XH .Series Ver 1 0
0peration Manual
DIGITAL READOUTS
Dear users
Thank you for purchasing our digital readouts The readout is
applicable for the machines such as milleres lathes machines
grinding machines and EDM etc Read all the instructions in the ma
nual carefully before use and strictly follow them Keep the for
fut ure references
:
.
, , ,
, ... -
.
.
digital
boring
manual
1 General Description.
1.1 2M . ... 1....... .............................. ..........
1.2 3M 2. ..................................................
1.3 2L 3................................................... ...
1.4 2G 4................................................... ...2 Parameters Settings.
2 1 Encoder Type Setting 5. .... ....................2 2 Resolution Setting 5. ........................
2 3 Direction Setting 5. ......... ...................
2 4 Compensation Type Linear or non linear Setting 6. ( - ) ...3 Basic Functions.
3 1 Reset 7. .................. ........... ....... ...
3 2 mm/inch Mode 7. ...................... . .... .. . ..
3 3 Enter Dimension 7. .............. ............ ..
3 4 Function 8. ................................... ...
3 5 ABS INC Mode 9. / .............................
3 6 Clear 200 Sets SDM Datum 9. ..................
3 7 Powr-down Memory 9. ...... ................. ..3 8 Sleeping Mode 9. ............................
3 9 Ref Datum Memory Function 10. .................
3 9 1 Find Ref Find the ref mark position 11. . ( ).......3 9 2 Recall the Work Datum Zero FD ORG . 12. . ( ) ..
3 10 Linear Compensation 13. ....................
3 11 Non Linear Error Compensation 13. - ........ ...
3 12 200 Sets Sub Datum Function 15. ........... .....
4 Special Functions.
4 1 Linear Drilling 20. .... .........( 、 )...... ...2M 3M4 2 PCD Function 2M 3M 21. ( 、 ) ............ .........
4 3 R Function 23. ........ .............( 、 ) ....2M 3M
4 3 1 Smooth R Function 24. . ............... .....4 3 2 Simple R Function .27. . ............. . .......
4.4 Chambering 30...................( 、 )2M 3M . .
4 5 Tool Compensation Function 31. ..( 、 ) .....2M 3M ..
4 6 Machining of Oblique Plane 32. ...( 、 ).....2M 3M ..
4 8 Calculator 36. .................. ......... ......4 7 M3 Function(2M) 36. ................. ..........
4 9 Machining Function of the Grinding Machine.4 9 1 Digital Filter . 37. . .. ........ ....( )2G .. ......
4.10 Machining Function of Lathe 38...........( )2L
4.10.1 200 Sets TOOL Base 38............. .....
4 10.2 Taper Function 40. .................. .....4 10.3 R D Function 40. / .................. .. .. . ..4 10.4. ............ ..... ........About the 2L2 41
5 Appendix.
5 1 Specification of Digital Readout 42. ...... ......... ..
5 2 Installation Diagram 42. ................. ....... ..5 3 Troubleshooting 43. ....................... ..... ..
Contents
1 1 2M Panel.
2M ENTinchmm
1
Cal CE
RI
R tan
M3
cosM2
sin
M1
s
SDM
1 2 3M Panel.
3M
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RIR ENT
2
Cal CE
b
D
DSDM
Zo
mminch
7 8 9
4 5 6
1 2 3
0
1 3. 2L
Cal CE
X
arc +
- sin
cos
tan
=
ENTCALLRIRI
ZZ1
( )2L Panel2
4)Z+Z1 Function(2L2)
( ).2L2
3
2LTOOLR
D
D
DSDM
3
1 4 2G Panel.
Zo
mminch
7 8 9
4 5 6
1 2 3
0
2G
Cal CE arc +
- sin
cos
tan
=
ENTRIRI SIFT
4
X
Y12
g m
D
D
SDM
5
ENT
window will display by centigrade.If this parameter is input by Negative number,Display
The display window will display by degree/minute/second.)
ed s
ed
、、 、、 、 、 、
10 0.
arcCal CE arcCal CE
arcCal CEarcCal CE
arcCal CEarcCal CE
6
Step 5: Set decimal digits under inch system(usually set 4 digits)
INCH DOT INCH DOTX04
4
Press the key to access the system setting.
S
arcCal CE
arcCal CE
5
5
arcCal CE5
5
arcCal CE
arcCal CE
arcCal CE
1.00000
2.00000
3.00000
1.00000
2.00000
3.00000
7
ENT
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
SDMABS
INC
arcCal CE
SDMABS
INC
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
8
:s
9
RI
RI
RI
Power-down Memory
S
arcCal CEarcCal CE
arcCal CE arcCal CE
10
11
RI
ENTRI
er
D--
D--
D--
--arcCal CEarcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CEarcCal CE
12
ENTRI
--
arcCal CEarcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CEarcCal CE
13
ENT
ENT
arcCal CE
arcCal CE
14
ENT
arcCal CE
arcCal CEarcCal CE
arcCal CE
15
S
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM SDM
SDM
SDM
SDM
arcCal CE
arcCal CE
16
ENT
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
1 1
1
SDM
arcCal CE
arcCal CEarcCal CE
arcCal CE
arcCal CE
M
17
ENT
ENT
ENT
SDM
SDM
SDM
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
18
SDM
arcCal CE arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
19
ENT
ENT
ENT
ENT
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
SDM
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
20
ENT
ENT
arcCal CE
arcCal CE
arcCal CE arcCal CE
21
ENT
ENT
ENT
66
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
22
ENT
ENT
ENT
ENT
ENT
5 34 640. 1
ENT
20 000.
f
arcCal CE arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
XY plane R
23
R
24
R
25
ENT
ENT
ENT
ENT
ENT
R
R
CT POS
f
arcCal CE
arcCal CE
arcCal CE
arcCal CE
e
26
ENT
R
ENT
ENT
ENT
ENT
ENT
R
TL DIA
MAX CUT
ST ANG
ED ANGarcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
27
ENT
R
R
XY plane R
28
ENT
ENT
R
R
arcCal CE
arcCal CE
arcCal CE
ENTarcCal CE
29
ENT
ENT
ENT
ENT
ENT
R
R
TL DIA
MAX CUT
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
30
ENT
ENT
ENT
ENT
ENT
ENT
ENT
ENT
cosM2
cosM2
Enter chambering f nction Input parameters center coordinate chamberu . :
length chamber width TOOL diameter、 、 .
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
31
ENT
ENT
ENT
ENT
tan
M3
tan
M3
tan
M3
ENT
Aapplicable to:milling machine
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
32
ENT
ENT
sin
M1
sin
M1
a
arcCal CE
arcCal CE
arcCal CE
arcCal CE
33
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
20 000. ED POS
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
0.000 ST POS
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
10.000 DIA
0.000
-20.000
0.000
0.000
ENT
ENT
ENT
ENT
ENT
ENT
ENT
sin
M1
sin
M1
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
3.535 NO 1
0.000
-16.465
SDMABS
INC
SDMABS
INC
SDMABS
INC
SDMABS
INC
arcCal CE
4.7 M3 Function(2M)
①ΔZ=0.1 A=60 ΔZ=0.1 A=120
③ΔZ=-0.1 A=-120 ΔZ=-0.1 A=-60
X0
0 000.
0 000. SDM 1
XZ
The function is used to process erect bevct of Z axis.
There are 4 cases,as followe.
Steps(Take XZ as an example)
1)Move machine TOOL to it straightly align with the starting point:
2)Enter M3 Function and select XZ plane.
arcCal CE
arcCal CE
34
5)
6)
ANGLE
Z STEP
6
.0
0
1
60 000.
0 100.
0 055.
0 115.
0 175.
6 930.
65 000.
ANGLE
Z STEP
0 100.
0 100.
0 100.
0.100
0.100
X
X
X
X
Z
Z
Z
Z
1
2
3
120
SDM 1
7)
8)
:
3)Input angle of bevel:
ΔNORE:The Z value of each step is the same and display in Y axis.
Δ4)Input step of Z axis:( Z)
First point,move machine until X axis displays “0”and Z axis a positivedistance of 0.1mm,then press next point:
Second point move machine until X axisdisplays “0”and Z axis a positive distanceof 0.1mm then press next point:
,
Third point move machine until X axisdisplays “0”and Z axis a positive distanceof 0.1mm then press
next point:
,
Last point move machine until X axisdisplays “0”and Z axis a positive distanceof 0.1mm
,
:
ΔInput step of Z axis:( Z)
Last point
9)Press to quit the function:
The DRO displays current vlue of X Y.、
10)Following formula ,verify the value:
Formula :
I: Step number
NOTE :The operation of YZ plane can be dealt with in the same way.
X /Z : Shift of point I of X/Z axis.(I) (I)
ΔX/ΔZ:Step value of X/Z axis.
arcCal CE
arcCal CE
arcCal CE
arcCal CE
0 055.
0 100.
0.100
arcCal CEarcCal CE
arcCal CE
arcCal CEarcCal CE
arcCal CE
35
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
Cal CE
sin
M1
sin
M1
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
36
SIFT
SIFT
SIFT
SIFT
arcCal CE
arcCal CE
37
38
10
39
ENT
ENT
ENT
ENT
ENT
ENT
ENT
TOOLR
DTOOLR
D
TOOLR
D
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
arcCal CE
CALL
CALL
CALL
40
ENT
arcCal CE
arcCal CE
arcCal CE
4.10 4 About the 2L2.
2L2 is a 3 axis digital readout specially used on lathe machines.It is the same as that of 2L except that it adds a linear scale (Z1) to measure the positionof the machine working stage.
The lathe machine is equipped with two linear scales (Z and Z1) in the same direction,the position of the machine working stage will be decided by the displacement of the twolinear scales (Z+Z1). The displacement value will be displayed in the Z axis displaywindow. The Z1 axis of the display has no function of zero window and linear correction,the resolution will be set by Z axis and it is the same as that of Z axis. The countingdirection will be set by Z1 axis. Adjust the mounting and counting direction of the readerheads and make the counting and moving direction of Z and Z1 the same, and then Zaxis display window will show the moving position of the machine stage.
See Picture I:
Picture I Picture II
41
Please refer to the picture when connecting linear scales and DROⅡ
2L2
42
1)supply voltage: AC100V~240V;50Hz/60Hz2)Power consumption: 7~15VA3)Operation temperature: 0 C~45 C4)Storage temperature: -30 C ~70 C5)Relative humidity: <90%(25+5 C)6)Max coordinate number: 37) allwable input signal: TTL sqare wave8)Allowable input signal frequency: <600kHz
2.5 5 1010)Max rasolution of digital angle: 0.0001/PULSE11)Weight: 2.1kg12)Dimensions: 310 195×80 mm13)Linear scale
Power supply: DC 5VS Outputs 2 channels of TTL square wave with a phase diffrence
Of 90 (with the ref mark signal)Current : 50mA 100
Readout
9)Resolution of digital display length: 0.1um 0.2um 0.5um 1um 2umum um um
ignal:
~ mA.
、 、 、 、 、、 、 .
( )
arc
tan
M3M1
tan
M3
Sin
M
COS
M2
COS
M2RI
R ENT
310268
154
195
80
43
Solutions
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