SPREAD THE BOARDS*. . . (SEE SEPARATE ANAYLSIS FOR CLIMBING)
16 TRANSPORT HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE ( 4 6 5 ) 6STAGING SECTIONS)
* REPRESENTS TRANSPORTING HANDRAIL FROM* . . . H R - P I L E T O S I D E S H E L L .* DISTANCES FROM CRANE-REST TO HR-FILE AND* . . .FROM HR-PILE TO SIDE SHELL ARE* . . .AVERAGE DISTANCES FROMl WAY 740’Xi20’* MAXIMUM NUMBER OF HANDRAIL IN L IFT = 6
17 SET UP HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STA( 4 6 6 ) 3GING SECTIONS)
* REPRESENTS CARPENTERS INSTALLING* . . .HANDRAIL ON EXISTING HANDRAIL* . . .*CARPENTERS DON’T WORK SIMULTANEOUSLY.* . . .WELDING DONE IN A SEPARATE SUB-OP.
18 WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH S( 4 4 6 ) . 1 2TICK ELECTRODE
PAGE 3 / 8
STANDARD TIME CALCULATION
M O S T OPERATION TIME CALCULATION
D E T A I L / U N I T / P A R T X REV. LTR/DATE X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
PROCESS/OPER CODE REMOVAL STANDARD CODE X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
PART NAME 96’ SECTION OF TWO LEVEL PIPE STAGING- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SHIP CLASS x H U L L x- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
COST CLASS/JOB # 131 TRADE CARPENTER- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
G R O U P ( U N I T / Z O N E ) X WORK AREA x- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SUB-GROUP x WORK ZONE x- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SUB-SUB-GROUP x WORK CENTER X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
CREW/MACHINE 3 CARPENTERS ASSET/MACHINE X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
ITEM 1 3 1 - 2 SUB-ITEM 1 3 1 - 2 - 3- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
GEN. DRAWING 131 WORK ORDER X- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
DET, DRAWING x SHEET 1- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
WORK PACKAGE x A P P L I C A T O R P P- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
OPER. DESCRIPTION TEAR DOWN PIPE STAGING EXT SIDE SHELL (3-16’ PIPE- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
STAGING +3-16’ BOARD SPANS OF P.IPE SECTIONS)- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -16 -JUN-83 ISSIUE # 2- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
DATE
S t e p M e t h o d I n s t r u c t i o n- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
1 TEAR DOWN HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE ( 469 )STAGING SECTIONS)
FreQ- - - -3
* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* . . .STAGING (BTWN 2 SECTIONS). A TORCH IS* ...USED TO BURN THE HANDRAIL OFF. THE* . ..HANDRAIL IS THROWN TO THE MATERIAL* ...PILE. CARPENTERS REMOVE 2 HANDRAIL* ...PIECES BEFORE MOVING TO NEXT SECTION.
P A G E 3 2 /
DATA SYNTHESIS AND BACK-UP
378. TRANSPORT STAGING BRACKET WITH (GROVE CRANE) AT TANK (OR WAY) CARPENPER STAGING BRACKET OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING BRACKETS FROM...* . . .B IN-1 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* . . .FROM BIN-1 TO BULKHEAD ARE AVERAGE...* . . .DISTANCES IN A CENTER TANK *98’X50’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6
C-OPER BEGINS AT CR-1
TOTAL TMU
381, TRANSPORT LADDERS WITH (GROVE CRANE) AT TANK CARPENTERPER LADDER OFG: 3 03-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING LADDERS FROM...* . . .LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE.. .* . . .AND FROM LDR-PILE TO BULKHEAD ARE. . .* . . .AVERAGE DISTANCES IN A CENTER TANK...* . . . 9 8 ’ X 5 0 ’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
C-OPER BEGINS AT CR-1
TOTAL TMU 2 4 0 0 .
384, POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDECLIPS) AT TANK CARPENTER
PER LADDER OFG: 3 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS SECURING A LADDER TO THE.. .* ...BULKHEAD USING 4 LADDER CLIPS
* W E L D I N G O F C L I P S W I L L B E D O N E I N A . . . .* . . .SEPARATE SUB OPERATION
CARP-1 BEGINS AT LDR
TOTAL THU 71O.
DATA SYNTHESIS AND BACK-UP
390. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER STAGING PLANK OFG: 4 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN...* . . .BRACKETS.* ONE MAN OPERATION:* USUALLY OCCURS WHEN CRANE CANNOT PLACE..* ...BOARD ON BRACKETS.
CARP-1 BEGINS AT BRKT-1
TOTAL TMU 6 7 0 .
391. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER STANCHION OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING STANCHION READY TO BE* ....TRANSPORTED.
CARP-3 BEGINS AT LU-PILE
TOTAL TMU 5 5 0 .
393, SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82
REPRESENTS ELAPSED THE* REPRESENTS PUTTING STANCHION IN THE... .* . . .BRACKET SLEEVE.
CARP-1 BEGINS AT BRKT-1
TOTAL TMU 2 5 0 .
PAGE 33-8
DATA SYNTHESIS AND BACK-UP
410. REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOIDCARPENTER
PER STAGING PLANK OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING BOARDS FROM BOARD...* . . .PILE ON TANKTOP TO DECK (GOES THRU..* .....MANHOLE).* MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-3 BEGINS AT HATL-PILE
TOTAL TMU 1 9 8 3 .
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER LADDER OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING LADDERS FROM LADDER* ..4-PILE ON TANKTOP TO DECK (GOES THRU*.* M A N H O L E ) .* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
CARP-3 BEGINS AT BD-PILE
TOTAL TMU 1 9 8 3 .
412. REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER TOOLBOX OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING TOOLBOX FROM MATL..* . . .P ILEON TANKTOP TO DECK (GOES THRU. .* . . . M A N H O L E ) ,* TOOLBOX CONTAINS:* . . . 2 8 B O L T S* . . 4 2 8 N U T S* . . . 2 8 L A D D E R C L I P S
CARP-3 BEGINS AT LDR-PILE
TOTAL TMU
P A G E 3 4
7 2 1 0 .
DATA SYNTHESIS AND BACK-UP
431. (WALK UP OR DOWN) MOVE OPERATOR (ON INCLINED STAIRS) ON BULKHEAD AT ANYTANKS AND VOIDS CARPENTER
PER SET OF INCLINED STAIRS OFG: 4 1O-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER WALKING UP OR DOWN* . . .A SET OF INCLINED STAIRS. AVERAGE* ...NUMBER OF TREADS IN A SET OF INCLINED** . . . S T A I R S = 1 6 .* CARPENTERS ARE WALKING UP OR DOWN STAIRS * AT THE SAME TIME.
CARP-1 BEGINS AT LEVEL-1
TOTAL TMU 3 2 0 .
563. TRANSPORT STAGING BRACKET WITH (TOWER CRANE) AT (WING) TANKS AND VOIDSCARPENTER
PER STAGING BRACKET OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BRACKETS FROM..* . . B I N - 1 T O B U L K H E A D* DISTANCES FROM CRANE-REST TO BIN-1 AND..* .... FROM BIN-1 TO BULKHEAD ARE AVERAGE..* . .DISTANCES FROM THE SIDE OF A BASIN* . . 1 2 0 0 ’ X 2 0 0 ’* MAXIMUM NUMBER OF BRKTS IN LIFT = 6
C-OPER BEGINS AT CR-1
TOTAL TMU
DATA SYNTHESIS AND BACK-UP
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERPER LADDER OFG: 3 01-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP AN ACCESS LADDER..* ..ON THE BULKHEAD SO THAT THE CARPENTER* ..,CAN CLIMB TO THE NEXT LADDER.* ALSO INCLUDES CLIMBING UP AND DOWN THE..* . . . .LADDER.* AVERAGE NUMBER OF RUNGS = 12
CARP-1 BEGINS AT TANKTOP
TOTAL TMU 1 4 2 0 .
384, POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDERCLIPS) AT TANK CARPENTER
PER LADDER OFG: 3 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS SECURING A LADDER TO THE....* ...BULKHEAD USING 4 LADDER CLIPS* W E L D I N G O F C L I P S W I L L 8 E D O N E I N A . . . .* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT LDR
TOTAL TMU 71O.
388. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN...* ... BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* . .BRACKETS. THEY BOTH LIFT THE BOARD...* . .TOGETHER AND SLIDE IT INTO POSITION,* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ..ON THE LEVEL BELOW THE BOARDS*
CARP-1 BEGINS AT BRKT-1
TOTAL TMU 2 9 0 .
DATA SYNTHESIS AND BACK-UP
426. HAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTER
PER STAGING BRACKET OFG: 3 1O-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* . .OR IN TANK AT THE MATERIAL (BIN-1)
CARP-3 BEGINS AT BIN-1
TOTAL TMU 51O.
427, MAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTERPER LADDER OFG: 3 1O-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING LADDER ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.
CARP-3 BEGINS AT BIN-1
TOTAL TMU 720 ●
428, MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT ANY MAYSCARPENTER
PER STAGING PLANK OFG: 3 1O-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-1
TOTAL TMU 5 0 0 .
DATA SYNTHESIS AND BACK-UP
429. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTPER STANCHION OFG: 3 1O-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING STANCHION READY TO BE
* . . .TRANSPORTED+CARP-3 BEGINS AT LU-PILE
TOTAL TMU 2 9 0 ,
430, MAKE READY HANDRAILPER HANDRAIL OFG: 3
FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTE1O-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...SO THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-2
TOTAL TMU 5 0 0 .
569. SET-UP STAGING BRACKET ON WEB FRAME WITH WRENCH AT ( WING ) TANKS AVOIDS CARPENTER
PER STAGING BRACKET OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING U)P A STAGING BRACKET* . . .ON A EXISTING STAGING CLIP ( LOCATED* .... ON A WEB FRAME )
CARP-1 BEGINS AT WING-TANK
TOTAL TMU 1 0 8 0 ,
P A G E 3 5 5
DATA SYNTHESIS AND BACK-UP
577. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT ( WING ) TANKS ANDVOIDS CARPENTER
PER STANCHION OFG: 4 24-MAY-8.3REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING STANCHION IN THE* ...BRACKET SLEEVE IN A WING TANK
CARP-1 BEGINS AT WEB-1
TOTAL TMU 250 ●
578, SET-UP HANDRAIL IN STANCHION WITH HAND AT ( WING ) TANKS AND VOIDSCARPENTER
PER HANDRAIL OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL INTO THE* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR* . .ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL WILL BE DONE IN * . .A SEPARATE SUB OPERATION
CARP-1 BEGINS AT WEB-1
TOTAL TMU 650 ●
579. SET-UP HANDRAIL ( END PIECES ) ON ( HANDRAIL AND ) BULKHEAD WITH HANDAT ( WING ) TANKS AND VOIDS CARPENTER
PER HANDRAIL OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME-
* REPRESENTS PUTTING HANDRAIL (END PIECES)* . .AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL ( END PIECES )* ... CONNECTIONS WILL BE DONE IN A* ...SEPARATE SUB OPERATION
CARP-I BEGINS AT WEB-1
TOTAL TMU 1 9 7 0 .
DATA SYNTHESIS AND BACK-UP
568. SET-UP ( STAGING CLIP ) ON WEB FRAME WITH HAMMER ( AND STEEL-TAPE ) A( WING ) TANKS AND VOIDS CARPENTER
PER STAGING CLIP OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTIN6 UP A STAGING CLIP ON* . .A WEB FRAME* WELDING OF THE CLIP WILL BE DONE IN A* . .SEPARATE SUB OPERATION
C A R P - 1 B E G I N S A T W I N G - T A N K
TOTAL TMU
PAGE 359
SECTION 5DATA SYNTHESIS AND BACK-UP
5 . 1 SUMMARY
5 4 5 . ASSEMBLE I-BEAMS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE BOLTING I-BEAMS* STEPS:* 1-4 ARE FOR THE CONNECTIONS OF I-6 & I-7* . . . A T I - l , I - 2 , I - 3 , I - 4 , A N D 1 - 5 * 5,6 ARE FOR MOVEEMENT OF THE CARPENTER* ...BETWEEN THE CONNECTIONS
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
T O T A L T M U 536504
5 4 6 . ASSEMBLE ANGLE-BARS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE ASSEMBLING ANGLES* STEPS:* 1-6 ARE FOR CONNECTIONS OF A-4 AND A-1* . . . A T I - l , I - 2 , I - 3 , 1 - 4 , A N D 1 - 5* 7-13 ARE FOR CONNECTIONS OF* . . A - 3 A T 1 - 5 , 1 - 4 , A N D 1 - 3 A N D* ...A-1 AT 1-3,1-2, AND 1-1* 14-20 ARE FOR CONNECTIONS OF A-S AND A-6* . . . A T 1 - 1 , 1 - 2 , 1 - 3 , 1 - 4 , A N D I - 5
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
TOTAL TMU 7 4 0 3 0 .
PAGE 360
DATA SYNTHESIS AND BACK-UP
539. READ MATERIAL LIST (PRINT) FOR TANK STAGING PLATFORM WITH (EYES) AT PLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER READS PRINT BEFORE LAYING OUT* . . .TABLE, READS 48 DIGITS PER LOCATION
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
TOTAL TMU 3 1 2 0 .
540. MEASURE (PLATEN) FOR TANK STAGING PLATFORM WITH (STEEL) TAPE AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 31-JAN-83REPRESENTS ELAPSED TIME
* REPRESENTS MEASURING TABLE FOR LAYOUT* A N A L Y S I S I N C L U D E S A L L T H E W A L K I N G . . .* . . .DISTANCES FOR THE LAYOUT.* STEPS:* 2 , 3 , 4 A R E F O R I - l , I - 2 , I - 3 , 1 - 4 , A N D 1 - 5* . . A T A - 5 A N D A - 6 ,* 5 , 6 , 7 A R E F O R A - 5 , I - 7 , A -4 , A - 3 , A - l , I - 6 ,* ....AND A-6 AT 1-5* 5 , 6 , 7 A R E F O R A - 5 , 1 - 7 , A - 4 , A - 2 , A - l , I - 6 ,* ...AND A-6 AT 1-1* 9 , 1 0 , l l A R E F O R A - 2 A N D A - 3 A T I - 3
CARP-1 BEGINS AT STORE-2
TOTAL TMU 1 5 4 6 0 .
PAGE 34/
DATA SYNTHESIS AND BACK-UP
541. MARK (PLATEN) FOR TANK STAGING PLATFORM WITH MARKER AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* REPRESENTS MARKING THE LAYOUT FOR A TANK* ...STAGING PLATFORM AND INSPECTING WORK.* THE FOLLOWING PLACES ARE LAID OUT:* . . . A T A - S A N D A - 6 :* . . I - l , I - 2 , I - 3 , I - 4 , A N D I - S* . . . A T I - 1 A N D 1 - 5 :* . . . A - 6 , I - 6 , I - 6 , A - 1 , A - 4 , I - 7 A N D A - 5* . . . A - 2 I S L A I D O U T A T I - 3 A N D I - 1* . . A - 3 I S L A I D O U T A T I - 3 A N D 1 - 5
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
TOTAL TMU 8500 ●
542. TRANSPORT PALLET (I-BEAMS AND ANGLES) FOR TANK STAGING PLATFORM WITH(CRANE) AT ANY PLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83.REPRESENTS ELAPSED TIME
* MATERIAL NEEDED FOR ONE PLATFORM:* . . . I - B E A M S - 7* . . A N G L E S - 6
HOOKER-ON BEGINS AT CR-1
TOTAL TMU 7800 .
547, TRANSPORT STAGING PLANKS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* BOARDS ARE TRANSPORTED FROM LUMBER PILE* ...WHICH IS LOCATED ON THE PLATEN.* TOTAL NUMBER OF BOARDS IN LIFT = 64* TOTAL LIFTS = 2 (PORT AND STARBOARD)
HOOKER-ON BEGINS AT STORE-2
26000 ●
DATA SYNTHESIS AND BACK-UP
551, TEAR DOWN I-BEAMS ON TANK STAGING PLATFORM WITH WRENCH AT MID TANKS ANVOIDS. CARPENTER
PER PLATFORM OFG: 4 11-HAY-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE UNBOLTING I-BEAMS* STEPS:* 1-5 ARE FOR REMOVING BOLTS ON 1-6 & I-7* .... AT I-l,I-2,I-3,I-4,AND 1-5* 6,7 ARE FOR MOVEMENT OF THE CARPENTER* ...BETWEEN THE CONNECTIONS
CARP-I BEGINS AT 1-1
TOTAL TMU 3 8 5 3 0 ,
552, TEAR DOWN STAGING PLANKS ON TANK STAGING PLATFORM WITH WINCH AT MIDTANKS AND VOIDS CARPENTER
PER PLATFORM OFG: 4 18-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BOARDS ON A TANK* ...STAGING PLATFORM (IN A CENTER TANK)* TOTAL BOARDS = 64 (22 LIFTS)* 2 CARPENTERS MOVE BOARDS FROM THE TANK* ...STAGING PLATFORM TO A LUMBER-PILE* ...LOCATED NEAR A MANHOLE. A WINCH* ...OPERATOR AND A CARPENTER REMOVE THE* ....BOARDS FROM THE TANK. THERE ARE 2* ...CARPENTERS WHO RECEIVE AND STACK THE* . .BOARDS ON THE DECK. THEIR TIME IS* ..INTERNAL TO THE WINCH PROCESS TIME,
CARP-1 BEGINS AT I-5
TOTAL TNU 2 1 5 0 8 0 .
DATA SYNTHESIS AND BACK-UP
561. SET-UP STAGING BRACKETS FOR (BETWEEN) TANK STAGING PLATFORM WITH WRENCHAT MID TANKS AND VOIDS CARPENTER
PER CENTER TANK OFG: 4 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SETTING UP BRACKETS ON 2 TANK* . . .STAGING PLATFORMS. BOARDS ARE SPREAD * . .BETWEEN THE BRACKETS.* THIS ASSEMBLY IS USED TO CONNECT THE TWO* ....TANK STAGING PLATFORMS.* 2 CARPENTERS WORKING SIMULTANEOUSLY EACH* ...WORKING ON A DIFFERENT PLATFORM* STEPS:* 1-6 REPRESENTS SETTING UP BRACKETS AT* . . . B R - l , B R - 2 , A N D B R - 3* 7 REPRESENTS SPREADING BOARDS BETWEEN* . . .BR-1 AND BR-2; BR-2 AND BR-3
CARP-1 BEGINS AT PLFM1
TOTAL TMU 6 5 4 0 .
562. SET-UP STAGING PLANKS FOR (BETWEEN) TANK STAGING PLATFORMS WITH HAMMERAT MID TANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 4 23-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING BOARDS BETWEEN TWO* ...TANK STAGING PLATFORMS* 2 CARPENTERS ARE NOT WORKING* . .S IMULTANEOUSLY
CARP-I BEGINS AT PLFM1
TOTAL TMU 6 8 3 0 •
9. HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIPPER EA OFG: 1 31-JUL-81
* TORCH AND HOSE LOCATED AT MANIFOLD* UNHOOK IS THE REVERSE OF HOOKUP
CARP4 BEGINS AT HOOK-UP
TOTAL - TMU 2 8 0 .
P A G E 3 7 0
DATA SYNTHESIS AND BACK-UP
132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW), RATE IN ELAPSED TIME.MULT BY 6 TO OBTAIN TOTAL TIME.
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS IINCLUDED IN THIS SUBOP:* - - 2 H O O K - U P S A N D 2 U N H O O K S P E R ( l ) . . . .* . . . 8 - H R S H I F T* - - (1 ) OCCURRENCE FOR IGNITE AND . . . . . . . . .* . . .EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-DP...* . . .FRO NUMBER OF CUTS >1, USE THE . . . . . .* . . .FORMULA: FREQ = 1 + [ ( N - 1 ) X . 2 3 3 . . .
* .... WHERE ‘N- = THE NUMBER OF CUTS(BURNS)TOTAL TMU 2 9 0 0 . 0
517. SET-UP (STAGING CLIP) ON SIDE SHELL WITH HAMMER AT ANY WAY CARPENTERPER STAGING CLIP OFG: 3 16-HAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A STAGING CLIP ON* . . T H E S I D E S H E L L .* CARPENTERS ARE WORKING FROM AN AERIAL* . . P L A T F O R M .* WELDING OF THE CLIP IS DONE IN A* . . .SEPERATE SUB OPERATION.
CARP-1 BEGINS AT BRKT-2
TOTAL TMU 940 ●
518, SET-UP STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAY CARPENTERPER STAGING BRACKET OFG: 3 16-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A BRACKET ON THE* . . . S I D E S H E L L .* CARPENTERS ARE WORKING FROM AN AERIAL* . . . P L A T F O R M .
CARP-1 BEGINS AT BRKT-1
TOTAL TMU 1 2 2 0 .
PAGE376
DATA SYNTHESIS AND BACK-UP
526, TEAR DOWN STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STAGING PLANK OFG: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN BOARDS ON THE* . . S I D E S H E L L .* CARPENTERS ARE WORKING ON AN AERIAL* . . . P L A T F O R M .* THE CARPENTERS ARE WORKING* ... SIMULTANEOUSLY.
CARP-1 BEGINS AT BRKT-1
TOTAL TMU 440 .
527. TEAR DlOWN (ACCESS) LADDER ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTPER LADDER OFG: 2 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF LADDER FROM SIDE
* . . . S H E L L .* CARPENTERS ARE WORKING ON AN AERIAL* . . . P L A T F O R M .* THE CARPENTERS ARE NOT WORKING* . . .S IMULTANEOUSLY.
CARP-1 BEGINS AT BRKT-2
TOTAL TMU
528. TEAR DOWN STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAYCARPENTER
PER STAGING BRACKET OFG: 3 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKETS* .. . .FROM SIDE SHELL+* CARPENTERS ARE WORKING ON AN* . . A E R I A L P L A T F O R M
CARP-1 BEGINS AT BRKT-1
TOTAL TMU
P A G E 3 7 9
4 5 5 0 .
9 0 0 .
SECTION 5DATA SYNTHESIS AND BACK-UP
5 . 1 SUMMARY
446. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYPLATEN (SHOP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS* RATE PER 100 PIECES OF HANDRAIL
(AVG. 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEMENTS.
TOTAL TMU 1 8 6 0 1 2 .
454. (CLIMB UP AND DOWN) MOVE OPERATOR (ON PIPE STAGING) FOR SIDE SHELL ATANY WAYS CARPENTER
PER PIPE STAGING SECTION (16’ LONG) OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER CLIMBING UP AND* . . .DOWN END PIECE OF PIPE STAGING.* AVERAGE NUMBER OF STEPS NEEDED = 6.
C A R P - 1 B E G I N S A T E N D - P C - I
TOTAL TMU 8 0 0 .
456. TRANSPORT STAGING PLANK FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWERCRANE) AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* . . . B D - P I L E T O S I D E S H E L L .* DISTANCES FROM CRANE-REST TO BD-PILE AND* . . .FROM BD-PILE TO SIDE SHELL ARE* ...AVERAGE DISTANCES FROM WAY 740’X120’* MAXIMUM NUMBER OF BOARDS IN LIFT = 4
C-OPER BEGINS AT CR-1
TOTAL TMU 3 2 7 5 .
DATA SYNTHESIS AND BACK-UP
459. TRANSPORT STANCHION FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRAAT ANY WAYS CARPENTER
PER STANCHION OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING STANCHION FROM* . . . B I N T O S I D E S H E L L .* DISTANCES FROM CRANE-REST TO BIN-2 AND..* ...FROIM BIN-2 TO SIDE SHELL ARE AVERAGE* ... DISTANCES FROM A WAY 740’X120’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
C-OPER BEGINS AT CR-1
TOTAL TMU 1 9 6 7 .
461. TRANSPORT HANDRAIL FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANAT ANY WAYS CARPENTER
PER SECTION (i6’LONG) OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING HANDRAIL FROM* . . . H R - P I L E T O S I D E S H E L L .* DISTANCES FROM CRANE-REST TO HR-PILE AND.* . .FROM HR-PILE TO SIDE SHELL ARE* . . .AVERAGE DISTANCES FROM WAY 740’X120’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINS AT CR-l
TOTAL TMU
P A G E 3 8 1
2 0 3 3 .
DATA SYNTHESIS AND BACK-UP
480. REMOVE END RAIL (END PIECE) ON (MATERIAL PILE) WITH (TOWER CRANE) ATANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING END PIECES FROM* ...MlATERIAL PILE AT WAY TO END-PC-RACK.* ..D1STANCES ARE AVERAGE DISTANCES FOR A* . . . W A Y 7 4 0 ’ X 1 2 0 ’ ,* M A X I M U M N U M B E R O F E N D P I E C E S I N L I F T = 3 * TOWER CRANE IS USED FOR REMOVAL,
CARP-3 BEGINS AT MATL-PILE
TOTAL TMU 4 8 7 3
486, TRANSPORT END RAIL (END PIECE) ON (END-PIECE RACK) WITH (TOWER CRANEAT ANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING END PIECES FROM* . . E N D - P C - R A C K T O M A T L - P I L E .* DISTANCES FROM CRANE REST TO END-PC-RACK* .....AND FROM END-PC-RACK TO MATL-PILE ARE* ....AVERAGE DISTANCES ON A WAY 740’X120’* MAXIMUM NUMBER END-PCS IN LIFT = 3* . . .THERE ARE 2 LIFTS DONE PER SECTION OF* .......PIPE STAGING (16’LONG).
C-OPER BEGINS AT CR-1
TOTAL TMU 2 5 1 7 .
P A G E 3 8 5
DATA SYNTHESIS AND BACK-UP
464. SET UP STAGING PLANK FOR SIDE SHELLHAND AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
( B T W N 2 P I P E S T A G I N G S E C T I O N S ) W
* REPRESENTS CARPENTERS SPREADING BOARDS* . . .BETWEEN PIPE STAGING SECTIONS.* .....THERE 1S A 16’ GAP BETWEEN SECTIONS.* ....CARPENTERS HAVE TO CLIMB UP AND DOWN* ...THE PIPE STAGING TO SPREAD THE BOARDS* .....(SEE SEPARATE ANAYLSIS FOR CLIMBING)
CARP-1 BEGINS AT SECTION-1
TOTAL TMU 2 5 0 .
466. SET UP HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH HANDAT ANY WAYS CARPENTER
PER SECTION OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS INSTALLING* . . . .HANDRAIL ON EXISTING HANDRAIL.* .....CARPENTERS DON’T WORK SIMULTANEOUSLY.* ....WELDING DONE IN A SEPARATE SUB-OP.
CARP-1 BEGINS AT SECTION-1
TOTAL TMU 7 2 0 .
469. TEAR DOWN HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITHTORCH AT ANY WAYS CARPENTERS
PER SECTION OFG: 3 15-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* . . .STAGING (BTWN 2 SECTIONS). A TORCH IS* ...USED TO BURN THE HANDRAIL OFF. THE* ...HANDRAIL IS THROWN TO THE MATERIAL* ....PILE. CARPENTERS REMOVE 2 HANDRAIL* ....PIECES BEFORE MOVING TO NEXT SECTION.
CARP-l BEGINS AT SECTION-1
TOTAL TMU
PAGE 388
DATA SYNTHESIS AND BACK-UP
475. TEAR DOWN PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HANANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN END PIECES AND* . . . . .BRACES ON PIPE STAGING (1ST LEVEL).* ....BRACES ARE HELD ON BY A LOCKING PIN* ....CARPENTERS WORK SIMULTANEOUSLY.* .....CARPENTER-2 HANDLES REMOVAL AT* . . . . . .END-PC-1 AND END-PC-2, MATERIAL IS* ....THROWN OR PLACED AT THE MATERIAL* . . . P I L E .
CARP-1 BEGINS AT END-PC-1
TOTAL TMU 1 8 2 0
487, MAKE READY END RAIL (END PIECE) FOR (TRANSPORTING) AT ANY WAYSCARPENTER
PER END RAIL (END PIECE) OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING END PIECES ON BOLSTER* ....S0 THAT CRANE CAN TRANSPORT IT.
CARP-3 BEGINS AT END-PC-RACK
TOTAL TMU i 4 0
DATA SYNTHESIS AND BACK-UP
488. SET-UP PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH HAND ATANY WAYS CARPENTER
PER SECTION (16’ LONG) OF PIPE STAGING OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS SETTING UP 1ST LEVEL OF A 16’* ....LONG SECTION OF PIPE STAGING. SECTION* .....INCLUDES 3 END PIECES AND 8 BRACES* ....WHICH ARE HELD IN PLACE BY A LOCKING* . . . . . P I N .* CARP-1 AND CARP-2 ARE WORKING* ....SIMULTANEOUSLY IN PUTTING UP THE END* ....PIECES AND BRACES.
CARP-1 BEGINS AT END-PC-1
TOTAL TMU 3 7 6 0 .
489, SET-UP PIPE STAGING (END PCS AND BRACES) FOR SIDE SHELL WITH WRENCH ATANY WAYS CARPENTER
PER SECTION (16’LONG) OF PIPE STAGING OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS SETTING UP 2ND LEVEL OF A 16’* . . .LONG SECTION OF PIPE STAGING SECTION* ...INCLUDES 3 END PIECES AND 8 BRACES* ....WHICH ARE HELD IN PLACE BY A LOCKING* .. .PIN END PIECES ARE BOLTED TO 1ST* . . .LEVEL END PIECES,* CARP-I AND CARP-2 ARE WORKING* ...SIMULTANEOUSLY IN PUTTING UP THE END* P I E C E S A N D B R A C E S .
CARP-1 BEGINS AT END-PC-1
TOTAL TMU 8 3 9 0 ,
DATA SYNTHESIS AND BACK-UP
378. TRANSPORT STAGING BRACKET WITH (GROVEPER STAGING BRACKET OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME
CRANE) AT TANK (OR WAY) CARPENTER
* REPRESENTS TRANSPORTING BRACKETS FROM...* . . .B IN- l TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-1 AND..* . . .FROM BIN-1 TO BULKHEAD ARE AVERAGE...* . . . .D ISTANCES IN A CENTER TANK 98’X50’ * MAXIMUM NUMBER OF BRKTS IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT BRKT FROM BIN-1 USING CRANE WITH HOOK+SLING TO BULKHEAD (BTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
Al T1O K24 T16 P3 TIO AO 0 . 1 7 1 0 6 7 .
TOTAL TMU 1 0 6 7 .
381. TRANSPORT LADDERS WITH (GROVE CRANE) AT TANK CARPENTERPER LADDER OFG: 3 03-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING LADDERS FROM. . . .* .....LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE..* . . . .AND FROM LDR-PILE TO BULKHEAD ARE. .* ....AVERAGE DISTANCES IN A CENTER TANK....* . . . .0098’X50’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT LADR FROM LDR-PILE USING CRANE WITH HOOK+SLINE TO BULKHEAD( AT. LDR) PLACE+ADJUST RETURN TO CR-1 F 1 / 3
Al TIO K24 T24 P3 TIO AO O . 3 3 2 4 0 0
TOTAL TMU 2400 ●
PAGE 394
DATA SYNTHESIS AND BACK-UP
392. TRANSPORT STANCHION WITH (GROVE CRANE) AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING STANCHION FROM..* ...BIN-2 TO BULKHEAD* DISTANCES FROM CRANE-REST TO BIN-2 AND ..* ...FROM BIN-2 TO BULKHEAD ARE AVERAGE ...* ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6C-OPER BEGINS AT CR-1
1 TRANSPORT STAN FROM BIN-2 USING CRANE WITH HOOK+SI-ING TO BULKHEAD(BTWN BRKTS ) PLACE+ADJUST RETURN TO CR-1 F 1 / 6
Al T10 K24 T16 P3 T10 AO 0.17 1067.
TOTAL TMU 1067.
395. TRANSPORT HANDRAIL WITH (GROVE CRANE) AT TANK CARPENTERPER HANDRAIL OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING HANDRAIL FROM...* ...HR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO HR-PILE AND* ...FROM HR-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES IN A CENTER TANK 98’X50’* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USINGBULKHEAD ( BTWN BRKTS ) PLACE+ADJUST
Al T10 K24 T16 P3
CRANE WITH HOOK+SLING TORETURN TO CR-1 F 1 / 6T10 AO 0.17 1067.
TOTAL TMU 1067.
DATA SYNTHESIS AND BACK-UP
404. (CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) ON BULKHEAD AT ANY TANAND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS CLIMBING UP AND ...* ...DOUN LADDERS TO REMOVE STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.CARP-1 BEGINS AT LDR
1
2
CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) 12 ( 3 4 )
(A1 )B16(G1 M3 )XO IO AO (12) 1.00 760.CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) 12 ( 3 4 )
407. REMOVE HANDRAILCARPENTER
(Al )B16(G1 Ml )XO IO AO (12) 1.OO 520.
TOTAL TMU 1280.
ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND) VOIDS
PER HANDRAIL OFG: 3 O8-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ...PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6CARP-3 BEGINS AT TANKTOP
1 CARP-3 GET+SLIDE HANDRAIL ( ONTO BOLSTER ) AT MATL-PILEAl B6 G3 M3 XO IO AO 1.00
2 WINCH-OPER PUSH WINCH-llOUN PROCESS ( TO TANKTOP ) F 1 / 6Al BO G1 Ml X81 IO AO O.17
3 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
Al B6 G1 Al BO P1 L32 AO BO PO AO 0 . 1 74 WINCH-OPER THROW CABLE FROM HENHOLE TO CARP-3 F 1 / 6
Al BO G1 Al B6 PO AO 0.175 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK
HANDRAIL ) F 1 / 6Al B6 G3 M1O
6 WINCH-OPER PUSH WINCH-FREE PROCESSAl BO G1 Ml
7 WINCH-OPER PUSH WINCH-UP PROCESS (Al BO G1 Ml
130.
140.
70.
15.AROUND
XO IO AO 0.17 .33( CLEAR OBSTACLES ) F 1 / 6X67 IO AO- 0.17 117.TO HENHOLE ) F 1 / 6X24510 AO 0.17 413.
PAGE 397
DATA SYNTHESIS AND BACK-UP
TOTAL TMU 918
408. REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER STANCHION OFG: 3 08-FEB-82REPRESENTS ELAPSED TIHE
* REPRESENTS REMOVAL OF STANCHION FROM . . .* ...MATL-PILE ON TANK TOP TO DECK (GOING* ...THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6CARP-3 BEGINS AT MATL-PILE
1
2
3
4
5
6
7
CARP-3 GET+PLACE WITH BEND STAN FROM MAIL-PILE TO MATL-PILE WITHBEND
Al B6 G3 A1 B6 P3 A0 1.OO 200.WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 6
Al BO G1 M1 X81 IO AO 0.17 140.WINCH-fJPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
Al B6 G1 Al BO P1 L32 AO BO PO AO 0.17 70.WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 6
Al BO G1 Al B6 PO AO 0.17 15.CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUNDSTANCHION ) F 1 / 6
A1 B6. G3 M1O XO IO AO 0.17 33.WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6
Al BO G1 Ml X67 IO fI0 0.17 1 1 7 . WINCH-OPER PUSH WINCH-tJP PROCESS ( TO MENHOLE ) F 1 / 6
Al BO G1 Ml X245I0 AO 0.17 413.
TOTAL TMU 988.
DATA SYNTHESIS AND BACK-UP
409. REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS ANVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ...MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+PLACE WITH BEND BRKT FROM MATL-PILE TO MATL-PILE WITHBEND
A1 B6 G3 A1 B6 P3 A0 1.00 200.2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3
Al B0 G1 Ml X81 IO A0 0.33 280.3 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH REM AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 3M B6 G1 A1 B0 P1 L32 A0 B0 P0 A0 0.33 140.
4 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3Al BO G1 Al B6 P0 A0 0.33 30 .
5 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUNDBRACKET ) F 1 / 3
A1 B6 G3 M1O XO IO AO O.33 67.6 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
A1 BO G1 M1 X67 IO A0 0.33 233 .7 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
A1 B0 G1 Ml x245I0 AO 0.33 827.
TOTAL TMU 1777.
PAGE 399
DATA SYNTHESIS AND BACK-UP
410. REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER STAGING PLANK OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING BOARDS FROM BOARDS...* ...-PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE)** MAXIMUM NUMBER OF BOARDS IN LIFT = 3
CARP-3 BEGINS AT MATL-PILE
1
2
3
4
5
6
7
CARP-3 GET+SLIDE BOARD ( ONTO BOLSTER ) AT BD-PILE AND ADJUSTA16 B6 G3 M3 X0 I6 A0 1.00 340.
WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3Al BO G1 M1 X81 IO 40 O.33 280.
WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 3Al B6 G1 Al B0 P1 L32 A0 B0 PO A0 0.33 140.
WINCH-OPER THROW CABL.E FROM MENHOLE TO CARP-3 F 1 / 3Al B0 G1 Al B6 PO A0 0.33 30,
CARP-3 GET+MANIPULATE WITH BEND CABLE AT BD-PILE ( HOOK AROUNDBOARDS ) ( ALLOW FOR 2 ATTEMPTS )
A1 B6 G3 H10WINCH-OPER PUSH WINCH-FREE PROCESS
Al BO G1 M1WINCH-OPER PUSH WINCH-UP PROCESS (
Al BO G1 M1
F 2 / 3XO I0 A0 0, 67 133.( CLEAR OBSTACLES ) F 1 / 3X67 I0 A0 O.33 233 .TO MENHOLE ) F 1 / 3X24510 A0 O.33 827
TOTAL TMU 1983.
DATA SYNTHESIS AND BACK-UP
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER LADDER OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING LADDERS FROM LADDER* ...-PILE ON TANKTOP TO DECK (GOES THRU***...MANHOLE).* MAXIMUM NUMBER OF LADDERS IN LIFT = 3CARP-3 BEGINS AT BD-PILE
1
2
3
4
5
6
7
LADDERS. ) ( ALLOW FOR 2 ATTEMPTSAl R6 G3 M1O
WINCH-OPER PUSH WINCH-FREE PROCESSAl B0 GI M1
WINCH-OPER PUSH WINCH-UP PROCESS (Al B0 G1 M1
) F 2/3 M10 X0 I0 A0 0,67 133.( CLEAR OBSTACLES ) F 1 / 3X67 10 A0 0.33 233 .TO MENHOLE ) F 1 / 3X245I0 A0 O.33 827 .
TOTAL TMU 1983
DATA SYNTHESIS AND BACK-UP
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORWAY) CARPENTER
PER STAGING BRACKET OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* ...OR IN TANK AT THE MATERIAL (BIN-1)
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+PLACE WITH BEND BRKT FROM BIN-1 TO BIN-1A1 B6 G3 Al B0 P3 AO 1.00 140.
2 CARP-3 GET+PLACE WITH BEND BOLT FROM TOOLBOX-1 TO BIN-1 AND INSERBOLT IN BRKT
150.3 CARP-3 FASTEN NUT AT BIN-1 4 WRIST-TURNS USING HANDS
Al BO G1 Al BO Pi F1O AO BO PO AO 1.00 140.4 CARP-3 GET+PLACE BRKT FROM BIN-1 TO BIN-1 ( PILE UP BRKTS FOR
TRANSPORTATION )Al BO G3 Al BO P3 AO 1400 80+
TOTAL TMU 510
DATA SYNTHESIS AND BACK-UP
379. SET-UP STAGING BRACKETS ON BULKHEAD WITH WRENCH AT TANK CARPENTERPER STAGING BRACKET. OFG: 3 01-FEB-82REPRESENTS ELAPSED TIME REPRESENTS PUTTING UP A BRACKET ON AN...* ...EXISTING STAGING CLIPCARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+HOLD WITH BEND BRKT FROM TANKTOP TO CARP-1Al B6 S3 Al BO PO AO 1.OO 110.
2 CARP-1 LOOSEN NUT AT BRKT-1 4 WRIST-TURNS USING HANDSAl BO G1 Al BO PI L10 AO BO PO AO 1.OO 140.
3 CARP-1 REMOVE BOLT FROM BRKT-1 ( BRKT. ) TO CARP-1Al BO G1 Al BO P1 AO 1.00 40.
4 CARP-I GET+PLACE BRKT FROM CARP-1 TO BRKT-1 AND INSERT BOLTAl BO G3 Al RO P3 Al 1.00 90.
5 CARP-1 FASTEN NUT AT BRKT-1 13 WRIST-TURNS USING HANDSAl BO G1 Al BO PI F24 AO BO PO AO 1.00 2806
6 CARP-1 FASTEN NUT AT BRKT-1 4 ARM-STROKES USING WRENCH-1 ASIDE TOCARP-1Al BO G1 Al BO P3 F24 Al BO P1 AO 1.OO 320.
7 CARP-1 WALK TO BRKT-2 ( TO 110 NEXT BRKT )A1O BO GO AO BO PO AO 1.OO 100.
TOTAL THU 1080,
380 MAKE READY LADDER FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER LADDER OFG: 3 01-FEB-82REPRESENTS ELAPSED TINE* REPRESENTS GETTING LADDER ON ROLSTERS SO* ...THAT THE CRANE CAN TRANSPORT IT.CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE LADR AT LDR-PILE ANU ADJUST ( ON BOLSTERS )A42 B6 G3 M3 XO 16 AO 1.OO 600,
TOTAL TMU 6004
PAGE 406
DATA SYNTHESIS AND BACK-UP
382. SET-UP LADDER ON BULKHEAD (AT BRACKET LOCATION) WITH HAND AT TANKCARPENTER
PER LADDER OFG: 4 03-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A LADDER AT A..... .* ...BRACKET LOCATION SO THE CARPENTER CAN* ...PUT UP A BRACKET APPLIES ONLY FOR...* ...FIRST LEVEL OF STAGING. CARPENTER IS*...WORKING FROM THE TANKTOP.* ALSO INCLUDES CLIMBING UP & DOWN LADDER
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PLACE WITH BEND LADR FROM TANKTOP TO BRKT-1A1 B6 G3 Al B0 P3 A0 1.00 140.
2 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT BRKT-1 ( 4 RUNGS ) PF 4 ( 1 ) 4 ( 3 4 )
(A1 )B16(G1 M3 )XO IO AO (4) 1.00 360.3 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT BRKT-1 ( 4 RUNGS ) PF 4 ( 1 )
P F 4 ( 3 4 )(Al )B16(G1 M1 )XO IO AO (4) 1.00 280.
4 CARP-1 GET+PLACE LADR FROM BRKT-1 TO TANKTOP WITH BENDAl BO G3 A1 B6 P3 A0 1.00 140.
TOTAL TMU 920.
PAGE 407
DATA SYNTHESIS AND BACK-UP
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERPER LADDER OFG: 3 01-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP AN ACCESS LADDER..* ....ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER.* ALSO INCLUDES CLIMBING UP AND IIOUN THE..* ...LADDER.* AVERAGE NUMBER OF RUNGS = 12CARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+PLACE WITH BEND LAIN? FROM TANKTOP TO LDRAl B6 G3 Al BO P3 A0 1.OO 140.
2 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
(A1 )B16(G1 M3 )XO IO AO (12) 1.00 760.3 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )(Al )B16(G1 M1 )XO IO A0 (12) 1.00 520.
TOTAL TMU. 1420.
385. POSITION (SECURE) (ACCESS) LADDER FOR BRACKET STAGING WITH PLIER (AND WIRE ROPE) AT TANK CARPENTER
PER LADDER OFG: 4 03-FEB-82REPRESENTS ELAPSED TIME * REPRESENTS SECURING LADDER TO STAGING...*...BOARDS USING WIRE ROPECARP-1 BEGINS AT LDR
1 CARP-1 GET+MANIPULATE WIRE-ROPE AT LDR ( PUT AROUND BOARDS ANDLADDER. )
A1 BO G3 M10 XO IO AO 1.00 140.2 CARP-1 TWIST WIRE-ROPE AT LDR USING PLIER-1 ASIDE TO CARP-1
Al BO G1 Al BO P3 C6 Al BO Pi AO 1.00 140.
TOTAL TMU 280
DATA SYNTHESIS AND BACK-UP
386. MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT TANK (OR WACARPENTER
PER STAGING PLANK OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO)* ...THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE BOARD AT LU-PILE AND ADJUST ( ON BOLSTERS )424 B6 G3 M3 XO I6 AO 420.
TOTAL TMU 420,
388, SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN....* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS. THEY BOTH LIFT THE BOARD....* ..TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEUEL BELOW THE BOARDS.
CARP-1 BEGINS AT BRKT-1
1 CARP-l+CARP-2 GET+SLIDE WITH 1 STEP BOARD AT BRKT-1 AND ALIGNA3 BO G3 H3 X() I10 AO 1.00 190.
2 CARP-1 WALK TO BRKT-2 ( TO DO NEXT SECTION OF BOARDS? CARP2 ALSOMOVES TO ANOTHER BRACKET )
A1O BO GO 40 BO PO AO 1.00 100.
TOTAL TMU 290.
PAGE 409
DATA SYNTHESIS AND BACK-UP
391. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER STANCHION OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING STANCHION READY T0 BE* ...TRANSPORTED,
CARP-3 BEGINS AT LU-PILE
1 CARP-3 GET+PLACE WITH BEND STAN FROM BIN-2 TO BIN-2A42 B6 G3 A1 B0 P3 AO 1.00 550
TOTAL TMU 550 .
393. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING STANCHION IN THE.....* ... BRACKET SLEEVE
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PLACE WITH BEND STAN FROM TANKTOP TO BRKT-1 AND INSERT41 B6 G3 Al BO P3 A1 1.00 150.
2 CARP-1 WALK TO BRKT-2 ( 1(0 NEXT STANCHION )A1O BO GO AO BO PO AO 1.OO 100.
TOTAL TMU 250 .
394. MAKE READY HANDRAIL FOR (TRANSPORTING) WITH HAND AT TANK (OR WAY)CARPENTER
PER HANDRAIL OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING HANDRAIL ON BOLSTERS* ...S0 THAT THE CRANE CAN TRANSPORT IT
CARP-3 BEGINS AT BIN-2
1 CARP-3 GET+SLIDE HANDRAIL AT HR-PILE AND ADJUST ( ON BOLSTERS )A32 B6 G3 )43 XO 16 AO 1.00 500 ●
TOTAL TMU 500.
DATA SYNTHESIS AND BACK-UP
396. SET-UP HANDRAIL ON STANCHION WITH HAND AT TANK CARPENTERPER HANDRAIL OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS PUTTING HANDRAIL INTO THE....* ...EYELETS ON THE STANCHION* INCLUDES ACTION DISTANCES NEEDED FOR,....* ...ALIGNING THE HANDRAIL* WELDING OF THE HANDRAIL CONNECTIONS WILL* ...BE DONE IN A SEPARATE SUB OPERATION
CARP-I BEGINS AT SRKT-1
1 CARP-1 GET+SLIDE WITH BEND HANDRAIL AT BRKT-2 AND ALIGN ( THRU 2EYELETS ON THE STANCHIONS AT BRKT1 & BRKT2 ) RETURN TO BRKT-1 PF 2( 4 5 6 )
A1O B6 G3 (H3 XO 110 )A1O (2) 1.00 55042 CARP-1 WALK TO BRKT(T-2 ( DO NEXT SECTION )
A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 650,
397, SET-UP HANDRAIL (END PIECES) ON HANDRAIL (AND BULKHEAD) WITH HAND ATTANK CARPENTER
PER HANDRAIL OFG: 4 02-FEB-82REPRESENTS ELAPSED TIMEEE* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END-OF A STAGING LEVEL* WELDING OF THE HANDRAIL (END PIECES)***+*...CONNECTIONS WILL BE DONE IN A.....* ...SEPARATE SUB OPERATION
CARP-1 BEGINS AT BRKT-I
1 CARP-1 GET+HOLD WITH BEND HANDRAILAl B6 G3 Al
2 PTIME 1.O2 M ( CUT HANDRAIL INTO 2
FROM TANKTOP TO CARP-1R() P0 A0 1.00 110.PIECES WITH ELECTRODE )
1.OO 1700.3 CARP-1 GET+PLACE 2 HANDRAIL ( END PIECES ) FR(Jfl CARP-1 TO BRKT-1 F 2
A1. BO G3 Al BO P3 AO 2.00 160.
TOTAL T?fU 1970..
PAGE 412
DATA SYNTHESIS AND BACK-UP
398. TEAR DOWN HANDRAIL ON BULKHEAB WITH TORCH AT (CENTER) MID TANKS ANDVOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ...CENTER TANK, HANDRAIL IS THROWN TO A* ...MATERIAL PILE ON THE TANKTOP.* CARPENTERS REMOVE 2 HADNRAIL BEFORE......*...MOVING TO NEXT SECTION.CARP-1 BEGINS AT BULKHEAD
1 CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-1Al BO G1 HI XO 10 Al 1.00 40.
2 CARP-1 OPERATE TORCH AT BRKT-1 PTIME 0.26 M ( BURN OFF HANDRAIL )Al RO G1 H6 X42 IO AO 1.00 500.
3 CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO CARP-2 SIMO<Al BO G3 Al BO PO AO > 1.OO 0.
4 CARP-2 HOLD+THROW HANDRAIL FROM CARP-2 TO MATL-PILEAO RO GO Al BO PO AO 1.00 10.
5 CARP-1 AND CARP2 WALK TO BRKT-2 F 1 / 2A1O BO GO AO BO PO AO 0.50 5O.
TOTAL TMU 600.
PAGE 413
DATA SYNTHESIS AND BACK-UP
399. TEAR DOWN HANTIRAIL ON BULKHEAD WITH TORCH (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ... WING TANK. HANDRAIL IS LOWERED TO THE* ...MATL-PILE WITH A WINCH BECAUSE THE...* ...TANK IS TO SMALL FOR THE HANDRAIL TO* ...BE THROWN.* CARPENTERS REMOVE 2 HANDRAIL BEFORE.+...* ...MOVING TO THE NEXT SECTION** MAXIMUM NUMBERS OF HANDRAIL IN LIFT = 6CARP-1 BEGINS AT BULKHEAD
1 CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-1Al EO GI Hi XO IO Al 1.00 40.
2 CARP-1 OPERATE TORCH AT BRKT-1 PTIME O.26 M ( BURN OFF HANDRAIL )Al BO G1 H6 X42 IO AO 1.00 500.
3 CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO RRKT-1 SIMO<A1 BO G3 Al BO PO AO > 1.00 0.
4 CARP-2 HOLD+PLACE HANDRAIL FROM BRKT-1 TO BRKT-PILEAO BO GO A1O B6 P3 AO 1.OO 190.
5 WINCH-C)PER LOOSEN ( = SUING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
Al B6 G1 Al BO P1 L32 AO BO PO AO 0.17 70•6 WINCH-OPER THROW CABLE FROMHENHOLE TO CARP-2 F 1 / 6
Al BO G1 Al B& PO AO a. 17 15.7 CARP-2 GET+HANIPULATE WITH BEND CABLE AT BRKT-PI1.E ( HOOK CABLE
AROUND HANDRAIL ) F 1 / 6Al B6 G3 M1O XO IO A0 0.17 33•
8 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6Al BO El H1 X67 IO A0 0.17 117.
9 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 6Al BO G1 Ml X81 IO AO 0.17 140.
10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO HENHOLE ) F 1 / 6Al BO G1 HI X24!510 AO 0.17 413.
11 CARP-2 AND CARP1 WALK TO BRKT-2 F 1 / 2A24 BO GO AO BO PO AO 0.50 120.
TOTAL TMU 1638.
PAGE 414
DATA SYNTHESIS AND BACK-UP
400. TEAR DOWN STANCHION ON BULKHEAD WITHVOIDS CARPENTER
PER STANCHION DFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
HAND AT (CENTER) MID TANKS AND
* REPRESENTS REMOVING STANCHION FROM.....* ...STAGING BRACKETS IN A CENTER TANK.* ...STANCHION IS THROWN TO A MATERIAL...* ...PILE ON THE TANKTOP
CARP-2 BEGINS AT BRKT-1
1 CARP-2 LOOSEN STAN AT ERKT-1 4 ARM-STROKES USING HANDSAl B0 G1 Al BO P1 L24 AO B0 PO AO 1.00 280 l
2 CARP-2 HOLD+THROW STAN FROM BRKT-1 TO MATL-PILEAO B0 GO Al BO PO AO 1.OO 10.
3 CARP-2 WALK TO BRKT-2A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 390.
402. TEAR DOWN STAGING PLANK ON STAGING BRACKET WITH HAND (AND WINCH) AT ANTANKS AND VOIDS CARPENTER
PER STAGING PLANK OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS REMOVING BOARDS FROM ANY TANK* ...WINCH IS USED TO LOWER BOARD TO......* ...BD-PIL.E ON TANKTOP.* MAXIMUM NUMBER OF BOARDS IN LIFT = 3CARP-1 BEGINS AT BULKHEAD
1
2
3
4
5
6
7
CARP-1 AND CARP2 GET+MANIPULATE WITH BEND BOARD AT BRKT-1 ( FLIP 2BOARDS ONTO 3RD BOARD )
Al B6 G3 M1O XO I0 AO 1.00 200.WINCH-OPER LOOSEN ( =SWING ) WITH BEND CABLE AT BTRWTH 5 ARM-STROKEUSING HANDS F 1 / 3
A1 B6 G1 Al BO P1 L32 AO BO PO AO O.33 140.WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-1 WITH BEND F 1 / 3
Al BO G1 Al B6 PO AO 0.33 30.CARP-1 GET+MANIPULATE WITH BEND CABLE AT BRKT-1 ( HOOK CABLE AROUNDBOARD ALLOW FOR 2 ATTEMPTS ) F 2 / 3
Al B6 G3 M1O X0 IO AO 0.67 133.WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
Al BO G1 MI X67 I0 AO 0.33 233.WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO BD PILE ) F 1 / 3
Al BO G1 Ml X81 I0 AO 0.33 280.WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 3
Al BO Gl Ml X245I0 A0 0.33 827.
DATA SYNTHESIS AND BACK-UP
8 CARP-1 AND CARP2 WALK TO BRKT-2A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 1943.
403. TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAD WITH TORCH (AND WINCH)AT ANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 3 O5-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...LADDER CLIPS THROWN TO MATL-PILE.CARP-1 BEGINS AT BRKT-2
1 CARP-1 PULL TORCH AT LDRA1O BO G1 Ml XO IO AO 1.00 120.
2 CARP-1 OPERATE TORCH AT LDR PTIME 0.47 M F 4 ( BURN OFF 4 CLIPS )Al BO G1 H6 X81 IO AO 4.OO 3560•
3 CARP-1 GET+THROW 4 LCLIPS FROM LDR TO MATL-PILE WITHOUT BEND F 4A1 BO G3 Al B0 PO AO 4.00 200.
4 CARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWN ONBOARDS )
Al BO G3 A1O B6 P6 AO 1.OO 260.5 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKES
USING HANDSA1 B6 G1 Al BO P1 L32 AO BO PO AO 1.00 420.
6 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BENDAl BO G1 Al B6 PO AO 1.OO 90.
7 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND LADR )A1 B6 G3 M1O XO I0 AO 1.00 200.
8 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )Al BO G1 Ml X67 IO AO 1.00 700 .
9 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )Al BO G1 M1 X81 I0 AO 1.00 840.
10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )Al BO G1 Ml X245I0 AO 1.00 2480.
11 CARP-1 WALK TO BRKT-2A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 8970.
DATA SYNTHESIS AND BACK-UP
405. TEAR DOWN LADDER (AND WIRE ROPE) ON BULKHEAD WITH PLIER (AND WINCH) AANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 4 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING LADDER FROM BULKKHEAD* ...THERE IS 1 WIRE ROPE PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH * ...WIRE-ROPE IS THROWN TO MATL-PILE.
CARP-1 BEGINS AT BRKT-2
1
2
3
4
6
7
8
9
CARP-1 TWIST WIRE-ROPE AT LDR USING PLIER-1 ASIDE TO CARP-1Al BO G1 A1O B0 P3 C6 Al Bo PI Ao 1.00 230.
CARP-1 GET+MANIPULATE WIRE-ROPE AT LDR ( PULL. WIRE ROPE OFF BOARDAND LADDER. )
Al BO G3 M1O XO I0 AO 1.00 140.CARP-1 HOLD+THROW WIRE-ROPE FROM LDR TO MATL-PILE WITHOUT BEND
A0 BO GO Al BO P0 AO 1.OO 10.CARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWN OBOARDS )
Al BO G3 A1O B6 P6 AO 1.00 260.WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKUSING HANDS
Al B6 G1 Al BO P1 L32 AO BO PO AO 1.OO 420.WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BEND
Al BO G1 Al B6 Po Ao 1.OO 90.CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND LADR
Al B6 G3 M1O XO IO AO 1.OO 200.WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )
Al BO G1 M1 X67 IO AO 1.OO 700.WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )
Al BO G1 M1 X81 IO AO 1.00 840.10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )
A1 BO G1 M1 X245I0 AO 1.00 2480.11 CARP-1 WALK TO BRKT-2
A1O BO GO AO BO PO A0 1.OO 100.
TOTAL TMU 5470.
DATA SYNTHESIS AND BACK-UP
406. TEAR DOWN STAGING BRACKET ON BULKHEADVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
WITH WRENCH AT ANY TANKS AND
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK. BRACKETS ARE LOWERED TO* ...MATL-PILE BY WINCH.* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3
CARP-1 BEGINS AT BRKT-2
1 CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOLDAl BO G1 A1O BO P3 L3 AO BO PO AO 1.00 180.
2 CARP-1 HOLD+LOOSEN NUT AT BRKT-l 13 WRIST-STROKES USING WRENCH-1ASIDE TO CARP-1AO BO GO Al BO P3 L42 Al BO P1 AO 1.00 480.
3 CARP-1 GET+REMOVE BOLT FROM BRKT-1 TO CARP-1Al BO G3 Al BO P1 AO 1.00 60.
4 CARP-1 THROW NUT AND BOLT FROM CARP-1 TO MATL-PILE WITHOUT BENDAl BO G1 Al BO PO AO 1.00 30.
5 CARP-2 GET+PLACE BRKT FROM BRKT-1 TO BRKT-PILEAl BO G3 A1O B6 P3 AO 1.00 230.
6 WINCH-OPER.LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKESUSING HANDS F 1 / 3
Al B6 G1 Al BO P1 L32 AO BO PO AO 0.33 140.7 WINCH-OPER THROW CABLE FROM BTRUTH TO CARP-2 F 1 / 3
Al BO G1 Al B6 PO AO 0.33 30.8 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK AROUND
BRACKETS ) F 1 / 3Al B6 G3 M10 XO I0 AO 0.33 67.
9 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3Al BO G1 M1 X67 IO A0 0.33 233.
10 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 3Al BO G1 M1 X81 IO AO 0.33 280.
11 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 3Al BO G1 Ml X245I0 AO 0.33 827.
12 CARp-2 AND CARP1 WALK To BRKT-2A24 Bo Go Ao Bo po Ao 1.00 240.
TOTAL TMU 2797.
DATA SYNTHESIS AND BACK-UP
5.2 SYNTHESIS AND ANALYSIS
435. WELD STAGING BRACKET (CLIP) ON BULKHEAD (OR ANY STRUCTURE) WITH STICKELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 CLIPS.
MANUAL ELEMENT.
USING 6011 3/16 ELECTRODE OR COMPARABLE (7018 5/32).
TOTAL TMU
RATE INCLUD
OVERWELD
1063356.
438. WELD LADDER (CLIP) (SECURES LADDER) ON BULKHEAD (OR ANY STRUCTURE) WISTICK ELECTRODE AT ANY TANKS AND VOIDS (SHIP) WELDING
PER 100 LADDERS OR 400 CLIPS OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 LAUDERS (400 CLIPS)
RATE INCLUDES MANUAL ELEMENTS.
6011 3/16 ELECTRODE OR COMPARABLE (7018 5/32).
TOTAL TMU . 1701606.
440. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRODE AT ANYTANKS AND VOIDS (SHIP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS, RATE PER 100 PIECES OF AHNDRAIL
(AVG. 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEMENTS.
1 WELD HORIZONTAL 1/4’ FILLET WELD (5’ PER CONNECTION) USING 6011 3/ELECTRODE OR COMPARABLE (7018 5/32),
TOTAL TMU 196090.
PAGE 419
DATA SYNTHESIS AND BACK-UP
404. (CLIMB UP AND DOWN) MOVE OPERATOR (ON LADDER) ON BULKHEAD AT ANY TANKSAND VOIDS CARPENTER
PER LADDER OFG: 3 O5-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS CLIMBING UP AND...* ...DOWN LADDERS TO REMOVE STAGING.* AVERAGE LADDER SIZE = 12 RUNGS.CARP-1 BEGINS AT LDR
1 CARP-1 SLIDE ( CLIMB-UP ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF12 ( 34 )
(A1 )B16(G1 M3 )XO IO A0 (12) 1.OO 760.2 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) PF
12 ( 34 )(A1 )B16(G1 M1 )XO IO AO (I2) 1.00 520.
TOTAL TMU 1280.
407. REMOVE HANDRAIL ON (MATERIAL-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER HANDRAIL OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ..MANHOLE).* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6CARP-3 BEGINS AT TANKTOP
1 CARP-3 GET+SLIDE HANDRAIL ( ONTO BOLSTER ) AT MATL-PILEAl B6 G3 M3 XO IO AO 1.00 130.
2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 6Al BO G1 Ml X81 IO AO O.17 140.
3 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6Al B6 G1 Al BO P1 L32 AO BO PO AO 0.17 70.
4 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1/ 6Al BO G1 Al B6 PO AO O.17 15.
5 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUNDHANDRAIL ) F 1 / 6
Al B6 G3 M1O XO IO AO 0.17 33.6 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6
Al BO G1 M1 X67 I0 AO 0.17 117.7 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
Al BO G1 M1 X245I0 AO 0.17 413.
DATA SYNTHESIS AND BACK-UP
TOTAL TMU 918.
408. REMOVE STANCHION ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER STANCHION OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF STANCHION FROM...* ...MATL-PILE ON TANKTOP TO DECK (GOING* ...THRU MANHOLE).* MAXIMUM NUMBER OF STANCHION IN LIFT = 6CARP-3 BEGINS AT MATL-PILE
1
2
3
4
5
6
7
CARP-3 GET+PLACE WITH BENDBEND
Al B6WINC-OPER PUSH WINCH-DOWN
Al BOWINCH-OPER LOOSEN ( =SWINGARM-STROKES USING HANDS F
A1 B6 G1 A1 Bo P1
STAN FROM MATL-PILE TO )MATL-PILE WITH
G3 A1 B6 P3 A0 1.00 200 .PROCESS ( TO TANKTOP ) F 1 / 6G1 M1 X81 IO A0 0.17 140.) CABLE WITH BEND AT MENHOLE 51 / 6L32 A0 BO PO AO 0.17 70•
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 6Al BO G1 Al B6 PO AO O.17 15.
CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUNDSTANCHION ) F 1 / 6
Al B6 G3 M1O XO IO AO O.17 33.WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6
Al BO G1 M1 X67 IO AO 0.17 117.WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
Al BO G1 M1 X245I0 AO 0.17 413.
TOTAL TMU 988.
DATA SYNTHESIS AND BACK-UP
409. REMOVE STAGING BRACKET ON (MATERIAL PILE) WITH WINCH AT ANY TANKS ANDUOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKET FROM MATL* ... PILE ON TANKTOP TO DECK (GOING THRU* ... MANHOLE).* MAXIMUM NUMBER OF BRACKET IN LIFT = 3CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+PLACE WITH BEND BRKT FROM MATL-PILE TO MATL-PILE WITHBEND
Al B6 G3 Al B6 P3 AO 1.00 200.2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3
Al BO G1 M1 X81 IO AO 0.33 280.3 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5
ARM-STROKES USING HANDS F 1 / 3Al B6 G1 Al BO P1 L32 AO BO PO AO 0.33 140.
4 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3A1 BO G1 Al B6 PO AO 0.33 30.
5 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUNDBRACKET ) F 1 / 3
A1 B6 G3 M1O XO IO 40 0.33 67.6 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
Al BO G1 M1 X67 IO AO 0.33 233.7 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
Al BO G1 M1 X245I0 AO 0.33 827.
TOTAL TMU 1777.
DATA SYNTHESIS AND BACK-UP
410. REMOVE STAGING PLANK ON (BOARD PILE) WITH WINCH AT ANY TANKS AND VOIDCARPENTER
PER STAGING PLANK OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING BOARDS FROM BOARDS...* ...-PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE).* MAXIMUM NUMBER OF BOARDS IN LIFT = 3CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+SLIDE BOARD ( ONTO BOLSTER ) AT BD-PILE AND ADJUSTA16 B6 63 M3 XO I6 AO 1.00 340.
2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3Al BO G1 M1 X81 IO AO 0.33 280.
3 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES. USING HANDS F 1 / 3Al B6 G1 Al BO P1 L32 AO BO PO AO 0.33 140.
4 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3Al BO G1 Al B6 PO AO 0.33 30.
5 CARP-3 GET+MANIPULATE WITH BEND CABLE AT BD-PILE ( HOOK AROUNDBOARDS ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 3
A1 B6 G3 M1O XO IO AO 0.67 133.6 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
Al BO G1 MI X67 IO AO O.33 233.7 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
Al BO G1 M1 X245I0 AO O.33 827.
TOTAL TMU 1983.
DATA SYNTHESIS AND BACK-UP
411. REMOVE LADDER ON (LADDER-PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER LADDER OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENT REMOVING LADDERS FROM LADDER* ...-PILE ON TANKTOP TO DECK (GOES THRU..* ...MANHOLE).* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
CARP-3 BEGINS AT BD-PILE
1 CARP-3 GET+SLIDE LADR ( ONTO BOLSTER ) AT LDR-PILE AND ADJUSTA16 B6 G3 M3 XO 16 AO 1.00 340.
2 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP ) F 1 / 3A1 BO G1 M1 X81 IO AO 0.33 280.
3 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 3Al B6 G2 Al BO P1 L32 A0 BO PO AO 0.33 140.
4 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3 F 1 / 3Al BO G1 A1 B6 PO AO 0.33 30.
5 CARP-3 GET+MANIPULATE WITH BEND CABLE AT LDR-PILE ( HOOK AROUNDLADDERS. ) ( ALLOW FOR 2 ATTEMPTS ) F 2 / 3
Al B6 G3 M1O XO IO AO 0.67 133.6 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
Al BO G1 M1 X67 IO A0 0.33 233.7 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 3
Al BO G1 M1 X245I0 AO 0.33 827.
TOTAL TMU 1983.
DATA SYNTHESIS AND BACK-UP
412. REMOVE TOOLBOX ON (MATERIAL PILE) WITH WINCH AT ANY TANKS AND VOIDSCARPENTER
PER TOOLBOX OFG: 3 08-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING TOOLBOX FROM MATL...* ...-PILEON TANKTOP TO DECK (GOES THRU...* ...MANHOLE).* TOOLBOX CONTAINS:* ...28 BOLTS* ...28 NUTS* ...28 LADDER CLIPSCARP-3 BEGINS AT LDR-PILE
1 CARP-3 GET+PLACE 7 NUTS AND 7 BOLTS FROM MATL-PILE TO TOOLBOX-1 WIBEND (TOTAL OF 28)PF 4 (23456)
A32 (B6 G3 Al B6 P3 )AO (4) 1.00 1080.2 CARP-3 GET+PLACE WITH BEND 4 LCLIPS FROM MATL-PILE TO TOOLBOX-1 WI
BEND ( TOTAL OF 28 ) F 7A1 B6 G3 Al B6 P3 AO 7.00 1400.
3 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP )A1 BO G1 M1 X81 IO A0 1.00 840.
4 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS
Al B6 G1 Al BO P1 L32 A0 BO PO AO 1.00 4204.5 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3
Al BO G1 Al B6 PO AO 1.00 90.6 CARP-3 GET+MANIPULATE WITH BEND CABLE AT MATL-PILE ( HOOK AROUND
TOOLBOX )Al B6 G3 M10 XO IO AO 1.00 200.
7 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) Al BO G1 M1 X67 IO AO 1.00 700.
8 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE )Al BO GI M1 X245I0 AO 1.00 2480.
TOTAL TMU 7210
DATA SYNTHESIS AND BACK-UP
564. TRANSPORT LADDER WITH (TOWER CRANE) AT (WING) TANKS AND VOIDS CARPENTPER LADDER OFG: 3 23-MAY-83REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING LADDERS FROM* ...LDR-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LDR-PILE* ...AND FROM LDR-PILE TO BULKHEAD ARE* ...AVERAGE DISTANCE FROM SIDE OF BASIN* ...1200’x200’* MAXIMUM NUMBER OF LADDERS IN LIFT = 3
C-OPER BEGINS AT CR-1
1 TRANSPORT LADR FROM LDR-PILE USING CRANE WITH HOOK+SLING TO BULKHE( AT. LDR ) PLACE+ADJUST RETURN TO CR-1 F 1 / 3
Al T32 K24 T16 P3 T32 AO 0.33 3600.
TOTAL TMU 3600.
565. TRANSPORT STAGING PLANK WITH (TOWER CRANE) AT (WING) TANKS AND VOIDSCARPENTER
PER STAGING PLANK OFG: 3 23-HAY-83REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* ...LU-PILE TO BULKHEAD* DISTANCES FROM CRANE-REST TO LU-PILE AND * ...FROM LU-PILE TO BULKHEAD ARE AVERAGE* ...DISTANCES FROM THE SIDE OF A BASIN* ...12OO’X2OO’* MAXIMUM NUMBER OF BOARDS IN LIFT = 3C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM LU-PILE USING CRANE WITH HOOK+SLING TO BULKHE( BTWN BRKTS ) PLACE+MANEUVER RETURN TO CR-1 F 1 / 3
Al T32 K24 T16 P16 T32 AO 0.33 4033 .
TOTAL TMU 4033.
DATA SYNTHESIS AND BACK-UP
132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW). RATE IN ELAPSED TIMMULT BY 6 TO OBTAIN TOTAL TIME,
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS AND 2 UNHOOKS PER (1) .....* ...8-HR SHIFT* --(1) OCCURRENCE FOR IGNITE AND.........* ....EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-OP...* ...FRO NUMBER OF CUTS >1 USE THE ......* ...FORMULA: FREQ = 1+ [(N-1) X .23]....
* ...WHERE 'N' = THE NUMBER OF CUTS(BURNS)TOTAL TMU 2900.0
Combined sub-operation elements FreQ, TMU-------------------- ----------- ----- ----
9, HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
8.00 224010. IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
1.OO 660----
Total TMU 2900.
DATA SYNTHESIS AND BACK-UP
376. SET-UP (STAGING CLIP) ON BULKHEAD WITH HAMMER (AND STEEL-TAPE) AT TANKCARPENTER
PER STAGING CLIP OFG: 4 01-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A STAGING CLIP ON* ...THE BULKHEAD* WELDING OF THE CLIP WILL BE DONE IN A...* ...SEPARATE SUB OPERATION
CARP-1 BEGINS.AT TANKTOP
1 CARP-1 MEASURE AT BRKT-1 USING STEEL-TAPE-1 ASIDE TO CARP-1Al BO G1 Al BO P1 M32 A1 BO P1 AO 1.00 380.
2 CARP-1 LOOSEN PAINT ON BHD AT BRKT-1 4 STRIKES USING HAMMER-1 ASIDETO CARP-1Al BO G1 Al BO PO L1O Al BO P1 AO 1.OO 150.
3 CARP-1 GET+PLACE WITH BEND SCLIP FROM TOOLBOX-2 TO BRKT-1 ( TACKINGUPON PLACEMENT )
Al B6 G3 Al BO P3 AO 1.OO 140.
TOTAL TMU 670.
377. MAKE READY STAGING BRACKET FOR (TRANSPORTING) WITH HAND AT TANK (ORWAY) CARPENTER
PER STAGING BRACKET OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS GETTING BRACKET READY TO BE..* ...TRANSPORTED TO TANK OR BULKHEAD* CARPENTER IS LOCATED EITHER ON THE WAY..* ...OR IN TANK AT THE MATERIAL (BIN-1)CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+PLACE WITH BENDAl B6
2 CARP-3 GET+PLACE WITH BENDBOLT IN BRKT
Al B63 CARP-3 FASTEN NUT AT BIN-1
Al BO G1 Al BO PI4 CARP-3 GET+PLACE BRKT FROM
TRANSPORTATION )Al BO
BRKT FROM BIN-1 TO BIN-1G3 Al BO P3 AO 1.OO 140.BOLT FROM TOOLBOX-1 TO BIN-1 AND INSERT
G3 A1 BO P3 Al 1.OO 150.4 WRIST-TURNS USING HANDSF1O AO BO PO AO 1.00 140.BIN-1 TO BIN-1 ( PILE UP BRKTS FOR
G3 Al BO P3 AO 1.00 80•
TOTAL TMU 510.
DATA-SYNTHESIS AND BACK-UP
383. SET-UP (ACCESS) LADDER ON BULKHEAD WITH HAND AT TANK CARPENTERPER LADDER OFG: 3 01-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP AN ACCESS LADDER..* ...ON THE BULKHEAD SO THAT THE CARPENTER* ...CAN CLIMB TO THE NEXT LADDER.* ALSO INCLUDES CLIMBING UP AND DOWN THE..* ...LADDER.* AVERAGE NUMBER OF RUNGS = 12CARP-1 BEGINS AT TANKTOP
1 CARP-1 GET+PLACE WITH BEND LADR FROM TANKTOP TO LDRB6 G3 Al B0 P3 A0 1.00 140.
2 CARP-1 SLIDE ( CLIMB-Up ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 ) P12 ( 34 )
(A1 )B16(G1 M3 )XO IO AO (12) 1.OO 760.3 CARP-1 PULL ( CLIMB-DOWN ) LADDER AT LDR ( 12 RUNGS ) PF 12 ( 1 )
12 ( 34 )(A1 )B16(G1 Ml )XO IO AO (12) 1.00 520.
TOTAL TMU 1420.
384. POSITION (SECURE) (ACCESS) LADDER FOR BULKHEAD WITH HAMMER (AND LADDECLIPS) AT TANK CARPENTER
PER LADDER OFG: 3 03-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS SECURING A LADDER TO THE....* ...BULKHEAD USING 4 LADDER CLIPS* WELDING OF CLIPS WILL BE DONE IN A....* ...SEPARATE SUB OPERATIONCARP-1 BEGINS AT LDR
1 CARP-1 LOOSEN 4 PAINT ON BHD AT LDR 4 STRIKES USING HAMMER-1 ASIDETO CARP-1
A1 BO G1 AO B0 (PO Al L1O )A1 BO P1 A0 (4) 1.00 480.2 CARP-2 GET+PLACE WITH BEND 4 LCLIPS FROM TOOLBOX-2 TO LDR ( TACKIN
UPON PLACEMENT ) PF 4 ( 6 )A1 B6 G3 Al B0 (P3 )AO (4) 1.00 230.
TOTAL TMU 710.
DATA SYNTHESIS AND BACK-UP
388. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT TANK CARPENTERPER BOARD OFG: 3 02-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP BOARDS BETWEEN....* ...BRACKETS.* TWO MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ..BRACKETS, THEY BOTH LIFT THE BOARD....* ..TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE LEVEL BELOW THE BOARDS.
CARP-1 BEGINS AT BRKT-1
1 CARP-l+CARP-2 GET+SLIDE WITH 1 STEP BOARD AT BRKT-1 AND ALIGNA3 BO G3 M3 XO I1O AO 1.00 190.
2 CARP-1 WALK TO BRKT-2 ( TO DO NEXT SECTION OF BOARDS, CARP2 ALSOMOVES TO ANOTHER BRACKET )
A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 290.
393. SET-UP STANCHION IN STAGING BRACKET WITH HAND AT TANK CARPENTERPER STANCHION OFG: 3 02-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING STANCHION IN THE.....*....BRACKET SLEEVE.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PLACE WITH BEND STAN FROM TANKTOP TO BRKT-1 AND INSERTAl B6 G3 Al BO P3 Al 1.OO 150.
2 CARP-1 WALK TO BRKT-2 ( DO NEXT STANCHION )A10 BO GO AO BO PO AO 1.OO 100.
TOTAL TMU 250.
DATA SYNTHESIS AND BACK-UP
399. TEAR DOWN HANDRAIL ON BULKHEAD WITH TORCH (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTER
PER HANDRAIL OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL IN A...* ...WING TANK, HANDRAIL IS LOWERED TO THE* ....MATL-PILE WITH A WINCH BECAUSE THE...* ...TANK IS TO SMALL FOR THE HANDRAIL TO* ...BE THROWN.* CARPENTERS REMOVE 2 HANDRAIL BEFORE.....* ...MOVING TO THE NEXT SECTION.* MAXIMUM NUMBERS OF HANDRAIL IN LIFT = 6CARP-1 BEGINS AT BULKHEAD
6
7
8
9
CARP-1 PULL TORCH FROM BULKHEAD TO BRKT-1Al BO G1 M1 XO IO Al 1.OO 40.
CARP-1 OPERATE TORCH AT BRKT-1 PTIME 0.26 ) ( BURN OFF HANDRAIL )Al BO G1 M6 X42 IO AO 1.00 500 .
CARP-2 GET+HOLD HANDRAIL FROM BRKT-1 TO BRKT-1 SIMO<Al BO G3 Al BO PO AO > 1.OO 0.
CARP-2 HOLD+PLACE HANDRAIL FROM BRKT-1 TO BRKT-PILEA0 BO GO A1O B6 P3 AO 1.OO 190.
WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6
Al B6 G1 Al BO P1 L32 AO BO PO AO 0.17 70.WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-2 F 1 / 6
Al BO G1 Al B6 PO AO 0.17 15.CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PIL.E ( HOOK CABLEAROUND HANDRAIL ) F 1 / 6
Al B6 G3 M1O XO IO AO 0.17 33.WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 6
Al BO G1 M1 X67 IO A0 0.17 117.WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 6
Al BO G1 M1 X81 IO A0 0.17 140.10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE ) F 1 / 6
Al B0 G1 M1 X245I0 A0 0.17 413.11 CARP-2 AND CARP1 WALK TO BRKT-2 F 1 / 2
A24 B0 GO AO BO PO AO 0.50 120.
TOTAL TMU 1638•
DATA SYNTHESIS AND BACK-UP
401. TEAR DOWN STANCHION ON BULKHEAD WITH HAND (AND WINCH) AT (WING) TANKSAND VOIDS CARPENTER
PER STANCHION OFG: 3 04-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN STANCHION IN A..* ...WING TANK, STANCHION IS LOWERED TO...* ...THE MATL-PILE WITH A WINCH BECAUSE...* ...THE TANK IS TO SMALL FOR THE........* ...STANCHION TO BE THROWN.* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6
CARP-2 BEGINS AT BRKT-PILE
1
2
3
4
5
6
7
8
9
CARP-2 LOOSEN STAN AT BRKT-1 4 ARM-STROKESAl B0 G1 A10 B0 P1 L24 A0 B0 P0
USING HANDSh0 1.00 370.
CARP-2 H0LIJ+PLACE STAN FROM BRKT-1 TO BRKT-PILEA0 R0 G0 Al0 B6 P3 A0 1*00 190.
WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDS F 1 / 6Al B6 G1 Al B0 P1 L32 A0 B0 P0 A0 0.17 70.
WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-2 F 1 / 6Al B0 G1 Al B6 P0 A0 0.17 15.
CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK CABLEAROUND STANCHIONS ) F 1 / 6
Al B6 G3 M10WINCH-OPER PUSH WINCH-FREE PROCESS
A1 B0 G1 M1UINCH-OPER PUSH WINCH-DOWN PROCESS
Al B0 G1 M1WINCH-OPER PUSH WINCH-UP PROCESS (
Al D0 G1 M1CARP-2 WALK TO BRKT-2
A24 B0 Go A0
X0 I0 A0 0.17 3( CLEAR OBSTACLES ) F 1 / 6X67 I0 A0 0.17 117.( TO MATL PILE ) F 1 / 6X81 I0 A0 0.17 140.TO MENHOLE ) F 1 / 6X245I0 A0 0.17 413.
B0 P0 A0 1.00 240.
TOTAL TMU 1588.
DATA SYNTHESIS AND BACK-UP
403. TEAR DOWN LADDER (AND LADDER CLIPS) ON BULKHEAD WITH TORCH (AND WINCHAT ANY TANKS AND VOIDS CARPENTER
PER LADDER OFG: 3 05-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING LADDER FROM BULKHEAD* ...THERE ARE 4 LADDER CLIPS PER LADDER.* ...LADDER LOWERED TO LDR-PILE BY WINCH* ...LADDER CLIPS THROWN TO MATL-PILE.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 PULL TORCH AT LDRA10 B0 G1 Ml X0 I0 A0 1.OO 120.
2 CARP-1 OPERATE TORCH AT LDR PTIME 0.47 M F 4 ( BURN OFF 4 CLIPS )Al B0 G1 M6 X81 I0 A0 4.00 3560.
3 CARP-1 GET+THROW 4 LCLIPS FROM LDR TO MATL-PILE WITHOUT BEND F 4- Al B0 G3 Al B0 PO A0 4.00 200.
4 CARP-2 GET+POSITION LADR FROM LDR TO BRKT-2 WITH BEND ( LAY DOWN OBOARDS )
Al B0 G3 A10 B6 P6 A0 1.00 260.5 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROK
USING HANDSAl B6 G1 Al B0 P1 L32 A0 B0 P0 A0 1.00 420.
6 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 WITH BENDAl B0 G1 Al B6 PO A0 1.OO 90.
7 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-2 ( HOOK AROUND LADRAl B6 G3 M10 X0 IO A0 1.OO
8 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )Al BO G1 M1 X67 I0 A0 1.OO
9 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO LDR PILE )Al B0 G1 Ml X81 IO A0 1.OO
10 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH )Al B0 G1 Ml X245I0 A0 1.00
11 CARP-1 WALK TO BRKT-2A10 B0 G0 A0 B0 P0 A0 1.OO
TOTAL TMU
200.l
700.
840.
2480.
100.
8970.
PAGE 437
DATA SYNTHESIS AND BACK-UP
406. TEAR DOWN STAGING BRACKET ON BULKHEAD WITH WRENCH AT ANY TANKS ANDVOIDS CARPENTER
PER STAGING BRACKET OFG: 3 05-FEB-82REPRESENTS ELAPSED) TIME
* REPRESENTS TEARING DOWN STAGING BRACKET* ...IN ANY TANK BRACKETS ARE LOWERED TO* ...MATL-P.ILE BY WINCH.* MAXIMUM NUMBER OF BRACKETS IN LIFT = 3
CARP-1 BEGINS AT BRKT-2
1 CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOLDAl BO G1 A1O BO P3 L3 AO BO PO 40 1.00 180+
2 CARP-1 HOLD+LOOSEN NUT AT BRKT-1 13 WRIST-STROKES USING WRENCH-1ASIDE TO CARP-1AO BO GO Al BO P3 L42 Al BO P1 AO 1.OO 480.
3 CARP-1 GET+REMOVE BOLT FROM BRKT-1 TO CARP-1Al BO G3 Al BO P1 AO 1.00 60.
4 CARP-1 THROW NUT AND BOLT FROM CARP-1 TO MATL-PILE WITHOUT BENDAl BO G1 Al BO PO AO 1.00 30.
5 CARP-2 GET+PLACE BRKT FROM BRKT-1 TO BRKT-PILEAl BO G3 A1O B6 P3 AO 1.00 230.
6 WINCH-OPER LOOSEN ( =SWING ) CABLE WITH BEND AT BTRWTH 5 ARM-STROKESUSING HANDS F 1 / 3Al B6 G1 Al BO P1 L32 AO BO PO AO 0.33 140.
7 WINCH-OPER THROW CABLE FROM BTRWTH TO CARP-2 F 1 / 3Al BO G1 Al B6 PO AO 0.33 30.
8 CARP-2 GET+MANIPULATE WITH BEND CABLE AT BRKT-PILE ( HOOK AROUNDBRACKETS ) F 1 / 3
Al B6 G3 M1O XO IO AO 0.33 67•9 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES ) F 1 / 3
Al BO G1 M1 X67 IO AO 0.33 233 .10 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO MATL PILE ) F 1 / 3
A1 BO G1 M1 X81 IO AO 0.33 280.11 WINCH-OPER PUSH WINCH-UP PROCESS ( TO BTRWTH ) F 1 / 3
Al BO G1 M1 X245I0 A0 0.33 827.12 CARP-2 AND cARP1 WALK To BRKT-2
A24 BO GO AO BO PO AO 1.00 240.
TOTAL TMU 2797.
DATA SYNTHESIS AND BACK-UP
569. SET-UP STAGING BRACKET ON WEB FRAME WITH WRENCH AT ( WING ) TANKS ANDVOIDS CARPENTER
PER STAGING BRACKET OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING UP A STAGING BRACKET* ...ON A EXISTING STAGING CLIP ( LOCATED* ...ON A WEB FRAME ) CARP-1 BEGINS AT WING-TANK
DATA SYNTHESIS AND BACK-UP
573. SET-UP STAGING PLANK ON STAGING BRACKET WITH HAND AT ( WING ) TANKS AVOIDS CARPENTER
PER STAGING FLANK OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS SPREADING BOARDS BETWEEN WEBS* 2 MAN OPERATION:* CARPENTERS ARE LOCATED AT TWO DIFFERENT* ...WEBS, THEY BOTH PICK UP THE BOARD* ...TOGETHER AND SLIDE IT INTO POSITION.* IN THIS ANALYSIS CARPENTERS ARE LOCATED* ...ON THE SAME LEVEL AS THE BOARDS.CARP-1 BEGINS AT WEB-1
1 CARP-1 AND CARP2 GET+SLIDE WITH BEND WITH 1 STEP BOARD AT WEB-1 ANALIGN
A3 B6 G3 H3 *(I I10 A0 1400 250.2 CARP-1 WALK TO WEB-2 ( TO DO NEXT SECTION OF BOARDSS CARP2 ALSO
MOVES TO ANOTHER BRACKET )A1O BO GO AO BO PO AO 1.00 100.
TOTAL TMU 350.
TOTAL TMU 420.
DATA SYNTHESIS AND BACK-UP
579. SET-UP HANDRAIL ( END PIECES ) ON ( HANDRAIL AND ) BULKHEAD WITH HANDAT ( WING ) TANKS AND VOIDS CARPENTER
PER HANDRAIL OFG: 4 24-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS PUTTING HANDRAIL (END PIECES)* ...AT THE END OF A STAGING LEVEL* WELDING OF THE HANDRAIL ( END PIECES )* ... CONNECTIONS WILL BE DONE IN A* ...SEPARATE SUB OPERATIONCARP-1 BEGINS AT WEB-1
1 CARP-1 GET+HOLD WITH BEND HANDRAILAl B6 G3 Al
2 PTIME 1.02 M ( CUT HANDRAIL INTO 2
FROM WING-TANK TO CARP-1BO PO AO 1.00 11O.PIECES WITH ELECTRODE )
1.00 1700.3 CARP-1 GET+PLACE 2 HANDRAIL ( END PIECES ) FROM CARP-1 TO WEB-1 F
Al B0 G3 Al BO P3 AO 2.OO 160.
TOTAL TMU 1970
1 CARP-1 MEASURE AT WEB-1 USING STEEL-TAPE-1 ASIDE TO CARP-1Al BO G1 Al Bo. P1 M32 Al BO P1 AO 1.OO 380.
2 CARP-1 LOOSEN PAINT ON WEB AT WEB-1 4 STRIKES USING HAMMER-1 ASIDETO CARP-1
Al BO G1 Al BO PO L1O Al BO P1 AO 1.00 150.3 CARP-1 GET+PLACE WITH BEND SCLIP FROM TOOLBOX-2 TO WEB-1 ( TACKING
UPON PLACEMENT )Al B6 G3 A1 BO P3 AO 1.00 140.
TOTAL TMU 670.
DATA SYNTHESIS AND BACK-UP
5.2 SYNTHESIS AND ANALYSIS
545. ASSEMBLE I-BEAMS FOR TANK STAGING PLATFORM WITH WRENCH AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER WORKS ALONE BOLTING I-BEAMS* STEPS:* 1-4 ARE FOR THE CONNECTIONS OF I-6 & I-7* ...AT I-l,I-2,I-3,I-4, AND I-5* 5,6 ARE FOR MOVEMENT OF THE CARPENTER* ...BETWEEN THE CONNECTIONS
CARP-1 BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 GET+POSITION 4 BOLTS FROM TOOLBOX-1 TO I-1 WITH BEND ANDINSERT BOLT PF 4 (4 5 6 7)F1O
A1 B6 G3 (Al B6 P6 Al ) 10.00 6600.2 CARP-1 GET+POSITION WITH BEND 4 WASHERS AND NUTS FROM TOOLBOX-1 TO
I-1 WITH BEND PF 8 (4 5 6) F 1OAl B6 G3 (Al B6 P6 )AO (8) 10.00 11400.
3 CARP-1 FASTEN 4 NUTS AT I-1 13 SPINS DIFFICULT USING FINGERS F 10Al BO G1 AO BO (P6 A1 F16 )AO BO PO AO (4) 10.00 9400.4 CARP-1 FASTEN 4 NUTS AT I-1 13 WRIST-STROKES DIFFICULT USING WRENCH
ASIDE TO CARP-1 F 10Al BO G1 AO BO (P1O A1 F 42 )A1 BO P1 AO (4) 10.OO 21600.5 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 PF 10 (
2 ) PF1O ( 56 )Al (B32 )G3 A16 (B6 P3 )AO (10) 1.OO 4300.
6 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-5 ( AT, I-6 ) TO I-5 (AT. I-7 ) WITH 10 STEPS WITH BEND
Al B6 G3 A16 B6 P3 AO 1.00 350 .
TOTAL TMU 53650.
DATA SYNTHESIS AND BACK-UP
13 CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-l FROM I-3 TO I-1 WITH10 STEPS PF3(2)PF3 (56)
A1 (B32 )G3 A16 (B6 P3 )Ao (3) 1.00 1430.14 CARP-1 GET+POSITION ANGLE FROM A-6 TO I-1 ( AT. A-6 ) F 10
Al B6 G3 Al B6 P6 AO 10.00 2300{15 CARP-1 GET+POSITION WITH BEND 2 BOLTS FROM TOOLBOX-1 TO I-1 WITH
BEND AND INSERT BOLT PF 2 ( 4 5 6 7 ) F 10Al B6 G3 (Al B6 P6 Al ) 10.00 3800 .
16 CARP-1 GET+PLACE WITH BEND 2 WASHERS AND NUTS FROM TOOLBOX-1 TO ( I-1WITH BEND PF2 (4 5 6) F1O
A1 B6 G3 (Al B6 P3 )AO (2) 10.00 3000.17 CARP-1 FASTEN 2 NUTS AT I-1 13 SPINS DIFFICULT USING FINGERS F 10A1 BO G1 AO BO (P6 Al F16 )AO BO PO AO (2) 10.OO 4800.18 CARP-1 FASTEN 2 NUTS AT I-1 13 WRIST-STROKES DIFFICULT USING WRENCH
ASIDE TO CARP-1 F 10A1 BO G1 AO BO (P1O Al F42 )Al BO P1 AO (2) 10.OO 11000.19 CARP-1 GET+PLACE WITH BEND TOOLBOX-1 FROM I-1 TO I-5 PF 10 ( 2 ) PF
10 ( 5 6 )Al (B6 )G3 A16 (B6 P3 )AO (10) 1.OO 1700 .
20 CARP-1 GET+pLACE WITH BEND TooLBOx-1 FROM I-5 ( AT* A-6 ) To I-5 (AT, A-S ) WITH 10 STEPS WITH BEND
Al B6 G3 Al6 B6 P3 AO 1.00 350.
TOTAL TMU 74030.
539. READ MATERIAL LIST (PRINT) FOR TANK STAGING PLATFORM WITH (EYES) AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME* CARPENTER READS PRINT BEFORE LAYING OUT* ...TABLE, READS 48 DIGITS PER LOCATIONCARP-1 BEGINS AT TANK-STAGING-PLATFORM
1 CARP-1 OPEN+SHUT PRINT F 6Al BO G1 M6 XO 10 AO 6.00 480.
2 CARP-1 READ 12 DIGITS F 24AO BO GO AO BO PO T1O A0 BO PO AO 24• 00 2400.
3 CARP-1 HOLD+PLACE PRINT TO CARP-1 ( IN POCKET ) F 6AO BO GO Al BO P3 AO 6.00 240.
TOTAL TMU 3120.
DATA SYNTHESIS AND BACK-UP
540. MEASURE (PLATEN) FOR TANK STAGING PLATFORM WITH (STEEL) TAF’E AT ANYPLATEN CARPENTER
PER PLATFORM OFG: 4 31-JAN-83REPRESENTS ELAPSED TIME
* REPRESENTS MEASURING TABLE FOR LAYOUT -* ANALYSIS INCLUDES ALL THE WALKING,.*** .,.DISTANCES FOR THE LAYOUT,* STEPS:* ~,3,4 ARE FoR I-1,1-2, 1-3,1-4,AND I-5S ,e,AT A-5 AND A-6.* 5?6v7 ARE FOR A-5vI-7vA-4P4-3vA-lv I-6v* ● ,eANll A-6 AT 1-5* 5r697 ARE FOR A-5r I-7PA-4~A-2?A-lv *-6vS ,,,ANll A-6 AT 1-1* ??lO~ll 4RE FOR A-2 AND A-3 AT 1-3ChRP-1 BEGINS AT STORE-2
1 CARP-1 UALK TO TANK-STAGING-PLATFORfl ( AT. I-1 ) UITH CLIMB ( ONTABLE )
A32 B16 GO AO BO PO AO 1.00 480.2 CARP-1 HEASURE AT 1-1 USING STEEL-TAPE ASIDE TO CARP-1 F 10
Al BO G1 Al B6 P1 M32 Ai BO Pi AO 10.00 4400.3 CARP-I WALK TO I-5 WITHOUT BEND F 2
A16 EO GO AO BO PO AO 2*OO 320.4 CARP-1 klALK TO 1-1 UITHOUT BENll AND RETURN TO I-5 UITHOIJT BEND F 2
A16 BO GO AO BO PO A16 2.00 640.5 CARP-1 MEASURE AT A-5 USING.STEEL-TAPE ASIDE TO CARP-1 F 14
Al BO G1 Al B6 PI M32 Al BO P1 AO 14*OO 6160.6 CARP-1 WALK TO A-6 WITHOUT BEND F 2
A24 BO GO AO BO PO AO 2.00 480.7 CARP-1 WALK TO A-5 WITHOUT BEND AND RETURN TO A-6 UITHOUT REND F 2
A24 BO GO AO BO PO A24 2400 960.S CARP-1 WALK TO I-3 WITH 6 STEPS UITHOUT BEND
A1O BO GO AO BO PO AO 1.00 100*9 CARF’-1 MEASURE htITH 8 STEPS AT A-2 USING STEEL-TAPE ASIDE TO CARP-
A16 BO G1 Al B6 P1 M32 Al BO PI AO 1*OO 590*10 CARP-1 MEASURE AT A-3 USING STEEL-TAPE ASIDE TO CARP-1
Al RO G1 A32 B6 P1 M32 Al BO P1 AO I*OO 750*11 CARP-1 UALK TO STORE-2 WITH DESCEND ( OFF TABLE )
, A42 B16 GO AO BO ~0 AO 1.00 580 ●
.
TOTAL THU 15460~
DATA SYNTHESIS AND BACK-UP
541, MARK (PLATEN) FOR TANK STAGING PLATFORM UITH MARKER AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSEKI TIME
$ REPRESENTS MARKING THE LAYOUT FOR A TANK* +*>STAGING PLATFORM AND INSPECTING blORKo* THE FOLLOUING PLACES ARE LAID OUT:a ● +,AT A-5 AND A-6:s •,,I-1~1-2~1-3?I-4~ AND 1-5* ,*,AT 1-1 AND J-5:$ ● e,A-&vl-6~A-l rA-4~1-7r AND A-5* ..,A-2 IS LAIIJ OUT AT I-3 AND I-1* +.+A-3 IS LAID OUT AT I-3 AND 1-5CARP-1 BEGINS AT TANK-STAGING-PLATFORM
i CARP-I MARK AT 1-1 5 IIIGITS USING tfARKER ASIDE TO CARP-1 F 25Al BO 61 Al 116 P1 R16 Al RO PI AO 25.00 7000,
2 CARP-1 INSPECT 5 POINTS F 25AO 1#0 GO AO BO PO T6 AO BO PO AO 2s.00 1500.
TOTAL THU 8!500.
542, TRANSPORT PALLET (I-BEAMS AND ANGLES) FOR TANK STAGING PLATFORil UITH(CRANE) AT ANY PLATEN CARPENTER
PER F’LATFORK OFG: 4 02-FEB-83REPRESENTS ELAPSEIJ TIME
* tMTERIAL NEESIEII FOR ONE PLATFORM:* . ..1-BEAMS - 7*c .,.ANGLES - 6
HOOKER-ON BEGINS AT CR-1
1 HOOKER-ON TRANSPORT PALLET FROM STORE-1 USING CRANE-1 UITH 2HOOK+SLING TO STORE-2 PLACE+ADJUST RETURN TO CR-1
Al TIO K24 T16 P3 T24 AO 1.00 7800,
TOTAL TMU 7800.
.
DATA SYNTHESIS AND BACK-UP
547.
549.
TRANSPORT STAGING PLANKS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANPLATEN CARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* BOARDS ARE TRANSPORTED FROM LUMBER PILE* ...WHICH IS LOCATED (IN THE PLATEN.* TOTAL NUMBER OF BOARDS IN LIFT = 64* TOTAL LIFTS = 2 (PORT AND STARBOARD)
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT BOARDS FROM LUMBER-PILE USING CRANE-2 WITH 2HOOK+SLING TO TANK-STAGING-PLATFORM ( AT. A-5 ) PLACE+MANEUVER
RN CRANE-2 TO CR-2 RETURN HOOKER-ON TO STORE-2 F 2Al6 T1O K24 T24 P16 T24 A16 2.OO 26000 ●
TOTAL TMU 26000 .
TRANSPORT (FINISHED) TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* TRANSPORT FINISHED PLATFORM TO A STORAGE* ...PILE
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT FIN-PLATFORM FROM TANK-STAGING-PLATFORM USINGCRANE-2TO CR-2
WITH 2 HOOK+SLING TO FIN-PILE PLACE+MANEUVER RETURN CRANEAND RETURN HOOKER-ON TO STORE-2
A16 T24 K24 T6 P16 T24 A16 1.00 12600 .
TOTAL TMU 12600.
DATA SYNTHESIS AND BACK-UP
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
WAIT 15 M ( CRANE RAISES PLATFORM JUST BELOW MAIN DECK )1.00 25005,
CARP-1 LOOSEN WITH BEND+STAND NUT ( ON SUSPENSION CABLE SHACKELS AT BTRWTH2 8 WRIST-TURNS USING HANDS F 4
Al B16 G1 Al B0 P1 L16 AO B0 PO AO 4.00 1440.CARP-1 GET+REMOVE BOLT FROM BTRWTH2 TO CARP-1 F 4
Al BO G3 Al BO P1 AO 4.OO 240.CARP-1 GET+MANIPULATE WITH BEND+STAND SUSPENSION-CABLE AT BTRWTH2AND ALIGN F 4
Al B16 G3CARP-1 GET+POSITION BOLT FROM
Al BO G3CARP-1 FASTEN WITH BEND+STANDHANDS F 4
Al B16 G1 Al BO P1 F16
M1O XO I10 AO 4.00 1600.CARP-1 TO BTRWTH2 F 4Al BO F6 AO 4.00 4404NUT AT BTRWTH2 8 WRIST-TURNS USING
AO BO PO AO 4.00 1440 ●
CARP-1 WALK TO BTRWTH4 WITH FLAT-CRAWLA24 B42 GO AO BO PO AO 1.OO 660.
WAIT 1 M ( CRANE TO LOWER PLATFORM TO TIGHTEN SLACK ON SUSPENSIONCABLE )
CARP-1 LOOSEN NUTUSING HANDS F 2
Al B6 G1 A1CARP-1 GET+REMOVE
CARP-1 GET+PICKUP
1.00 1667.WITH BEND ( ON SHACKEL ) AT BTRWTH4 8 WRIST-TUR
BO P1 L16 AO BO PO AO 2.OO 520.BOLT FROM BTRWTH4 TO CARP-1 F 2Al BO G3 Al BO P1 AO 2.00 120.WITH BEND SHACKLE FROM PLATFORM F 2Al B6 G3 Al BO PO AO 2.00 220.
CARP-1 GET+PLACE BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 2Al BO G3 Al B6 P3 Al 2.OO 300.
CARP-1 FASTEN NUT AT BTRWTH4 8 WRIST-TURNS USING HANDS F 2Al BO G1 Al RO P1 F16 AO BO PO AO 2.00 400.
CARP-1 WALK TO BTRUTH2 WITH FLAT-CRAWLA24 B42 GO AO BO PO AO 1.OO 660 ●
WAIT 5 M ( CRANE RAISES 4 CABLES OUT OF THE CENTER TANK )1.00 8335,
CARP-3 GET+PLACE CABLE-SLEEVE FROM BTRWTH4 TO MENHOLEA24 B6 G3 A32 B6 p3 AO 1.OO 740.
CARP-3 GET+PLACE CABLE-SLEEVE FROM BTRWTH2 TO MENHOLEA16 B6 G3 A16 R6 P3 AO 1.00 500.
DATA SYNTHESIS AND BACK-UP
1.00 1667.CARP-1 LOOSEN WITH BEND+STAND NUT ( ON SUSPENSION CABLE SHACKELS AT BTRWTH2 8 WRIST-TURNS USING HANDS F 4
Al B16 G1 41 BO P1 L16 AO RO PO AO 4*OO 1440.CARP-1 GET+REMOVE BOLT FROM BTRWTH2 TO CARP-1 F 4
Al Bo G3 Al Ro P1 Ao 4.00 240.CARP-1 GET+MANIPULATE WITH BEND+STAND SUSPENSION-CABLE AT BTRUTH2AND ALIGN F 4
Al B16 G3 M1O XO 110 AO 4.00 1600.CARP-1 GET+POSITION BOLT FROM CARP-1 TO BTRUTH2 F 4
Al BO G3 Al BO P6 AO 4.00 440.CARP-1 FASTEN WITH BEND+STAND NUT AT BTRWTH2 8 WRIST-TURNS USINGHANDS F 4
Al B16 G1 Al BO P1 F16 AO BO PO AO 4*OO 1440.CARP-1 WALK TO BTRWTH4 WITH FLAT-CRAWL
A24 B42 Go Ao Bo po A0 1.00 660•WAIT 15 M ( CRANE TO LOWER PLATFORM TO APPROXIMATELY 3 FEET ABOVETHE TANK-TOP )
1.00 25005•CARP-1 AND CARP2 WALK TO MENHOLE WITH CLIMB-OBJECT
A32 B32 GO AO BO PO AO 1.00 640.CARP-1 GET+MANIPULATE BLOCK FROM MENHOLE TO PLATFORM WITH 12 STEPAND ADJUST F 2
Al BO G3 H1O XO 16 A24 2.00 880 WAIT 1 M ( CRANE LOWERS PLATFORM ON 4 WOODEN BLOCKS )
CARP-1 LOOSEN NUTWRIST-TURNS USING
Al B32 G1 AlCARP-1 GET+REMOVE
CARP-1 GET+PICKUP
1.OO 1667.WITH CLIMB-OBJECT ( ON SHACKEL ) AT BTRWTH4 8HANDS F 2B6 P1 L16 AO BO PO AO 2.00 11600BOLT FROM BTRWTH4 TO CARP-1 F 2Al BO G3 Al BO P1 AO 2400 1204WITH BEND SHACKLE FROM PLATFORM F 2A1 R6 G3 Al BO PO AO 2.00 2204
CARP-1 GET+PLACE BOLT FROM CARP-1 TO BTRWTH4 AND INSERT F 2Al BO G3 Al BA P3 Al 2.OO 300 .
CARP-1 FASTEN NUT AT BTRWTH4 8 WRIST-TURNS USING HANDS F 2Al BO G1 Al BO P1 F16 AO BO PO AO 2.00
CARP-1 WALK TO BTRWTH2 WITHOUT BEND
WAIT 5 M ( CRANE
CARP-3 GET+PLACE
CARP-3 GET+PLACE
CARP-1 AND CARP2
A24 Bo GO AO BO PO A0 1.00RAISES 4 CABLES OUT OF THE CENTER TANK )
1400CABLE-SLEEVE FROM BTRWTH4 TO MENHOLEA24 B6 G3 A32 B6 P3 AO 1.OOCABLE-SLEEVE FROM BTRWTH2 TO MENHOLEA16 B6 G3 A16 B6 P3 AO 1.00WALK TO MENHOLE WITH CLIMB-OBJECTA16 B32 GO AO BO PO AO 1.00
400.
240.
8335
740
500.
480.
DATA SYNTHESIS AND BACK-UP
543.
544.
SET-UP I-BEAMS FOR TANK STAGING PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER PLATFORM OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER UORKS SI.flULTANEOUSLY lJITH THE* ,.+HOOKER-ON* STEP 3 INCLUDES SPREAljING I-BEAMS AT:* ,+,1-2fI-3~1-4~ AND I-5
HOOKER-ON BEGINS AT STORE-2
1 HOOKER-ON TRANSPORT I-BEAM FROM STORE-2 USING CRANE-2 UITHHOOK+SLING TO I-6 PLACE+HANEUVER RETURN TO STORE-2
A16 T24 K24 TIO P16 TIO AO 1000 10000.2 HOOKER-ON TRANSPORT I-BEAM FROM STORE-2 USING CRANE-2 UITH
HOOK+SLIW TO I-7 PLACE+MANEUVER RETURN TO STORE-2Al T3 K24 T6 P16 T6 AO 1*OO 5600.
3 HOOKER-ON TRANSPORT I-BEAM FROH STORE-2 USING CRANE-2 UITHHOOK+SLING TO I-1 PLACE+HANEUVER RETURN TO STORE-2 F 5
Al T3 K24 T6 P16 T6 AO 5*OO 28000.
TOTAL THU 43600.
SET-UP ANGLE-BARS FOR TANK STAGING PLATFORfl WITH (CRANE) AT ANY PLATECARPENTER
PER PLATFORH OFG: 4 02-FEB-83REPRESENTS ELAPSED TIME
* CARPENTER UORKS SIMULTANEOUSLY UITH THE* ● **HOOKER-ON* STEP 1 INCLUUES SPREADING ANGLES AT:* ,.+4-6TA-IP AND A-2* STEP 2 INCLUIIES SPREADING ANGLES AT:* +,,A-3rA-4v ANI) A-5
HOOKER-ON BEGINS AT STORE-2
HOOKER-ON TRANSPORT ANGLE FROfl STORE-2 USING CRANE-2 klIT1-1 HO(IK+SLITO A-6 PLACE+MANEUVER RETURN. TO STORE-2 F 3
A16 T24 K24 TIO F16 TIO AO 3000 300004 HOOKER-ON TRANSPORT ANGLE FROM STORE-2 USING CRANE-2 WITH HOOti+SLITO A-4 F’LACE+MANEUVER RETURN TO STORE-2 F 3
Al T3 K24 T6 ?16 T6 AO 3.00 16800.
TOTAL T.MU 46800,
DATA SYNTHESIS AND BACK-UP
**************
CARPENTERS SPREAD BOARDS SIMULTANEOUSLYBOARDS ARE SPREAD ON PORT SIDE FIRST......THEN STARBOARD SIDE.TOTAL BOARDS PER SIDE = 32STEPS:2-5 SPREAD BOARDS BETWEEN A-6 & 1-6 F/s6-8 SPREAD BOARDS BETWEEN I-6 & A-1 P/S9-11 SPREAD BOARDS BETWEEN A-1 & A-3 S...AND A-1 & A-2 P12-14 SPREAD BOARDS BETWEEN A-3 & A-4 s...AND A-2 & A-4 P15-17 SPREAD BOARDS BTWN A-4 & I-7 P/S18-20 SPREAD BOARDS BTWN I-7 & A-5 p/s21-22 SPREAD BOARD AT A-5 P/S
CARP-1 BEGINS AT STORE-2
1 CARP-l+CARP-2 WALK TO TANK-STAGING-PLATFORM WITH CLIMB ( ONTOPLATFORM )
A32 B16 GO AO BO PO AO 1.00 48042 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-6 F 2
Al B6 G3 A24 B6 P6 A0 2.00 920.3 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-6 F 6
A24 B6 G3 A24 B6 P6 AO 6.00 4140.4 CARP-l+CARP-2 GET+SLIDE WITH BEND BOARD AT A-6 AND ALIGN F 8
Al B6 G3 M3 XO I10 AO 8.O0 1840.5 CARP-l+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-6 WITH
BEND F 16Al BO G3 Al B6 P3 AO 16.00 2240.
6 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO I-6 F 2A24 B6 G3 A24 B6 P6 AO 2.00 1380.
7 CARP-1+CARP-2 GET+SLIDE WITH BEND BOARD AT I-6 AND ALIGN F 2Al B6 G3 M3 XO I10 AO 2.00 460.
8 CARF-1+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO 1-6 WITHBEND F 4
Al BO G3 Al B6 P3 AO 4.00 560.9 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-1 F 8
A24 B6 G3 A16 B6 P6 AO 8.OO 4880.10 CARP-l+CARP-2 GET+SLIDE WITH BEND BOARD AT A-1 AND ALIGN F 8
A1 B6 G3 M3 XO I10 I10 8.00 1840.11 CARP-l+CARP-2 GET+PLACE 2 BLOCKS FROM CARP-1 AND CARP2 TO A-1 WITH
BEND F 16Al BO G3 Al B6 P3 AO 16.00 2240.
12 CARP-l+CARP-2 GET+POSITION 2 BOARDS FROM A-5 TO A-3 ( PORT OR A-2
DATA SYNTHESIS AND BACK-UP
13
14
Al15Al16
17
Al18
19
CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-3 TO I-1 WITH1O STEPS PF 3(2)PF3 (5 6)
Al (B32 )G3 A16 (B6 P3 )AO (3) 1.00 1430.CARP-1 LOOSEN 2 NUTS AT I-1 5 WRIST-TURNS DIFFICULT USING WRENCHASIDE TO CARP-1 F 10BO G1 AO BO (P1O Al L1O )Al BO P1 AO (2) 10.00 4600.CARP-1 LOOSEN 2 NUTS AT I-1 20 SPINS USING FINGERS F 10BO G1 AO BO (Pl Al L24 )AO 80 PO AO (2) 10000 5400 ●
CARP-1 GET+PLACE 2 NUTS AND WASHERS FROM I-1 TO TOOLBOX-1 WITH BEF 20
Al BO G3 Al B6 P3 A0 20. 00 2800 ●
CARP-1 LOOSEN 2 BOLTS AT I-1 3 STRIKES USING HAMMER ASIDE TO CARPF 10BO G1 AO BO (PO Al L6 )Al BO P1 AO (2) 10.00 1800+CARP-1 GET+PLACE BOLTS FROM I-1 TO TOOLBOX-1 WITH BEND F 20
Al BO G3 Al B6 P3 AO 20.00 2800.CARP-1 GET+PLACE WITH CLIMB-OBJECT TOOLBOX-1 FROM I-1 TO I-5 WITH14 STEPS PF 10 ( 2 ) PF 10 ( 5 6 )
Al (B32 )G3 A24 (B6 P3 )40 (10) 1.00 4380.
TOTAL TMU 56860.
551. TEAR DOWN I-BEAMS ON TANK STAGING PLATFORM WITH WRENCH AT MID TANKS AVOIDS CARPENTER
PER PLATFORM OFG: 4 11-MAY-83REPRESENTS ELAPSED TIME* CARPENTER WORKS ALONE UNBOLTING I-BEAMS* STEPS:* 1-5 ARE FOR REMOVING BOLTS ON I-6 & I-7* ...AT I-l,I-2, I-3,I-4,AND I-5* 6,7 ARE FOR MOVEMENT OF THE CARPENTER* ...BETWEEN THE CONNECTIONS
CARP-1 BEGINS AT I-1
1 CARP-1 LOOSEN 4 NUTS AT I-1 5 WRIST-TURNS DIFFICULT USING WRENCHASIDE TO CARP-1 F 10
Al BO G1 AO BO (P1O Al L1O )Al BO P1 AO (4) 10.OO 8800.2 CARP-1 LOOSEN 4 NUTS AT I-1 20 SPINS USING FINGERS F 10Al BO G1 AO EO (P1 Al L24 )AO B6 PO AO (4) 10.00 10600.3 CARP-1 GET+PLACE 4 NUTS AND WASHERS FROM I-1 TO TOOLBOX-1 WITH BEN
F 40Al BO G3 Al B6 P3 AO 40.00 5600.
4 CARP-1 LOOSEN 4 BOLTS AT I-1 3 STRIKES USING HAMMER ASIDE TO CARP-F 10
Al BO G1 AO BO (PO Al L6 )Al BO P1 AO (4) 10*OO 3200.5 CARP-1 GET+PLACE 4 BOLTS FROM I-1 TO TOOLBOX-1 WITH BEND F 40
DATA SYNTHESIS AND BACK-UP
6 CARP-3 GET+MANIPULATE WITH BEND+CLIMB-STEP ANGLE AT A-6 ALIGNA1O B16 G3 H1O XO 110 AO 1.00 490.
7 WINCH-OPER PUSH WINCH-DOWN PROCESS ( TO TANKTOP )Al BO G1 Ml X81 IO AO 1.00 840.
8 WINCH-OPER LOOSEN ( = SWING ) CABLE WITH BEND AT MENHOLE 5ARM-STROKES USING HANDSAl B6 G1 Al BO P1 L32 AO BO PO AO 1.00 420,
9 WINCH-OPER THROW CABLE FROM MENHOLE TO CARP-3A1 BO G1 Al B6 PO A0 1.OO 90•
10 CARP-3 GET+MANIPULATE WITH BEND CABLE AT A-6 ( HOOK AROUND. ANGLES )( ALLOW FOR 2 ATTEMPTS ) F 2
A1 B6 G3 M10 XO IO AO 2.00 400.11 WINCH-OPER PUSH WINCH-FREE PROCESS ( CLEAR OBSTACLES )
Al BO G1 Ml X67 IO AO 1.OO 700 .12 WINCH-OPER PUSH WINCH-UP PROCESS ( TO MENHOLE )
Al BO G1 M1 X245I0 AO 1.00 2480.
TOTAL TMU 9240 ●
DATA SYNTHESIS AND BACK-UP
561. SET-UP STAGING BRACKETS FOR (BETWEEN)AT MID TANKS AND VOIDS CARPENTER
PER CENTER TANK OFG: 4 23-MAY-83REPRESENTS ELAPSED TIME
TANK STAGING PLATFORM WITH WRENCH
DATA SYNTHESIS AND BACK-UP
TOTAL TMU 1850.
DATA SYNTHESIS AND BACK-UP
584. TEAR DOWN STAGING BRACKETS ON TANK STAGING PLATFORM WITH WRENCH AT MTANKS AND VOIDS CARPENTER
PER CENTER TANK OFG: 4 31-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKETS ON 2 TANK .*...STAGING PLATFORMS. ALSO REMOVAL OF* ...BOARDS THAT ARE SPREAD BETWEEN THE* ...BRACKETS.* 2 CARPENTERS WORKING SIMULTANEOUSLY EACH* ...WORNING ON A DIFFERENT PLATFORM.* STEPS:* 1 REPRESENTS REMOVAL OF BOARDS BETWEEN* ...BR-1 AND BR-2; BR-2 AND BR-3* 2-5 REPRESENTS REMOVAL OF BRACKETS FROM
TOTAL TMU 5640.
PAGE 473
DATA SYNTHESIS AND BACK-UP
516. TRANSPORT AREIAL PLATFORM FOR SIDE SHELL (STAGING) WITH (CRANE) AT ANWAY CARPENTER
PER AERIAL-PLATFORM OFG: 4 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS MOVIES AERIAL PLATFORM FROM A* ...WAY TO A SECTION OF SIDE SHELL
C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT PLATFORM FROM P-REST USING CRANE WITH 2-HOOK+SLINTO AERIAL-PLATFORM POSITION+MANEUVER PF 2 ( 3 )
Al T32 (K32 )TIOP24 TO AO (2) 1.OO 13100.
TOTAL TMU 131OO.
TOTAL TMU 1 2 8 0 .
DATA SYNTHESIS AND BACK-UP
529. TRANSPORT AERIAL PLATFORM FOR SIDE SHELL (STAGING) WITH CRANE AT ANYWAY CARPENTER
PER AERIAL PLATFORM OFG: 4 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS MOVING AERIAL PLATFORM* ...FROM A SECTION OF THE SIDE SHELL* ...TO A WAY.C-OPER BEGINS AT-CR-l
1 C-OPER TRANSPORT PLATFORM FROM AERIAL-PLATFORH USING CRANE TO P-RESTPOSITION+M$NEUVER RETURN TO CR-1
Al T32 KO T1O P24 T32 40 1OO 9900.
TOTAL TMU 9900.
580, LOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER AERIAL PLATFORM OFG: 4 27-MAY-83REPRESENTS ELAPSED TIME
************
REPRESENTS SPREADING MATERIAL ON AN...AERIAL PLATFORMAERIAL PLATFORM CAN HOLD...MATERIAL FOR 3 LEVELS ...5 BRACKETS PER LEVEL.TOTAL MATERIAL:MATL QUANTITYBRKTS 15STANS 15BOARDS 36HANDRAIL 24LADDERS 5
ENOUGH STAGINGOF STAGING:
CARP-1 BEGINS AT P-REST
1 CARP-1 GET+PLACE 15 BRKTS FROM BIN-1 TO BIN-1 ( PILE UP BRKTS ) PF15 ( 2 3 4 5 6 )
A32 (B6 G3 A1 BO P3 )AO (15) 1.00 2270.2 C-OPER TRANSPORT)RT 15 BRKTS FROM BIN-1 USING CRANE WITH HOOK+SLING TO
P-REST PLACE+ADJUST RETURN TO BIN-2Al T16 K24 T6 P3 T6 AO 1.OO 5600.
3 CARP-1 GET+PLACE 15 STAN FROM BIN-2 TO BIN-2 AND RETURN TO Bit-PILEWITHOUT BEND PF 15 ( 2 3 4 5 6 )
A16 (B6 G3 Al BO P3 )A16 1.OO 2270.4 C-OPER TRANSPORT 15 STANS FROM BIN-2 USING CRANE WITH HOOK+SLING TO
P-REST PLACE+ADJUST RETURN TO BD-PILEAl T3 K24 T6 P3 T6 AO 1.00 4300.
5 CARP-1 GET+SLIDE WITH BEND 36 ROARDS FROM BD-PILE TO BD-PILE WITH 8
PAGE 476
DATA SYNTHESIS AND BACK-UP
STEPS AND ADJUST ( ON BOLSTERS ) PF 2 ( 2 3 4 5 6 ) F 36Al (B6 (G3 M3 XO 16 )A16 (2) 36.00 19080.
6 C-OPER TRANSPORT 36 BOARDS FROM BD-PILE USING CRANE WITH2-HOOK+SLING TO P-REST PLACE+MANEUVER RETURN TO HR-PILE
Al T3 K32 T6 P16 T6 AO 1.OO 6400.7 CARP-1 GET+SLIDE 24 HANDRAIL AT HR-PILE AND ADJUST ( ON BOLSTERS )
AND RETURN TO LDR-PILE WITHOUT BEND PF 24 ( 2 3 4 5 6 )A16 (B6 G3 M3 XO 16 )A16 1.00 4640.
8 C-OPER TRANSPORT 24 HANDRAIL FROM HR-PILE USING CRANE WITH2-HOOK+SLING TO P-REST PLACE+ADJUST RETURN TO LDR-PILE
Al T3 K32 T6 P3 T6 AO 1.OO 51OO.9 CARP-1 GET+SLIDE WITH BEND 5 LADRS FROM LDR-PILE TO LDR-PILE WITH 5
10
11
12
STEPS AND ADJUST ( ON BOLSTERS ) PF 2 ( 2 3 4 5 6 ) F 5Al (B6 G3 M3 XO 16 )A1O (2) 5.00 2350.
C-OPER TRANSPORT 5 LADRS FROM LDR-PILE USING CRANE WITH 2-HOOK+SLING TO P-REST PLACE+MANEUVER RETURN T0 CR-1
CARP-1 GET+PLACEEND+CLIHB-STEP
CARP-1 GET+PLACEEND+CLIMB-STEP
A1 T3 K32 T10 P16 T16 AO 1.00 7800.TOOL BOX-1 FROM BIN-1 TO P-REST WITH B
A54 B6 G3 A32 B16 P3 AO 1.OO 1140.TOOL BOX-2 FROM BIN-2 TO P-REST WITH B
A32 B6 G3 A32 B16 P3 A0 1.OO 920.
TOTAL TMU 61870.
PAGE 477
DATA SYNTHESIS AND BACK-UP
581. UNLOAD (STAGING MATERIAL) ON AERIAL PLATFORM WITH (CRANE) AT ANY PLATENCARPENTER
PER AERIAL PLATFORM OFG: 4 27-MAY-83REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF MATERIAL FROM AN* ...AERIAL PLATFORM* AERIAL PLATFORM CAN HOLD ENOUGH STAGING* ...MATERIAL FOR 3 LEVELS OF STAGING:* ...5 BRACKETS PER LEVEL.* TOTAL MATERIAL:* MATL QUANTITY* BRKTS 15* STANS 15* BOARDS 36* HANDRAIL 24* LADDERS 5
C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT 15 BRKTS FROM P-REST USING CRANE WITH HOOK+SLING TOBIN-1 PLACE+ADJUST RETURN TO P-REST
Al T16 K24 T6 P3 T6 AO 1.00 5600.2 CARP-1 GET+PLACE 15 BRKTS FROM BIN-1 TO BIN-1 ( PUT INTO BIN ) PF 15
( 2 3 4 5 6 )A32 (B6 G3 Al BO P3 )AO (15) 1.00 2270.
3 C-OPER TRANSPORT 15 STANS FROM P-REST USING CRANE WITH HOOK+SLING TOBIN-2 PLACE+ADJUST RETURN TO P-REST
A1 T3 K24 T6 P3 T6 AO 1.OO 4300.4 CARP-1 GET+PLACE 15 STANS FROM BIN-2 TO BIN-2 ( PUT INTO BIN )
RETURN TO BD-PILE WITHOUT BEND PF 15 ( 2 3 4 5 6 )A16 (B6 G3 Al BO P3 )A16 1.OO 2270.
5 C-OPER TRANSPORT 36 BOARDS FROM P-REST USING CRANE WITH 2-HOOK+SLINGTO BD-PILE PLACE+MANEUVER ( ONTO BOLSTERS ) RETURN TO P-REST
Al T3 K32 T6 P16 T6 AO 1.00 6400.6 CARP-1 GET+SLIDE WITH BEND 36 BOARDS FROM BD-PILE TO BD-PILE WITH 8
STEPS AND ADJUST ( ONTO PILE ) PF 2 ( 2 3 4 5 6 ) F 36Al (B6 G3 M3 XO I6 )A16 (2) 36.00 19080,
7 C-OPER TRANSPORT 24 HANDRAIL FROM P-REST USING CRANE WITH2-HOOK+SLING TO HR-PILE PLACE+ADJUST RETURN TO P-REST
Al T3 K32 T6 P3 T6 AO 1.OO 51OO.8 CARP-1 GET+SLIDE 24 HANDRAIL AT HR-PILE AND ADJUST ( ON PILE )
RETURN TO LDR-PILE WITHOUT BEND PF 24 ( 2 3 4 S 6 )A16 (B6 G3 M3 Xo 16 )A16 1.OO 4640.
9 C-OPER TRANSPORT 5 LADRS FROM P-REST USING CRANE WITH 2-HOOK+SLINGTO LDR-PILE PLACE+MANEUVER ( ONTO BOLSTERS ) RETURN TO CR-1
Al T3 K32 T10 P16 T10 AO 1.00 7200.10 CARP-1 GET+SLIDE WITH BEND 5 LADRS FROM LDR-PILE TO LDR-PILE WITH 5
STEPS AND ADJUST ( ONTO PILE ) PF 2 ( 2 3 4 5 6 ) F 5
PAGE 478
DATA SYNTHESIS AND BACK-UP
Al (B6 G3 M3 XO I6 )Al0 (2) 5.00 2350.11 CARP-1 GET+PLACE WITH BEND+CLIMB-STEP TOOLBOX1 FROM P-REST TO BIN
A42 B16 G3 A32 B6 P3 A0 1.00 102O.12 CARP-1 GET+PLACE WITH BEND+CLIMB-STEP TOOLBOX2 FROM P-REST To BI
A32 B16 G3 A32 B6 P3 AO 1.00 920.
TOTAL TMU 61150.
132. COMBINED SUB-OP
HOOK-UP/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW). RATE IN ELAPSED TIMMULT BY 6 TO OBTAIN TOTAL TIME,
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS INCLUDED IN THIS SUBOP:* --2 HOOK-UPS AND 2 UNHOOKS PER (l).....* ...8-HR SHIFT* --(1) OCCURRENCE FOR IGNITE AND .........* ...EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-OP ...* ...FRO NUMBER OF CUTS >1, USE THE .....* ....FORMULA: FREQ = 1+ [(N-1) X . 231 ....
* ....WHERE ‘N’ = THE NUMBER OF CUTS(BURNS)TOTAL TMU 2900.0
Combined sub-operation elements Free. TMU
9. HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
8.00 224010. IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
1.00 660---
Total TMU 2900
PAGE 479
DATA SYNTHESIS AND BACK-UP
517. SET-UP (STAGING CLIP) ON SIDE SHELL WITH HAMMER AT ANY WAY CARPENTERPER STAGING CLIP OFG: 3 16-MAR-82REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A STAGING CLIP ON* ...THE SIDE SHELL.* CARPENTERS ARE WORKING FROM AN AERIAL* ...PLATFORM.* WELDING OF THE CLIP IS DONE IN A* ...SEPERATE SUB OPERATION.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 MEASURE AT BRKT-1 USING STEEL-TAPE-1 ASIDE TO CARP-1Al BO G1 A1O BO P1 M32 Al BO P1 AO 1.OO 470.
2 CARP-1 LOOSEN PAINT ON SIDE SHELL AT BRKT-1 4 STRIKES USING HAMMER-1ASIDE TO CARP-1Al BO G1 Al BO PO L1O Al BO P1 AO 1.00 150.
3 CARP-1 GET+PLACE SCLIP FROM TOOLBOX-2 TO BRKT-1 ( TACKING UPONPLACEMENT )
A1O B6 G3 A1O BO P3 AO 1.00 320.
TOTAL TMU 940.
518. SET-UP STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAY CARPENTERPER STAGING BRACKET OFG: 3 16-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP A BRACKET ON THE* ...SIDE SHELL.* CARPENTERS ARE WORKING FROM AN AERIAL* ...PLATFORM.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 GET+PICKUP NUT AND BOLT FROM TOOLBOX-1 TO SELF ( IN POCKET )A16 B6 G3 Al BO PO AO 1.00
2 CARP-1 GET+PLACE WITH BEND BRKT FROM BIN-1 TO BRKT-1Al B6 G3 A16 BO P3 AO 1000
3 CARP-1 PLACE BOLT FROM CARP-1 TO BRKT-1 AND INSERTAl BO G1 Al BO P3 Al 1.OO
4 CARP-1 FASTEN NUT AT BRKT-1 13 WRIST-TURNS USING HANDSAl BO G1 Al BO P1 F24 AO BO PO AO 1.00
5 CARP-1 FASTEN NUT AT BRKT-1 4 ARM-STROKES USING WRENCH-1CARP-1
Al BO G1 Al BO P3 F24 Al BO P1 AO 1.00
70.
260.
290.
280.ASIDE TO
320.
TOTAL TMU 1220.
PAGE 480
DATA SYNTHESIS AND BACK-UP
519. SET-UP STAGING PLANK FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STAGING PLANK OFG: 3 17-MAR-82REPRESENTS ELAPSED TIME* REPRESENTS SETTING BOARDS uP BETWEEN TUll* ...STAGING BRACKETS.* CARPENTERS ARE WORKING ON AN AREIAL* ...PLATFORM AND THEY ARE WORKING* ...SIHULTANEOUSLY.
CARP-3 BEGINS AT BIN-1
1 CARP-3 GET+SLIDE BOARDS FROM BD-PILE TO BD-PILE UITH 8 STEPSBOLSTERS ) AND ADJUST
A1O B6 G3 H3 XO 14 A16 1.002 CARP-1 AND CARP 2 GET+MANEUVER BOARDS FROM BD-PILE TO BRKT-1
SPANNING BRKT2 AND ALIGNA24 B6 G3 M1O XO 110 A24 1.00
( ON
440.
770.
TOTAL TMU 121O.
520, SET-UP (ACCESS) LADDER ON SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER ACCESS LADDER OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS SETTING UP A LADDER ON THE * *...SIDE SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* ...PLATFORllS BUT ARE NOT WORKING*... SIMULTANEOUSLY.* WELDING DONE IN A SEPERATE* ...SUB OPERATION.CARP-3 BEGINS AT BD-PILE
1 CARP-3 GET+SLIDE LADR FROM LDR-PILE TO LIIR-PILE WITH 5 STEPS ( ONBOLSTER ) AND ADJUST
A1O B6 G3 M3 XO 16 AIO 1.00 380.2 CARP-1 GET+PLACE LADR FROM LDR-PILE To BRKT-1
A24 B6 G3 A24 Bo P3 Ao 1.00 600.3 CARP-2 LOOSEN 4 PAINT ON SIDE SHELL AT BRKT-1 4 STRIKES USING
HAMMER-2 ASIDE TO CARP-2Al BO G1 A1O BO (PO Al L1O )Al BO P1 AO (4) 1.00 580.4 CARP-2 GET+PLACE 4 LCLIPS FRCM TOOLBOX-2 TO RRKT-1 ( TACKING UPON
PLACEMENT ) PF 4 ( 6 )A1O B& G3 A1O BO (P3 )AO (4) 1.00 41O.
TOTAL TMU 1970.
P A G E 4 8 %
DATA SYNTHESIS AND BACK-UP
522, SET-UP STANCHION FOR SIDE SHELL WITH HAND AT ANY DAY CARPENTERPER STANCHION 0FF3: 3 17-MAR-82REPRESENTS ELAPSED TIME*REPRESENTS PUTTING STANCHION IN STAGING*.e.BRACKETS,*TWOCARPENTERS ARE ON THE STAGING$ ONE*...REMAINS ON THE AERIAL PLATFORM.
CARP-3 BEGINS AT LDR-PILE
1 CARP-3 GET+PLACE STAN FROMA24 B6
2 CARP-1 GET+PLACE WITH BENDAl B6
BIN-2 TO BRKT-1G3 AlO BO P3 A0 1.00 460.STAN FROM BRKT-1 TO BRKT-1 AND INSERTG3 Al BO P3 Al 1.OO 150.
TOTAL TMU 610,
523. SET-UP HANDRAIL FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER HANDRAIL OFG: 3 17-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS PUTTING UP HANDRAIL AT THE* ...SIDE SHELL.* TWO CARPENTERS ARE ON THE STAGING, ONE* ...REMAINS ON.THE AERIAL PLATFORM.* WELDING IS DONE IN A SEPERATE SUB* ...OPERATION,
CARP-3 BEGINS AT BIN-2
1 CARP-3 GET+SLIDE HANDRAILA24 B6
2 CARP-1 GET+SLIDE HANDRAILSTANCHION SLEEVES ) PF 2
FROM HR-PILE TO CARP-1G3 M3 XO IO A24 1.00 6 0 0 .
FROM BRKT-1 TO BRKT-2 AND ALIGN ( THRU 2( 4 5 6 )
A1 BO G3 (H3 XO 110 )A1O (2) 1,00 400.
TOTAL TMU 1000.
DATA SYNTHESIS AND BACK-UP
524. TEAR DOWN HANDRAIL ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTERPER HANDRAIL OFG: 2 18-MAR-82REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN HANDRAIL ON THE * . . . SIDE SHELL.* TWO CARPENTERS ARE ON THE STAGING, ONE* . . .REMAINS ON THE AERIAL PLATFORM.* THE CARPENTERS ARE NOT WORKING* . . . SINULTANEOUSLY.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 TO BRKT-1A1 B0 G3 HI X0 I0 A10 1.00 150.
2 CARP-1 OPERATE TORCH AT BRKT-1 PTIME .26 M ( BURN OFF HANDRAIL )A1 B0 G1 M6 X42 IO A0 1.00 500.
3 CARP-2 GET+SLIDE HANDRAIL FROM BRKT-2 TO CARP-2Al B0 G3 M3 X0 IO A1 1.00 80.
4 CARP-2 HOLD+MOVE HANDRAIL FROM CARP-2 TO CARP-3A0 B0 G0 A24 B6 P1 A0 1.00 310.
5 CARP-3 GET+PLACE HANDRAIL FROM BRKT-2 TO HR-PILEA24 B0 G3 A16 B6 P3 A0 1.OO 520.
TOTAL TMU 1560.
525. TEAR DOWN STANCHION FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STANCHION OFG: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF STANCHION FROM* . . .SIDE SHELL.* TWO CARPENTERS ARE ON THE STAGING, ONE* . . .EHAINS ON AERIAL PLATFORM.* THE CARPENTERS DO NOT WORK* . . .SIMUL TANEOUSLY.
CARP-3 BEGINS AT BRKT-1
1 CARP-1 LOOSEN STAN AT BRKT-1 4 ARM-STROKES USING HANDSAl B0 G1 A1 B0 P1 L24 A0 B0 P0 A0 1.OO 280.
2 CARP-1 HOLD+MOVE STAN FROM CARP-1 TO CARP-3A0 B0 GO Al B0 P1 A0 1.00 20.
3 CARP-3 GET+PLACE STAN FROM BRKT-1 TO BIN-2Al B0 G3 A10 B6 P3 A0 1.00 230.
TOTAL TMU 530.
PAGE 483
DATA SYNTHESIS
526. TEAR DOWN STAGING PLANK
AND BACK-UP
FOR SIDE SHELL WITH HAND AT ANY WAY CARPENTERPER STAGING PLANK OFG: 3 18-MAR-82REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN BOARDS ON THE* . . .SIDE SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* . . .PLATFORM.* THE CARPENTERS ARE WORKING* . . .SIMUL TANEOUSLY.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 AND CARP 2 GET+MANIPULATE BOARD FROM BRKT-1 ( CARP 2 AT.BRKT2 ) TO BD-PILE
Al B0 G3 M10 X0 I0 A24 B6 1.OO 440.
TOTAL TMU 440.
527. TEAR DOWN (ACCESS) LADDER ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTER PER LADDER OFG: 2 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF LADDER FROM SIDE* . . .SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* . . .PLATFORM.* THE CARPENTERS ARE NOT WORKING* . . .SIMUL TANEOUSLY.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 70 BRKT-1Al B0 G3 M1 X0 I0 A10 1.00 150.
2 CARP-1 OPERATE TORCH AT BRKT-1 PTIME 0.47 M( BURN OFF 4 CLIPS ) F 4A1 B0 G1 M6 X81 IO A0 4.00 3560.
3 CARP-1 GET+PLACE 4 LCLIPS FROM BRKT-1 TO TOOLBOX-2 PF 4 ( 1 2 3 )(A1 B0 G3 )A1OB6 P3 A0 (4) 1.00 350.l
4 CARP-2 GET+POSITION LADR FROM BRKT-1 TO LDR-PILEA10 B0 G3 A24 B6 P6 A0 1.00 490.
TOTAL TMU 4550.
PAGE 484
DATA SYNTHESIS AND BACK-UP
528. TEAR DOWN STAGING BRACKET ON SIDE SHELL WITH WRENCH AT ANY WAYCARPENTER
PER STAGING BRACKET OFG: 3 18-MAR-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF BRACKETS* . . .FROM SIDE SHELL.* CARPENTERS ARE WORKING ON AN* . . .AERIAL PLATFORM.
CARP-1 BEGINS AT BRKT-1
1 CARP-1 LOOSEN NUT AT BRKT-1 1 ARM-STROKE USING WRENCH-1 AND HOLDAl B0 G1 Al B0 P3 L3 A0 B0 P0 A0 1.00 90.
2 CARP-1 HOLD+LODSEN NUT AT BRKT-1 13 WRIST-STROKES USING WRENCH-1ASIDE TO CARP-1A0 R0 G0 Al B0 P3 L42 Al B0 P1 A0 1.00 480.
3 CARP-1 GET+REMOVE BOLT FROM BRKT-1 TO CARP-1A1 B0 63 A1 B0 P1 A0 1.OO 60.
4 CARP-1 PLACE NUT AND BOLT FROM BRKT-1 TO TOOLBOX-1Al B0 G1 A16 B6 P3 A0 1.00 270.
TOTAL TMU 900.
530. TEAR DOWN (STAGING CLIP) ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTPER STAGING CLIP OFC: 3 18-MAR-82
REPRESENTS ELAPSED TIME* REPRESENTS REMOVING STAGING CLIPS FROm* . . .THE SIDE SHELL.* CARPENTERS ARE WORKING ON AN AERIAL* . . .PLATFORM.
CARP-1 BEGINS AT BRKT-2
1 CARP-1 GET+PULL TORCH FROM BRKT-2 TO BRKT-1Al B0 G3 M1 X0 I0 A10 1.00 150.
2 CARP-1 OPERATE TORCH AT BRKT-1 PTIME .55 M ( BURN OFF STAGING CLIAl B0 G1 M6 X96 IO A 1*OO 1040.
3 CARP-1 GET+PLACE SCLIP FROM BRKT-1 TO TOOLBOX-2Al B0 G3 A1O B6 P3 A0 1.00 230.
TOTAL TMU 1420.
PAGE 485
DATA SYNTHESIS AND BACK-UP
530. TEAR DOWN (STAGING CLIP) ON SIDE SHELL WITH TORCH AT ANY WAY CARPENTERPER STAGING CLIP OFG: 3 18-MAR-82REPRESENTS ELAPSED TIME* REPRESENTS REMOVING STAGING CLIPS FROM* . . . THE SIDE SHELL,* CARPENTERS ARE WORKING ON AN AERIAL* . . . PLATFORM.CARP-1 BEGINS AT BRKT-2
TOTAL TMU 1420.
DATA SYNTHESIS AND BACK-UP
5 . 2 SYNTHESIS AND ANALYSIS
446. WELD HANDRAIL (CONNECTIONS) ON STANCHION WITH STICK ELECTRONE AT ANYPLATEN (SHOP) WELDING
PER 100 PIECES OF HANDRAIL OFG: 3WELD TO MEET SAFETY REQUIREMENTS. RATE PER 100 PIECES OF HANDRAIL
(AVG, 1 CONNECTION EACH). RATE INCLUDES MANUAL ELEHENTS.
1 WELD HORIZONTAL l/4' FILLET WELD (5' PER CONNECTION) USING 6011 3/ELECTRODE (OR COMPARABLE (7018 5/32).
TOTAL TMU 186012.
454. (CLIMB UP AND DOWN) MOVE OPERATOR (ON PIPE STAGING) FOR SIDE SHELL ATANY WAYS CARPENTER
PER PIPE STAGING SECTION (16' LONG) OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTER CLIMBING UP AND* . . . DOWN END PIECE OF PIPE STAGING.* AVERAGE NUMBER OF STEPS NEEDED = 6.
CARP-1 BEGINS AT END-PC-1
1 CARP-1 SLIDE ( CLIME-UP ) LADDER ( END PIECE ) AT END-PC-1 ( 6STEPS, ) PF 6 ( 1 ) PF 6 ( 3 4 )
(A1 )B16(G1 M3 )X0 10 AO (6) 1.00 460.2 CARP-1 PULL ( CLIMB-DOWN ) LADDER ( END PIECE ) AT END-PC-1 ( 6
STEPS. ) PF6 ( 1 ) PF 6 ( 34 )(Al )B16(G1 M1 )X0 IO A0 (6) 1.00 340.
TOTAL TMU 800.
DATA SYNTHESIS AND BACK-UP
456. TRANSPORT STAGING PLANK FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWERCRANE) AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING BOARDS FROM* . . . BD-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO BD-PILE AND* . . . FROM RD-PILE TO SIDE SHELL ARE* . . . AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF BOARDS IN LIFT = 4
C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM BD-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL ( ON PIPE STAGING SECTION ( 16' LONG ) ) PLACE+MANEUVERETURN TO CR-1 F 1 / 4
Al T42 K24 T6 P16 T42 A0 0.25 3275.
TOTAL TMU 3275.
459. TRANSPORT STANCHION FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANE)AT ANY WAYS CARPENTER
PER STANCHION OFG: 3 12-FEB-82REPRESENTS ELAPSED TINE.* REPRESENTS TRANSPORTING STANCHION FROM* . . . BIN-2 TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO BIN-2 AND.* . . . FROM BIN-2 TO SIDE SHELL ARE AVERAGE* . . . DISTANCES FROM A WAY 740'X120'* MAXIMUM NUMBER OF STANCHIONS IN LIFT = 6C-OPER BEGINS AT CR-1
1 TRANSPORT STAN FROM BIN-2 USING CRANE WITH HOOK+SLING TO SIDE-SHELL( ON PIPE STAGING ) PLACE+ADJUST RETIURN TO CR-1 F 1 / 6
Al T42 K24 T6 P3 T42 AO 0.17 1967.
TOTAL TMU 1967.
PAGE 488
DATA SYNTHESIS AND BACK-UP
461. TRANSPORT HANDRAIL FOR PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANEAT ANY WAYS CARPENTER
PER SECTION (16'LONG OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS TRANSPORTING HANDRAIL FROM* . . . HR-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO HR-PILE AND* . . . FROM HR-PILE TO SIDE SHELL ARE* . . . AVERAGE DISTANCES FROM WAY 740'X120' * MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER BEGINGS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL ( ON PIPE STAGING ) PLACE+ADJUST RETIURN TO CR-1 F 1 /
Al T42 K24 T10 P3 T42 A0 0.17 2033.
TOTAL TMU 2033.
463. TRANSPORT STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS)WITH (TOWER CRANE) AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS TRANSPORTING BOARDS FROM* . . . BD-PILE T0 SIDE SHELL.* DISTANCES FROM CRANE-REST TO ED-PILE AND* . . . FROH BD-PILE TO SIDE SHELL ARE* . . . AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF BOARDS IN LIFT = 4C-OPER BEGINS AT CR-1
1 TRANSPORT BOARD FROM MI-PILE USING CRANE WITH HOOK+SLING TOSIDE-SHELL ( BTWN 2 PIPE STAGING SECTIONS ) PLACE+MANEUVER RETURN
CR-1 F 1 / 4Al T42 K24 T6 P16 T42 A0 0.25 3275.
TOTAL TMU 3275.
DATA SYNTHESIS AND BACK-UP
465. TRANSPORT HANDRAIL FOR SIDE SHELL (BTWN(TOWER CRANE) AT ANY WAYS CARPENTER
PER HANDRAIL OFG: 3 12-FEB-82REPRESENTS ELAPSESD TIME
2 PIPE STAGING SECTIONS) WITH
* REPRESENTS TRANSPORTING HANDRAIL FROM* . . . HR-PILE TO SIDE SHELL.* DISTANCES FROM CRANE-REST TO HR-PILE AND* . . . FROM HR-PILE TO SIDE SHELL ARE* . . .AVERAGE DISTANCES FROM WAY 740'X120'* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6
C-OPER REGINS AT CR-1
1 TRANSPORT HANDRAIL FROM HR-PILE USING CRANE WITH HOOK+SLING TO
TOTAL TMU 2033.
476. REMOVE HANDRAIL ON (NATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER HANDRAIL OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF HANDRAIL FROM* . . . MATERIAL PILE AT WAY TO HANDRAIL PILE* . . . DISTANCES ARE AVERAGE DISTANCES FOR A* . . . WAY 740'X120'.* MAXIMUM NUMBER OF HANDRAIL IN LIFT = 6* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT HATL-PILE
1 CARP-3 GET+SLIDE WITH BEND HANDRAIL ( ONTO BOLSTER ) AT MATL-PILEAl B6 G3 M3 X0 I0 A0 1.00 130.
2 C-OPER TRANSPORT HANDRAIL FROM MATL-PILE USING CRANE WITH HOOK+SLINGTO HR-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / .6
Al T42 K24 T1O P3 T42 A0 0.17 2033.
TOTAL TMU 2163.
DATA SYNTHESIS AND BACK-UP
477. REMOVE STANCHION ON (MATERIAL PILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER STANCHION OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVAL OF STANCHION FROM* . . . NATERIAL FILE AT WAY TO BIN-2* . . . DISTANCES ARE AVERAGE DISTANCES FOR A* . . . WAY 740'X120'.* MAXIMUM NUMBER OF STANCHION IN LIFT = 6* TOWER CRANE IS USED FOR REMOVAL,
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+PLACE WITH BEND STAN FROM MATL-PILE T0 HATL-PILE ( STACUP FOR TRANSPORTING )
Al B6 G3 Al B0 P3 A0 1.00 140.2 C-OPER TRANSPORT STAN FROM MATL-PILE USING CRANE WITH HOOK+SLING T
BIN-2 PLACE+ADJUST RETURN TO CR-1 F 1 / 6A1 T42 K24 T6 F3 T42 A0 O.17 1967.
TOTAL TMU 2107.
478. REMOVE STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH (TOWER CRANAT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS REMOVAL OF BOARDS FROM PIPE* . . . STAGING AT SIDE SHELL TO BOARD PILE* . . . DISTANCES ARE AVERAGE DISTANCES FOR A* . . . WAY 740'X120'.* MAXIMUM NUMBER OF BOARDS IN LIFT = 4* TOWER CRANE IS USED FOR REMOVAL.C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT BOARD FROM SIDE-SHELL USING CRANE WITH HOOK+SLINGTO BD-PILE PLACE+MANEUVER RETURN TO CR-1 F 1 / 4
A1 T42 K24 T6 P16 T42 A0 0.25 3275.
TOTAL TMU 3275.
PAGE 491
DATA SYNTHESIS AND BACK-UP
479.
480.
REMOVE BRACE ON (HATERIAL FILE) WITH (TOWER CRANE) AT ANY WAYSCARPENTER
PER BRACE OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS REMOVING BRACES FROM MATERIAL* . . . PILE AT WAY TO BRACE PILE.* . . . DISThNCES ARE AVERAGE DISTANCES FOR A* . . . WAY 740'X120'.* MAXIMUM NUMBER OF BRACES IN LIFT = 60* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+SLIDE WITH BEND BRACE ( ONTO BOLSTER ) AT HATL-PILEAl B6 G3 M3 X0 I0 A0 1.00 1.30.
2 C-OPER TRANSPORT BRACE FROM HATL-PILE USING CRANE WITH HOOK+SLING TO BRACE-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / 6
Al T42 K24 T6 P3 T42 A0 0.17 1967.
TOTAL TMU 2097.
REMOVE END RAIL (END PIECE) ON (MATERIAL PILE) WITH (TOWER CRANE) ATANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 16-FEB-82REFRESENTS ELAPSED TIME* REPRESENTS REMOVING END PIECES FROM* . . . MATERIAL PILE AT WAY T0 END-PC-RACK.* . . . DISTANCES ARE AVERAGE DISTANCES FOR A* . . . WAY 740'X120'.* MAXIMUM NUMBER OF END PIECES IN LIFT = 3* TOWER CRANE IS USED FOR REMOVAL.
CARP-3 BEGINS AT MATL-PILE
1 CARP-3 GET+SLIDE WITH BENDAl B6
2 C-OPER TRANSPORT END-PIECEHOOK+SLING TO END-PC-RACK
Al T423 CARP-3 GET+MANIPULATE WITH
A42 B6
END-F’IECE ( ONTO BOLSTER ) AT MATL-PILEG3 M3 X0 IO A0 1.00 130.FROM MATL-PILE USING CRANE WITHPLACE+MANEUVER RETURN TO CR-1 F 1 / 3K24 T6 P16 T32 A0 O.33 4033.REND END-PIECE AT END-PC-RACK AND ALIGNG3 M10 X0 I10 A0 1.00 710.
TOTAL TMU 4873.
DATA SYNTHESIS AND BACK-UP
486. TRANSPORT END RAIL (END PIECE) ON (END-PIECE RACK) WITH (TOWER CRANEAT ANY WAYS CARPENTER
PER END RAIL (END PIECE) OFG: 3 18-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TRANSPORTING END PIECES FROM* . . . END-PC-RACK TO MATL-PILE.* DISTANCES FROM CRANE REST TO END-PC-RACK* . . . AND FROM END-PC-RACK TO HATL-PILE ARE* . . . AVERAGE DISTANCES ON A WAY 740'X120'* MAXIMUM NUMBER END-PCS IN LIFT = 3* . . . THERE ARE 2 LIFTS DONE PER SECTION OF* . . . PIPE STAGING (16'LONG),
C-OPER BEGINS AT CR-1
1 C-OPER TRANSPORT END-PIECE FROM END-PC-RACK USING CRANE WITHHOOK+SLING TO HATL-PILE PLACE+ADJUST RETURN TO END-PC-RACK F 1 /
A1 T32 K24 T6 P3 T6 A0 0.17 1200.2 C-OPER TRANSPORT END-PIECE FROM END-PC-RACK USING CRANE WITH
HOOK+SLING TO HATL-PILE PLACE+ADJUST RETURN TO CR-1 F 1 / 6Al T3 K24 16 P3 T42 A0 0.17 1317
TOTAL TMU 2517.
DATA SYNTHESIS AND BACK-UP
132.
9.
10.
455.
COMBINED SUB-OF
HOOK-UF/UNHOOK AND IGNITE/EXTINGUISH TORCH FOR BURNING WITH HANDAT TANK CARPENTER
CREW SIZE = 6 (3 CARPS ABOVE DECK AND 3 BELOW). RATE IN ELAPSED TIME.HULT BY 6 TO OBTAIN TOTAL TIME.
PER 8-HR SHIFT AND (1) CUT OFG: 4 20-NOV-81* THE FOLLOWING IS INCLUDED IN THIS SUBOP:
* --2 HOOK-UPS AND 2 UNHOOKS PER (l). . . . .* . . . 8-HR SHIFT* --(1) OCCURRENCE FOR IGNITE AND . . . . .* . . . EXTINGUISH TORCH* --TO DETERMINE THE FREQ OF THE SUB-OP. . .* . . . FRO NUMBER OF CUTS >1, USE THE . . . . .* . . . FORMULA: FREQ = 1+ [(N-1) X .231] . . . .
* . . . WHERE 'N' = THE NUMBER OF CUTS(BURNS)TOTAL TMU 2900.0
Combined sub-operation elements Freq. TMU-------------- ----------------- ----- -----
HOOK-UP AND UNHOOK TORCH ON MANIFOLD WITH WRENCH AT SHIP
8.00 2240.0IGNITE AND EXTINGUISH TORCH FOR BURNING WITH HAND AT TANK
1.00 660.0-----
Total TMU 2900.0
MAKE READY STAGING PLANK FOR (TRANSPORTING) WITH HAND AT ANY WAYSCARPENTER
PER STAGING PLANK OFG: 3 11-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS GETTING BOARD ON BOLSTERS SO* . . . THAT THE CRANE CAN TRANSPORT IT
CARP-3. BEGINS AT SIDE-SHELL
1 CARP-3 GET+SLIDE BOARD AT BD-PILE AND ADJUST ( ON BOLSTERS )A32 B6 G3 M3 X0 I6 A0 1.00 500.
TOTAL TMU 500.
DATA SYNTHESIS AND BACK-UP
457. SET UP STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANYWAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS CARPENTERS SPREADING BOARDS* . . . ON PIPE STAGING SECTION (16'LONG).* . . . CARPENTERS HAVE TO CLIMB UP AND DOWN* . . . THE PIPE STAGING TO SPREAD THE BOARDS* . . .(SEE SEPARATE ANAYLSIS FOR CLIMBING).CARP-1 BEGINS AT END-PC-1
1 CARP-1 AND CARP 2 GET+SLIDE WITH BEND WITH 1 STEP BOARD ATSIDE-SHELL AND ALIGN
A3 B6 G3 M3 X0 I10 A0 1.00 250.
TOTAL TMU 250.
458. MAKE READY STANCHION FOR (TRANSPORTING) WITH HAND AT ANY WAYS CARPENTPER STANCHION OFG: 3 12-FEB-82
REPRESENTS ELAPSED TIME* REPRESENTS GETTING STANCHION READY TO BE* . . . TRANSPORTED.
CARP-3 BEGINS AT BSI-PILE
1 CARP-3 GET+PLACE STAN FROM BIN-2 TO BIN-2A16 B6 G3 Al B0 P3 A0 1.00 290.
TOTAL TMU 290.
DATA SYNTHESIS AND BACK-UP
460. SET UP STANCHION ON PIPE STAGING (AT SIDE SHELL) WITH WRENCH AT ANYWAYS CARPENTER
PER SECTION (16'LONG) OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME.
* REPRESENTS SETTING UP STANCHIONS ON PIPE* . . . STAGING.* . . . CARPENTERS INSTALL SIMULTANEOUSLY.* . . . CARPENTERS ARE STILL ON PIPE STAGING
CARP-1 BEGINS AT END-PC-1
1 CARP-1 GET+PLACE WITH BEND STAN FROM END-PC-2 TO END-PC-1 AND INSERT( INTO END PIECE )
A6 B6 G3 A6 B0 P3 A1 1.00 250.2 CARP-2 GET+PLACE WITH BEND WITH 3 STEPS STAN FROM END-PC-2 TO
END-PC-3 AND INSERT ( INTO END PIECE ) SIMO<A6 B6 G3 A6 R0 P3 Al > 1*OO 0.
3 CARP-1 GET+PLACE 2 BOLTS FROM CARP-1 TO END-PC-1 WITH KNEEL ANDINSERT BOLT ( INTO STANCHION ) PF 2 ( 6 7 )
Al B0 G3 Al B16 (P3 Al ) 1.00 290.4 CARP-2 GET+PLACE 2 BOLTS FROM CARP-2 TO END-PC-3 WITH KNEEL AND
INSERT BOLT ( INTO STANCHION ) PF 2 ( 6 7 ) SIMO<Al B0 G3 Al B16 (P3 Al )> 1.00 0 .
5 CARP-1 FASTEN 2 NUTS AT END-PC-1 13 WRIST-TURNS USING HANDSAl )B0 G1 A0 B0 (Pl Al F24 )A0 B0 P0 A0 (2) 1.00 540.6 CARP-1 FASTEN 2 NUTS AT END-PC-1 4 ARM-STROKES USING WRENCH-1 ASIDE
TO CARP-1A1 B0 G1 A0 B0 (P3 Al F24 )A1 B0 P1 A0 (2) 1.00 600.7 CARP-2 FASTEN 2 NUTS AT END-PC-3 13 WRIST-TURNS USING HANDS SIMO<A1 B0 G1 A0 B0 (P1 Al F24 )A0 B0 P0 A0 > 1.00 0.8 CARP-2 FASTEN 2 NUTS AT END-PC-3 4 ARM-STROKES USING WRENCH-2 ASIDE
TO CARP-2 SIMO<Al BO G1 A0 B0 (P3 Al F24 )Al B0 P1 A0 > 1.00 0.
TOTAL THU 1680.
PAGE 496
DATA SYNTHESIS AND BACK-UP
462. SET UP HANDRAIL (ON PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANY WAYCARPENTER
PER SECTION (16'LONG) OF PIPE STAGING OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS INSTALLING* . . . HANDRAIL THRU EYELETS IN STANCHIONS.* . . . CARPENTERS DON’T WORK SIMULTANEOUSLY.* . . . WELDING DONE IN A SEPARATE SUB-OP.
CARP-1 BEGINS AT END-PC-1
1 CARP-1 GET+SLIDE WITH BEND HANDRAIL AT END-PC-3 AND ALIGN ( THRU STANCHION EYELETS ) PF 2 ( 4 5 6 7 )
A10 36 G3 (M3 X0 I10 A0 ) 1.00 450.2 CARP-2 GET+SLIDE WITH BEND HANDRAIL AT END-PC-1 AND ALIGN ( THRU
STANCHION EYELETS ) PF 2 ( 4 5 6 7 )A10 B6 G3 (M3 X0 I10 A0 ) 1.00 450.
TOTAL TMU 900
464. SET UP STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WHAND AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS CARPENTERS SPREADING BOARDS* . . . BETWEEN PIPE STAGING SECTIONS.* . . . THERE IS A 16' GAP BETWEEN SECTIONS.* . . . CARF’ENTERS HAVE TO CLIMB UP AND DOWN* . . . THE PIPE STAGING TO SPREAD THE BOARDS* . . .(SEE SEPARATE ANAYLSIS FOR CLIMBING)CARP-1 BEGINS AT SECTION-1
1 CARP-1 AND CARP 2 GET+SLIDE WITH BEND) WITH 1 STEP BOARD ATSIDE-SHELL AND ALIGN
A3 B6 G3 H3 X0 I10 A0 1.00 250.
TOTAL TMU 250.
DATA SYNTHESIS AND BACK-UP
466. SET UP HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITH HANDAT ANY WAYS CARPENTER
PER SECTION OFG: 3 12-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS CARPENTERS INSTALLING* . . . HANIIRAIL ON EXISTING HANDRAIL.* . . . CARPENTERS DON'T WORK SIMULTANEOUSLY.* . . . WELDING DONE IN A SEPARATE SUB-OP.
CARP-1 BEGINS AT SECTION-1
1 CARP-1 GET+PLACE WITH BEND HANDRAIL FROM SECTION-1 TO SECTION-2 ANDRETURN TO SECTION-1 ( TACKING DONE UPON PLACEMENT ) PF 2 ( 6 )
Al B6 G3 A10 B0 (P3 )A10 (2) 1.00 360.2 CARP-2 GET+PLACE WITH BEND HANDRAIL FROM SECTION-2 To SECTION-1 AND
RETURN TO SECTION-2 ( TACKING DONE UPON PLACEMENT ) PF 2 ( 6 )Al B6 G3 A10 B0 (P3 )A10 (2) 1.00 360.
TOTAL TMU 720.
469. TEAR DOWN HANDRAIL FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS) WITHTORCH AT ANY WAYS CARPENTERS
PER SECTION OFG: 3 15-FEB-82REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* . . .STAGING (BTMN 2 SECTIONS). A TORCH IS * . . . USED TO BURN THE HANDRAIL OFF. THE* . . .HANDRAIL IS THROWN TO THE HATERIAL* . . . PILE, CARPENTERS REMOVE 2 HANDRAIL* . . . PIECES BEFORE MOVING TO NEXT SECTION.CARP-1 BEGINS AT SECTION-1
1 CARP-1 PULL TORCH AT SECTION-1Al B0 G1 Ml X0 I0 A0 1.OO 30.
2 CARP-1 OPERATE TORCH AT SECTION-1 PTIME 0.26 M ( BURN OFF HANDRAIL:2 CONNECTIONS PER HANDRAIL ) F 4
Al B0 G1 M6 X42 I0 A0 4.00 2000. 3 CARP-2 GET+HOLD HANDRAIL FROM SECTION-2 TO CARP-2 F 2 SIMO
<Al B0 G3 A1 B0 P0 A0 > 2.00 0.4 CARP-2 HOLD+THROW HANDRAIL FROM CARP-2 TO HATL-PILE F 2
A0 B0 G0 A1 B0 P0 A0 2.00 20.5 CARP-1 PULL TORCH AT SECTION-2
A10 B0 G1 M1 X0 IO A0 1.00 120.
TOTAL TMU 2170.
PAGE 498
DATA SYNTHESIS AND BACK-UP
470. TEAR DOWN HANDRAIL FOR PIPE STAGING (AT SIDE SHELL) WITH HAND AT ANYWAYS CARPENTER
PER SECTION (16'LONG) OF PIPE STAGING OFG: 3 15-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN HANDRAIL ON PIPE* . . . STAGING (BTWN 2 STANCHIONS). THE* . . . HANDRAIL IS THROWN TO THE MATERIAL* . . .PILE, CARPENTERS REMOVE 2 HANDRAIL* . . . PIECES BEFORE MOVING TO NEXT SECTION.CARP-1 BEGINS AT END-PC-I
1 CARP-1 GET+SLIDE HANDRAIL AT END-PC-3 ( OUT OF 2 STANCHION SLEEVESAND ADJUST PF 2 ( 4 5 6 7 )
A10 R0 G3 (H3 X0 16 A0 ) 1.00 31O.2 CARP-1 HOLD+THROW HANDRAIL FROM CARP-1 TO MATL-PILE
A0 B0 G0 Al B0 P0 A0 1.00 10.3 CARP-2 GET+SLIDE HANDRAIL AT END-PC-1 ( OUT OF 2 STANCHION SLEEVES
AND ADJUST PF 2 ( 4 5 6 7 )A10 BO G3 (H3 X0
4 CARP-2 HOLD+THROW HANDRAIL FROM CARP-2A0 B0 G0 Al B0
16 A0 ) 1.00 310.TO HATL-PILEP0 A0 1.00 10.
TOTAL TMU 640
PAGE 499
DATA SYNTHESIS AND BACK-UP
471. TEAR DOWN STANCHION ON PIPE STAGING (AT SIDE SHELL) WITH WRENCH AT ANYWAYS CARPENTER
PER SECTION (16'LONG) OF PIPE STAGING OFG: 3 16-FER-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN STANCHION ON* . . . SECTION OF PIPE STAGING (l6'LONG).* . . . CARPENTERS WORK SIMULTANEOUSLY.* . . . STANCHIONS ARE THROWN TO HATERIAL* . . . PILE.CARP-1 BEGINS AT END-PC-1
1 CARP-1 LOOSEN WITH KNEEL 2 NUTS AT END-PC-l 1 ARM-STROKE USINGWRENCH-1 AND HOLD
A1 B16 G1 A0 B0 (P3 A1 L3 )A0 B0 F0 A0 (2) 1.00 320.2 CARP-1 HOLD+LOOSEN 2 NUTS AT END-PC-1 13 WRIST-TURNS USING WRENCH-1
ASIDE TO CARP-1A0 B0 G0 A0 B0 (P3 Al L24 )A1 B0 P1 A0 (2) 1.00 580.3 CARP-2 LOOSEN WITH KNEEL 2 NUTS AT END-PC-3 1 ARM-STROKE USING
WRENCH-2 AND HOLD SIMO<Al B16 G1 A0 B0 (P3 A1 L3 )AO BO PO A0 > 1.00 0.4 CARP-2 HOLD+LOOSEN 2 NUTS AT END-PC-3 13 WRIST-TURNS USING WRENCH-2
ASIDE TO CARP-2 SIMO<A0 B0 G0 A0 B0 (P3 Al L24 )A1 B0 P1 A0 > 1.00 0.5 CARP-1 GET+REMOVE 2 BOLTS FROM END-PC-1 TO CARP-1 F 2
Al 30 G3 Al B0 P1 A0 2.00 120.6 CARP-2 GET+REMOVE 2 BOLTS FROM END-PC-3 TO CARP-2 F 2 SIMO
<Al BO G3 Al BO P1 AO > 2.OO 0.7 CARP-1 THROW 2 NUTS AND BOLTS FROM CARP-1 TO MATL-PILE WITHOUT BEND
Al B0 G1 A1 B0 P0 A0 1.00 30.8 CARP-2 THROW 2 NUTS AND BOLTS FROM CARP-2 TO HATL-PILE WITHOUT BEND
SIMO<Al BO Gt Al B0 P0 A0 > 1.00 0.
9 CARP-1 GET+THROW STAN FROM END-PC-1 TO MATL-PILE WITHOUT BENDAl B0 G3 Al B0 P0 A0 1.00 50.
10 CARP-2 GET+THROW STAN FROM END-PC-3 TO MATL-PILE WITHOUT BEND SIMD<Al B0 G3 Al B0 P0 A0 > 1.00 0.
TOTAL TMU 1100.
DATA SYNTHESIS AND BACK-UP
472. TEAR DOWN STAGING PLANK FOR SIDE SHELL (BTWN 2 PIPE STAGING SECTIONS)WITH HAND AT ANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-82REPRESENTS ELAPSED TIME
* REPRESENTS TEARING DOWN BOARDS BETWEEN 2* . . . PIPE STAGING SECTIONS. THERE IS A 16'* . . . GAP BETWEEN SECTIONS. BOARDS ARE* . . . STACKED SO THE CRANE CAN TRANSPORT* . . . THEM, CARPENTERS WORK SIMULTANEOUSLY.CARP-1 BEGINS AT SECTION-l
1 CARP-1 AND CARP 2 GET+MANIPULATE WITH BEND WITH 1 STEP BOARD ATSECTION-1 ( STACK BOARDS )
A3 B6 G3 M10 X0 IO A0 1.00 220.
TOTAL TMU 220.
473. TEAR DOWN STAGING PLANK ON PIPE STAGING (AT SIDE SHELL) WITH HAND ATANY WAYS CARPENTER
PER STAGING PLANK OFG: 3 16-FEB-S2REPRESENTS ELAPSED TIME* REPRESENTS TEARING DOWN BOARDS ON PIPE
* . . . STAGING SECTION (16'LONG). BOARDS ARE* . . . STACKED SO THE CRANE CAN TRANSPORT* . . . THEM, CARPENTERS WORK SIMULTANEOUSLY.
CARP-1 BEGINS AT END-PC-1
TOTAL TMU 220.
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