Truck Crane 1405 - Maxilift Australia
Transcript of Truck Crane 1405 - Maxilift Australia
MO2P010_0_EN
Truck Crane
1405Use and Maintenance
Instructions
TRANSLATION OF THE ORIGINAL INSTRUCTIONS
Copyright: EFFER S.p.A. - © All rights reserved
Reproduction, storage and alteration of this publication, even in part, is prohibited without written authorisation from EFFER S.p.A.
EFFER S.p.A. Via IV Novembre, 12 - 40061 Minerbio (BO) – ItalyPh. +39 051 4181211 - Fax +39 051 4181491
web: www.effer.com - e-mail: [email protected]
00 3 MO2P010_0_ENUse and Maintenance Instructions
Contents
1 - GENERAL INFORMATION Introduction .................................................................................................................1The end user ...............................................................................................................2
Subjects not dealt with ........................................................................................2How to read .................................................................................................................3For the purchaser ........................................................................................................4Notes ...........................................................................................................................5Symbols ......................................................................................................................6Terminology .................................................................................................................7
2 - SAFETY REGULATIONS AND WARNINGS
Prescriptions for use of the Loader crane ...................................................................1Operating environment ................................................................................................5Safe distance from electric lines .................................................................................7 Provisions in case of electric shock ............................................................................8
Behaviour ............................................................................................................9Application of accessories ..................................................................................9
Operator training .......................................................................................................10Basic requirements ...........................................................................................10Safety criteria .................................................................................................... 11Activation of controls .........................................................................................12Operator position and control stations ..............................................................13
Operator position ........................................................................................13Control stations .................................................................................................16
A - Bottom side controls ..............................................................................16B - Top-seat controls with platform .............................................................16C - Top-seat controls ...................................................................................16D - Remote/radio-control or Push-button panel ..........................................18E - Stabilisation controls .............................................................................19
Manual controls ...............................................................................................19Controls with radio control ...............................................................................19
Safety on stabilizer controls .............................................................................20F - Warning devices in the cab (EC Crane) ...............................................21G - Lighted device for radio-controlled crane .............................................21H - Tamper protection on the safety devices ..............................................22I - Manually adjustable jacks ......................................................................22
Duties ................................................................................................................23Crane operator ............................................................................................23Vehicle driver ..............................................................................................23Routine maintenance technician .................................................................23Site or industrial area Safety Manager .......................................................23Crane Safety Manager ................................................................................23
Manual lifting of supplied material ....................................................................24Operations ..................................................................................................24Execution ....................................................................................................24
00 4 MO2P010_0_ENUse and Maintenance Instructions
Operating signals ..............................................................................................25Personal protection devices ..............................................................................26
Operator responsible for load positioning and use of the crane ........................................................................................26Routine maintenance technician ......................................................................26Truck driver ......................................................................................................26Crane owner (not supplied by EFFER) ............................................................27
Workplace .........................................................................................................28Footrest surface ...............................................................................................28Production areas ..............................................................................................28Public and private areas ..................................................................................29Delimiting the operating area ...........................................................................30Special cases ...................................................................................................31Surrounding temperature .................................................................................30Humidity ...........................................................................................................32Vibrations and impacts.....................................................................................32Contaminating agents ......................................................................................32Radiation ..........................................................................................................33
Visibility and lighting .........................................................................................33Placement and set-up .......................................................................................34Stabilizer foot cylinders .....................................................................................34Stabilizer foot plates .........................................................................................34Foot support surface ........................................................................................34Use of the removable supporting plates ..........................................................36
Working conditions ...................................................................................................38Max inclination of the work area 5° ...................................................................38Working with the boom over 50° .......................................................................39Positioning ........................................................................................................41Shifting, driving and parking .............................................................................43
Residual risks and dangers .......................................................................................47During use ........................................................................................................47Driving/transport ...............................................................................................55During transport ................................................................................................56During parking/folding .......................................................................................57Descent due to hydraulic leakages ...................................................................58During maintenance ..........................................................................................59
General risks for operators and exposed persons ...................................................60
3 - DESCRIPTION AND TECHNICAL FEATURES
European Community directives .................................................................................1European Community directives .........................................................................1Main reference standards ...................................................................................1
Allowed installations / prescriptions for use ................................................................1General description .....................................................................................................3Identification of the crane ............................................................................................4Main parts ...................................................................................................................5Getting oriented ...........................................................................................................5What is meant by configurations of… .........................................................................6
…rest or work pause ...........................................................................................6
00 5 MO2P010_0_ENUse and Maintenance Instructions
…work .................................................................................................................7…transport ..........................................................................................................7
Work areas ..................................................................................................................8Instructions for use of a crane with stabilizers fully extended (only with PROGRESS device) .........................................................................................................................9Plates and notices .....................................................................................................12Dimensions and capacities during transport .............................................................17Technical features .....................................................................................................18
Load diagrams ..................................................................................................18General instructions to achive maximum performances with jib ................19Locking extensions by a pin for special lifting .............................................19General instructions ....................................................................................19General instructions for the installation of hydraulic cranes ...........................Hydraulic layout .............................................................................................Technical data .................................................................................................
4 - CONTROLS AND INSTRUMENTS Preamble .....................................................................................................................1Cabin controls .............................................................................................................1Crane/stabiliser controls activation selector ................................................................2Stabilisation controls ...................................................................................................3Levers functions to handle stabilizers .......................................................................4Crane control seats .....................................................................................................4 Electric controls ..........................................................................................................8
Main panel ..........................................................................................................8Using selection button for radio-controlled stabilizers ........................................6
Radio-control ...............................................................................................................7Hetronic push-button panel .................................................................................8Emergency station-crane with radio remote (for specialised personnel only) ........................................................................13Top seat controls with radio control (OPTIONAL) .............................................15
Hydraulic system instruments ...................................................................................16
5 - FUNCTIONAL DEVICES
HSS Device .................................................................................................................1
6 - SAFETY DEVICES
“PROGRESS” Crane Control System .........................................................................1Partial by-pass of the stability control device (stabilizers control) ..............................................................................................2
Total by-pass device of PROGRESS device ..............................................................3OUTRIGGERS MOVEMENT IN EMERGENCY .................................................5
Warning device in the cabin .......................................................................................8Device controls ...................................................................................................8Correct in-outline closing device of stabilizers ....................................................8“Overlimit” warning device in the cabin for incorrect positioning of the boom (optional) ...........................................................................................................10
00 6 MO2P010_0_ENUse and Maintenance Instructions
Emergency buttons ................................................................................................... 11Spirit levels ................................................................................................................12Holding valves ...........................................................................................................12Luminous indicators .................................................................................................13
7 - ACCESSORIES Quick couplings ...........................................................................................................1Multiconnection quick couplings (MULTIFASTER) ......................................................1Single quick couplings .................................................................................................2Electrical connectors ...................................................................................................3Heat exchanger ..........................................................................................................4Swivelling stabiliser jacks ............................................................................................5Fly-jib .........................................................................................................................10
Marking ............................................................................................................10Driving on the road ..........................................................................................10Handling ..........................................................................................................11Assembly .........................................................................................................12Locking extensions by a pin for special lifting ..................................................13Dismantling ......................................................................................................13Working conditions...........................................................................................14Jib functioning (type 2) >180° angle ..............................................................15Residual risks ..................................................................................................16
Manual extension with CE mark ................................................................................17Marking ............................................................................................................17Driving on the road ..........................................................................................18Handling/Lifting ................................................................................................18Assembly/Dismantling ....................................................................................19Working conditions...........................................................................................21Load diagram ...................................................................................................21Non CE manual extension ...............................................................................22
Various accessories ..................................................................................................23Various applications ..........................................................................................23Hydraulic and electro-hydraulic accessories ....................................................23Instructions for use of Bucket accessory .........................................................25
Lifting and slinging accessories ................................................................................27Lifting hook .......................................................................................................28Swivel Hook: ...................................................................................................28Swivel Hook with bearing: ................................................................................28Swivel pot hook: ................................................................................................29
Lifting and slinging accessories not supplied by EFFER .........................................30Chains ...............................................................................................................30
Metal cables (slings) .................................................................................................30Synthetic fibre ropes .........................................................................................31Type of anchorage ............................................................................................31
7/A - ACCESSORIES - WINCH
General description .....................................................................................................1Driving on roads ..........................................................................................................2
00 7 MO2P010_0_ENUse and Maintenance Instructions
Movement ...................................................................................................................2Controls description ....................................................................................................2Opening and closing the crane with winch ..................................................................2Working conditions ......................................................................................................3
Loading diagram and configurations ...................................................................3Preliminary checks ..............................................................................................4Operating instructions .........................................................................................4
Safety device ...............................................................................................................8Overload device ..................................................................................................8Load limiter .........................................................................................................8Operation ............................................................................................................8Deactivating the device .......................................................................................8
Cabel limit device ........................................................................................................8Operation ............................................................................................................8Functional check .................................................................................................8Deactivation ........................................................................................................8
1.0 Electrical connection of the rope up limit switch device ........................................91.1 Use of the winch with fall of headpulley on basic crane ..............................91.2 Use of the winch with fall of headpulley on supplementary jib ......................9
2.0 Use of the crane to work with the hook without using a winch ............................102.1 Work with the hook with the basic crane ...................................................102.2 Work with the hook with supplementary jib .................................................10
3.0 Winch with headpulley at basic crane’s extensions ........................................... 113.1 Winch with one fall of headpulley ............................................................... 11 3.2 Winch with two falls of headpulley .............................................................13
4.0 Winch with headpulley at end of fly-jib’s extensions ..........................................154.1 Description of supply ..................................................................................154.2 Rope assembly on pulleys at fly-jib’s extensions .......................................174.3 Rope diassembly on headpulleys at fly-jib’s extensions ............................204.4 Crane folding .............................................................................................204.5 Crane unfolding .........................................................................................22
8 - USER INSTRUCTIONS
General warnings ........................................................................................................1Pre start-up checks and verifications .................................................................1During use .........................................................................................................2Warnings about the system ...............................................................................2
Use sequences ...........................................................................................................4Start-up ...............................................................................................................4Cold start ............................................................................................................4Opening the Stabilizers .......................................................................................5Crane opening ....................................................................................................7Crane closing .................................................................................................... 11Stabilisation retraction ......................................................................................13Stop ..................................................................................................................15Vehicle handling/crane transportation ...............................................................15Precautions after use ........................................................................................16
00 8 MO2P010_0_ENUse and Maintenance Instructions
9 - MAINTENANCE
Introduction .................................................................................................................1Maintenance schedule ........................................................................................2
Greasing and lubrication .............................................................................................8Greasing .............................................................................................................9Lubricating jobs ...................................................................................................9
Hinge pins ..........................................................................................................9Slewing system ..................................................................................................9Topping and changing oil of gear box ..............................................................11
Hydraulic extensions .........................................................................................12Stabiliser tubular sections .................................................................................13Winch cables ....................................................................................................14Transmission heads, transmission block ..........................................................14Winch ................................................................................................................14
Changing oil when servicing the filters ......................................................................15Recommended hydraulic oils ............................................................................15Cleaning and replacing the filters .....................................................................17
Return filter (type 1) .........................................................................................17Return filter (type 2) .........................................................................................18Delivery filter (when mounted) .........................................................................18Air filter (type 1) ...............................................................................................19Air filter (type 2) ...............................................................................................19
Replacing the hydraulic oil ................................................................................20Bleeding the air from the hydraulic circuit .........................................................21
Tightening the screws and bolts ................................................................................22
Checks, tests and inspections ...................................................................................23Inspecting the structural steelwork of the crane ...............................................23Inspecting the hydraulic system ........................................................................25Checking the hooks, cables and lifting accessories .........................................26Inspecting transmission head and transmission block ......................................30
Operational check of the safety devices ...................................................................31
Cleaning and maintaining the crane ..........................................................................32Warnings on cleaning equipment and systems ................................................32
Various maintenance jobs .........................................................................................33Maintenance of painted parts ...........................................................................33Plates and labels ..............................................................................................33
Decommissioning and disposal .................................................................................34Decommissioning ............................................................................................34Disposal ............................................................................................................34
ENCLOSE
Appendix Y ....................................................................................................................
01 1 MO00001_1General information
1 General information
Introduction
- We at EFFER thank you for the trust you have placed in us and remind you that your crane is the result of the constant product improvement that our technicians pursue continually, thanks to ongoing research in the lifting sector.
- This publication must be read and understood by every operator interacting with the crane.
- Our Service network is at your disposal to resolve situations whose solution is not clear in this publication.
With regard to topics not relating to EFFER product (e.g. lifting accessories and asso-ciated controls, safety and training instructions, etc.) helpful tips are reported in some sections, for which EFFER disclaims any express or implied warranty or liability. EFFER shall not be liable for damages of any kind regarding the information or procedures reported. This information is not a substitute for laws and shall not restrict or alter the obligation to comply with federal and state laws and local rules.
MO00001_1 01 2General information
The End-User...
The manual supplies instructions that EFFER S.p.A. considers absolutely necessary for manoeu-vring the loader crane and maintaining its efficiency.
The manual supplies information on the following subjects:
1. description of the safety regulations, explanation of the controls, how to operate avoiding risk situation for the operator and exposed persons;
2. constructional features, technical data and description;
3. functioning;
4. frequency and descriptions of the routine maintenance that may be carried out by the operator, and information on the frequency of extraordinary maintenance;
5. guarantee and compilation of the check records and coupons;
6. disposal of the materials comprising the crane.
Notes This manual gives instructions for a crane installed on a truck. Instructions for installation on ships or fixed structures are dealt with in separate publications.
The purpose of the manual is to inform and train the personnel operating in contact with the crane. Each person must acquire the necessary information for carrying out his job. The table below lists, indicatively and on the basis of the person’s qualification, the chapter he must refer to. Each person may have more than one qualification (e.g. the driver, handling operator and disposal operator may be the same person):
QUALIFICATION “Safety Manager“
Driver of the truck on which the loader crane is installed
Operator in charge of handling “and positioning of load“
Operator in charge of routine mechanical, hydraulic and electrical maintenance of the loader crane
Operator in charge of disposal of the loader crane
CHAPTERS 2
2 - 3
2 - 3 - 4 - 5 - 6 - 7 - 8 - 10
2 - 8 - 9 - 10 - 11
Subjects not dealt withIn this publication:
- the subject “Installation of the hydraulic loader crane” is NOT dealt with.
- extraordinary maintenance operations are NOT dealt with, operations which must be carried out only by EFFER Authorised Workshops.
MO00001_1 01 3General information
How to read...
The manual consists of 10 chapters and of specific documentation supplied separately:
1 - GENERAL INFORMATION 2 - SAFETY REGULATIONS AND WARNINGS 3 - DESCRIPTION AND TECHNICAL DATA 4 - CONTROLS AND INSTRUMENTS 5 - FUNCTIONAL DEVICES 6 - SAFETY DEVICES 7 - ACCESSORIES 7A - ACCESSORIES - WINCH 8 - USER INSTRUCTIONS 9 - MAINTENANCE
RECORDS AND COUNTERFOILS ATTACHED DOCUMENTATION
Page numbering begins anew with each chapter and consists of the chapter number (A) plus the progressive page number (B).
For practical reasons the general graphics refer to machines installed “behind the cabin”.
In the example below: chapter 01, page 9.
A B
00762107A
MO00001_1 01 4General information
For the purchaser ...- The manufacturer is responsible for the efficiency of the product when it leaves the factory and
for its conformity with the declared standards.
- The installer is the company that materially carries out installation of the crane with the truck and is therefore responsible for it.
In particular the installer is responsible for:
- components used for installation;
- the crane’s conformity with the regulations in force in the country of use with regard to technical, safety and road circulation matters;
- regularisation of the paperwork for CE certification of the crane-vehicle installation.
As a result of the crane-truck coupling the installer may be obliged to reduce the crane’s indicated capacity. In this case the installer must supply new load diagrams to replace both the stickers on the crane and the diagrams in this manual.
- Always make sure beforehand that you have understood the use and maintenance instructions. Failure to observe the standards contained therein releases the Manufacturer from any responsibility for damage to persons and/or property.
- The use of spare parts that are not original or authorised by EFFER, and even slight modifications or tampering, release the Manufacturer from any responsibility for use or functioning and the safety of persons, animals and/or property.
- Installation accessories (pumps, power take-offs etc.), any lifting equipment and units (buckets, winches etc.), control devices (remote/radio-controls, refrigerators etc.) and anything else that may be supplied by the authorised EFFER installer, must be accompanied by the instructions. Check the contents and study the prescriptions in depth before operating with the crane.
- Depending on the main standards in force from Nation to Nation, or of contractual choices (optionals), some of the devices shown and described in the manual may not be present on the crane.
MO00001_1 01 5General information
Notes ...
Text describing situations or actions which, given the importance of the message, must be high-lighted, will be presented as explained below:
DANGERUsed to highlight situation or action which could cause serious damage to persons or to the crane’s structure.
CAUTIONUsed to warn the operator of manoeuvres or procedures that require care and caution.
PROHIBITIONUsed to inform the operator of manoeuvres or procedures that are STRICTLY FORBIDDEN.
NOTES …text describing situations or actions which…
Used to inform the operator of special notes.
MO00001_1 01 6General information
Symbols ...
List of symbols which, on the crane and in this publication, summarise an action that may be assigned to a particular element of the crane.
Foot jack movement
Stabiliser movement
Column movement
1st arm movement
2nd arm movement
Basic crane extension movement
Fly-jib movement
Fly-jib extension movement
Winch cable movement
Bucket/orange peel bucket movement
Rotor movement
up
down
extraction
retraction
direction to attribute to the control
direction to attribute to the control
clockwise rotation
anticlockwise rotation
locked
unlocked
weight
load
centre of gravity
MO00001_1 01 7General information
Terminology ...
HirerPerson who, when he is also the operator, has hired the truck with the loader crane installed.
Basic rigCrane without optional parts or accessories.
Work area (or zone) AArea where the crane can work under conditions of maximum stability and therefore at top perform-ance
Work area (or zone) BArea where the crane can work under conditions of reduced stability and therefore at reduced per-formance.
BucketItem of equipment for lifting aggregates, consisting of mobile steel valves hinged to each other.
Power circuit System transmitting energy or force used for moving any element of the crane (hydraulic, electric, pneumatic etc).
Counter-chassis (synonym: false chassis)Metalwork element interposed between the crane and the vehicle chassis.
ManufacturerProducer of the loader crane.
Stabilising elementsParts of the crane which contribute to stabilising the machine (movement controls, stabilisation ele-ments, stabilisers, foot jacks).
Telescopic element (synonym: telescopic extension or extension)Grouping of two or more tubes which slide one into the other so that the element can be extended or retracted.
Hydraulic extensionExtension or retraction through hydraulic action.
Telescopic extension See Telescopic element.
JIB (JIB or Aerial ) See fly-jib.
Employed workerPerson suitably trained and informed who works as an employee with the specific duties of driving and operating the crane.
Moment limiterCapacity control device connected to the safety actions envisaged in the case of exceeding capac-ity.
MachineThe crane and vehicle unit.
MomentProduct of the load by the outreach.
MO00001_1 01 8General information
OperatorPerson/s handling and positioning the load, in charge of routine maintenance and cleaning of the crane.
Crane operatorPerson who moves and positions loads with the crane.
Aerial partPart of the crane including base, slewing ring or rack, column, arms, hydraulic extensions, fly-jib and the controls that activate them.
Ground partPart of the machine including counter-chassis, stabilisers, foot jacks and the controls that activate them.
Exposed personAny person who is wholly or partly in a dangerous area.
OwnerThe person who owns the truck with the crane installed.
Maximum loadThe maximum load the crane can lift in relation to the outreach. The values are shown in the load diagram.
Safety managerThe owner and/or hirer and/or the employed worker, together with the site manager if lifting opera-tions (loading/unloading) are carried out in areas classified as building sites, industrial sites or places of public or private access.
RiskResult of the combination of probability and degree of seriousness of possible wounds or health damage in a dangerous situation.
OutreachDistance between the column axis and load axis.
ExtensionsTerm used to describe a telescopic element activated hydraulically.
Fly-jib (synonym: Jib) Articulated extension inserted into the last extension of the basic crane and connected to the crane power circuit to increase lifting distance.
VehicleMeans of transport such as: trucks, road tractors, special use vehicles, articulated trucks and trailers, homologated for road circulation, on which the crane is installed.
Winch (synonym: capstan)Simple machine for load lifting, consisting of a cylindrical part around which a cable is wound, linked to a motor.
Danger zone (or operational zone) Any area within and/or near a crane in which there is a continuously present risk for the safety and health of exposed persons.
Terminology ...
02 1 MO00002_3Safety regulations and warnings
2Safety regulations and warnings
00762001
In cranes without a load/time limiter safety device, it is forbidden to remove loads of unknown mass after hooking and lifting them.
00762062
The loader crane must not be used for lifting persons.
Prescriptions for use of the Loader crane
00762002
It is forbidden to hoist loads or to pull outside the hook’s vertical axis.
In cranes without a safety device (load/time limiter), it is essential to lift the permitted loads according to the load diagram which remains within the circle arcs indicated.
It is forbidden to remove the load beyond the circle arcs
A
02 2 MO00002_3Safety regulations and warnings
00762003
It is forbidden to hoist loads whose chemical-physical characteristics classify them as dan-gerous (e.g. inflammable, toxic or explosive materials etc.).
00762005
00762068
00762109
It is forbidden to use the crane arm to push or drag objects
It is forbidden to hoist, pull or push objects fixed to the ground.
It is forbidden to exert forces other than vertical lifting.
Prescriptions for use
It is forbidden to handle loads that exceed the maximum capacity of the hook established by EFFER. (see chapter “3 - Description and tech-nical characteristics.”) Otherwise structural damage of the joint and/or crane may occur. It is forbidden to apply hooks to cranes and joints with a capacity greater than that established/approved by EFFER.
?
SWL
?P ?P < SWL
02 3 MO00002_3Safety regulations and warnings
00762112
Prescriptions for use
00762110
00762117A
without the stabilizer rods being properly extended and/or the stabilizer being properly placed on the floor.
It is forbidden to attach the loads in static equilibrium condition (supported or linked to raised struc-tures) to the crane and then suddenly drag and/or disconnect them from the raised structure, exces-sively burdening the structure of the crane. These manoeuvres can lead to structural damage and/or tipping.
00762111
It’s forbidden to place loads on structures which is unknown the resistance.
It is forbidden to handle loads with the wrong side of the arms.It is forbidden to move the arms of the crane
02 4 MO00002_3Safety regulations and warnings
00762116
00762118
Prescriptions for use
It is forbidden to hoist loads or continue work-ing if even a minimum giving way of the ground occurs.
It is forbidden to move stabilisers and foot jacks with the crane in working position.
01504227A
It is forbidden to move the crane arms when the position of the stabilisers does not guarantee maxi-mum stability.
It is forbidden to move the vehicle without the crane being set to the transport position.
00762113A
02 5 MO00002_3Safety regulations and warnings
Prescriptions for use
d= 20m (7 m)
00762006
00762064
Safe distance from electric lines
Is forbidden to operate with the crane (parts and load) at a distance from aerial and underground power lines, below the minimum allowed by the regulations in the country of use.
Un (kv) Minimum distance (d) (meters)
< 1 3,0 m
1 < Un < 30 3,5 m
30 < Un < 132 5,0 m
> 132 7,0 m
If the crane operating range is crossed by electric lines, always maintain a safe distance, as required by national provisions in force (e.g. in the table according to 2004/40/EC and Italian Legislative Decree 81/2008).
CAUTIONIf you do not know the rated voltage of the electric line, always maintain a minimum distance of 7 meters. It is however recommended to increase the minimum distance to 20 meters because of the difficulty of real assessment, possible deformation and crane swinging during work and possible sudden rushes of wind..
Notes The warnings given with regard to dangers of an electrical nature are also valid for the electric lines of trains, trams, trolleybuses and cable-cars etc..
02 6 MO00002_3Safety regulations and warnings
Prescriptions for use
Electrical discharge is a danger to the life of all exposed personnel, so the crane, its accessories and its load should be kept at the distances given in the table below.
00762297
If there is contact between the crane (or load) and electrical cables, or if the distance between crane (or load) and electrical cables is reduced (due to wind, oscillations etc.) and dangerous discharges occur, you must:
- keep personnel and animals in the area at a distance of at least 10 metres from the crane, the truck or the load;
- if you are inside the 10 metre radius you must leave the area by jumping with your legs closed together, and if this is not possible you must remain stationary until specialised help arrives;
- avoid contact with the crane, truck and/or load;
- advise personnel in the surrounding area of the potential danger, forbidding them to approach or touch the crane, truck and load;
- if you are on the vehicle platform or in the cabin you must remain stationary in that position until specialised help arrives.
Notes The same warnings are also valid in the case of contact with electroducts and the electric lines of trains, trams, trolleybuses, cable-cars etc..
In the case of wind, both electrical cables and the crane may oscillate with sharp movements. These sudden movements can dangerously decrease the distance between the crane and the electric lines, thus exposing the structure to possible electric shocks. Therefore, it is advisable to increase the safety distance to 20 meters.
7 m20 m
00762270
Provisions in case of electric shock
d
02 7 MO00002_3Safety regulations and warnings
Prescriptions for use
00762060
00762271
BehaviourThere follow certain types of behaviour which crane design and construction cannot prevent but which, due to the high degree of risk involved, IS FORBIDDEN:
Application of accessoriesAccessory equipment must be envisaged by EFFER and must be suitable for your model of crane. Installation must be carried out only by Authorised Workshops.
CAUTIONFunctioning standards and general prescriptions, assembly operations and routine maintenance must be carried out in accordance with the general instructions given in this manual and with the specific recommendations of this section with regard to observance of the environmental and accident prevention regulations in force. Any operating failure is to be detected and reported immediately to the nearest EFFER technical service.
- It is forbidden to tamper with or remove mechanical, electrical or hydraulic parts of the crane and its accessories.
- it is forbidden to operate with the mechanical, electrical and hydraulic protection devices removed and/or tampered with;
- it is absolutely forbidden to approach the machine in unsuitable clothing (e.g. ties, loose fitting or unbuttoned and/or hanging clothes etc.): wear only work clothes.
02 8 MO00002_3Safety regulations and warnings
Operator training
Basic requirementsOperator aptitude, knowledge and training requirements must comply with standard ISO 9926-1. The concepts are summarised below.
The owner is responsible for checking, including through examinations or aptitude tests, that:
- the crane operator has been declared suitable after a professional medical check-up;
- the operator is physically intact and in full possession of his mental faculties, aware and responsible with regard to the dangers that may arise during use of a crane, and able to keep his head even in high stress situations;
- the operator responsible for the functioning and/or maintenance of the crane is in good health and does not suffer from disorders that might manifest themselves suddenly;
- the operator has good eyesight (even if this results from the use of glasses or contact lenses) and good hearing, fast reflexes, optimal coordination and does not suffer from vertigo:
00762063
- the operator does not use substances that could alter his physical and mental capabilities (phar-maceutical drugs, alcohol, narcotics etc.).
00762065
Imperfect psychophysical conditions could be the cause of serious damage not only to the operator himself but also to persons, animals or property in the crane working area;
- the operator is capable of reading and understanding the documents, symbols, labels and work diagrams applied to the crane;
- the operator is aware that the CRANE MUST NOT BE USED BY UNAUTHORISED PERSONS inasmuch as they are uninformed with regard to the risks and dangers that may arise;
- operators possess the specific skills;
- the operator is over 18 years of age;
00762067
02 9 MO00002_3Safety regulations and warnings
Operator training
Safety criteria…EFFER, in agreement with the main regulations on safety, suggests the following behavioural stand-ards:
Each worker, on the basis of the training and instruction received from the employer, must take care not only of his own safety but also that of others, meaning those persons who might be affected by his actions or omissions in the Workplace. With view to achieving these aims, workers must:
- make correct use of machinery, equipment, tools, dangerous substances, transport equipment and other means;
- make correct use of personal protection devices supplied and, after use, return them to their place;
- not break, change or arbitrarily move safety devices but use them correctly;
- report to the employer or safety manager any situation which, on reasonable grounds, might be considered a serious and immediate danger to health and safety; any defects in the protection systems should likewise be reported;
- contribute, in conformity with national practice and together with the employer and/or safety man-ager, to carrying out all the duties, or fulfilling all the obligations imposed by the competent authority for the protection of workers’ health and for their safety in the Workplace;
- contribute, in conformity with national practice and together with the employer and/or safety man-ager, to the creation of safe and risk-free environmental and working conditions, in such a way as to guarantee workers’ safety and health in their field of activity.
Further, the employer must:
- check that the directives and relevant safety standards are known to the workers and/or their representatives in the company and/or on the premises;
- check that the workers and/or their representatives in the company and/or on the premises observe the directives and relevant safety regulations;
- supply all necessary information for safeguarding the operator’s safety and health;
- observe the safety and health regulations in force.
CAUTIONThis publication must be kept, in perfect state, near the machine and completely at the disposal of anyone who asks for it, as long as the applicant is in some way linked to the functioning of the machine itself.
02 10 MO00002_3Safety regulations and warnings
Operator training
00762128
Activation of controls...The controls must be activated gradually and delicately, especially during the rotation and descent phase, avoiding brusque manoeuvres and sudden releases while starting and start-ing.
00762090
Note This problem can occur also with proportional distributors (load sensing) not equipped with the device (flow sharing).
00762127
DANGERIf several movements are performed at the same time, it is possible that a movement will interfere with another thus creating uncontrolled increases in speed. Proceed with caution.
02 11 MO00002_3Safety regulations and warnings
Operator training
It is obligatory to have enough space around the controls to be able to operate easily and to escape quickly in the case of emergency.
00762243
00762106
Operator position and control stations …Operator positionPlacement of the machine in relation to the user position must permit observation of correct function-ing and the maintaining of safety in the operating area.
During this phase the accessibility of the controls and visibility of the area occupied must be checked, with special reference to placement, functioning and folding.
DANGERIt is forbidden to move the crane arm and/or the load over the operator and/or persons present in the work area.
02 12 MO00002_3Safety regulations and warnings
Operator training
00762244
00762245
The operator must ensure full control and full visibility of the crane and the area of operation to ensure maximum safety at work and must constantly check that nobody is in the dangerous area.
00762086
00762087
CAUTION
Should work and load conditions not permit sufficient visibility, an assistant must be brought in to give signals (see chapter “Operating signals”). In this situation you must operate with maximum caution in observance of the accident prevention regulations in force.
02 13 MO00002_3Safety regulations and warnings
Operator training
Should unexpected movements occur caused by the simultaneous use of different control stations, intervene immediately and re-establish full control of the crane, if necessary by pressing the emer-gency button.
CAUTIONIf you use the radio control, the main hydraulic control bank becomes an emergency station. This station does not have the levers firmly engaged, or if they are, they must be made non-operable using a guard *not supplied by EFFER* locked by a removable key device. Access to the levers is allowed to skilled personnel that intervene only in emergency situations.
If there are exceptions to this warning, this should be reported in the chap. “4-Controls and instruments.” (in which case the hydraulic control bank is a second control station and is equipped with devices to prevent the simultaneous use at the radio control).
It is forbidden to activate the crane by simultaneously using different control stations (e.g. the right distributor levers simultaneously with the left distributor levers).
00762246
02 14 MO00002_3Safety regulations and warnings
Operator training
A - Bottom side controlsThe control levers are positioned, on the crane bottom and allow equivalent actions in both stations.
The operator will choose the stations that provide greater visibility of the load and the crane operating area, still in accordance with instructions on page 14.
B - Top-seat controls with platformThe station, installed laterally at the base of the column, is reachable in total safety by ladder or pro-tected raised platforms.
On reaching the position the operator must close all the safety devices on the console (brackets, gates, chains etc.).
DANGERTo avoid falling during access to or descent from the station, use the supports and the special handgrips, paying the greatest atten-tion and care.
Control stations...There are different control stations on the crane.
The control stations and optical/sound signals differ depending on the crane model and the equipment installed.
Each crane control station is provided with the emergency stop button. (only CE crane).
00762248
00762249
00762247
02 15 MO00002_3Safety regulations and warnings
Operator training
DANGERDuring the manoeuvres it is strictly forbidden to lean out or to stand up.
00762089
00762272
C - Top-seat controlsThe station, installed laterally and on the upper part of the column, can be reached by a ladder (in some models it is supplied by the installer).
The operator occupies a control seat on the crane.
DANGERTo avoid falling during access to or descent from the station, use the supports and the special handgrips, paying the greatest attention.
Access and descent must be carried out in safe conditions and, obligatorily, with the crane column and arms in folded condition.
On reaching the position the operator must close all the safety devices on the console (brackets, gates, chains etc.).
DANGEROn the cranes which have the top con-trol with a seat and the control bank (emergency station), when the crane is moved by RADIO CONTROL there must be no person on the emergency control station at the top.
02 16 MO00002_3Safety regulations and warnings
Operator training
CAUTIONAfter the hydraulic connection has been carried out, the remote/radio control (push-button panel) must not be left unattended or abandoned.
Should it be necessary to momentarily lay down the push-button panel you must:
- first check that you have disengaged the radio-control function;
- leave it in a protected place accessible only to authorised personnel.
Notes Always use the push-button panel support strap in order to execute precise and uniform movements.
CAUTIONSince the radio-control is a single control station, the main hydraulic distributor becomes an emergency station. This station does not and must not have control levers inserted in the individual elements, this in order to avoid simultaneously handling the crane from different stations.The use of hydraulic cranes from control bank is only permitted to skilled personnel who intervene only in emergency situations to close the crane.
CAUTIONIt is always helpful to have a charged battery for the radio control always available in order to avoid discharged batteries causing crane down-time.
DANGERIt is strictly forbidden to tamper with any push-button panel function.
D - Remote/radio-control or Push-button panel
This is a single control station and consists of a portable push-button panel. So the operator can and must take up a position that permits full control of the crane and the work area in such a way as to ensure safety and full visibility of the load and the space beneath.
00762251
02 17 MO00002_3Safety regulations and warnings
Operator training
Peridocially check the efficiency/calibration of spirit level according to maintenance schedule.
Only EC cranes are supplied as standard with spirit levels. (see “6 - Safety Devices”).
CAUTIONWhichever station is chosen (right-left) the operator must have total control of the stabilising elements and the work area in order to work in complete safety and with full visibility.
Controls with radio control
This is a single control station and consists of a portable push-button panel. So the operator can and must take up a position that permits full control of the stabilising elements on both sides.
Refer to flatness indicators, on both sides, for a correct stabilization of the vehicle. See section “Working Conditions” of this chapter)
Notes With regard to these controls, all the prescriptions given in the chapter describing station “D - Remote/radio-control or push-button panel” are valid.
E - Stabilisation controls
Manual controlsStation with operator standing.
The controls, on both sides of the vehicle chassis, activate the stabilising elements.
These stations are always provided with a flatness indicator to permit the proper stabilization of the vehicle. (See “Working Conditions” section of this chapter)
00762252
8625893
5°
1°
3°
5°
1°
3°
inclination 0.3° (slope 0.5%): air bubble in the centre of smaller circle
inclination 1°: air bubble tangent to the circle showing 1°
02 18 MO00002_3Safety regulations and warnings
Operator training
Safety on stabilizer controls
- The operator should only extend the stabilizers on one side when he is in a position to monitor them carefully.
- The stabilizer extension controls for manually controlled hydraulic stabilizers are situated on the same side as their respective stabilizers.
- To operate EC radio-controlled stabilizers, you can use a timed push-button (U) (set time limit) located in the area of visibility.
To avoid the danger of the stabilizers moving accidentally, they can only be activated with a double action control:
1 – selector/switch to activate the stabilizer fun-
U
U
AD00092_0
ction
2 – stabilizer control lever
CAUTIONDepending on the type of EC safety device fitted, stabilizers controls can be activated with the switches mentioned above also when the crane is loaded. If the “PROGRESS” safety system is fitted to the crane, stabilizers can be moved only if the message “STAB ALLOW” is displayed on the radio control screen.
(For more information see Chapter 6 of PROGRESS Manual).
When making any movement of the stabi-lizers, in particular the movement of the foot rise and foot retraction, pay special attention, in this condition, because of a high risk of overturning; it is not recom-mended to operate the stabilizers with the load suspended.
02 19 MO00002_3Safety regulations and warnings
Operator training
F - Warning devices in the cab (EC Crane)
MA
X
F1 - Correct in-outline closing warning device of (both manual and hydraulic) stabilizers
- The device warns the operator when the crane’s hydraulic stabilizers of the crane and any additional ones are not fully retracted in their transport configuration, or when the manual stabilizers are not in their transport configuration and mechanically locked
F2 - Warning device for incorrect in-outline closing of the crane
- This device indicates when the 1st arm of the crane is not positioned under the permissible transport height. (see paragraph “Movement, circulation and parking” in this chapter Page. 46).
G - Lighted device for radio-controlled crane
- Each remote controlled crane has a (green) luminous device that can be seen from all sides and warns anyone in the immediate vicinity when the remote controlled crane is in operation.
- If the standard luminous device cannot be seen in all the work area, the installer should use another light in addition to the standard one.
LightGreen
02 20 MO00002_3Safety regulations and warnings
Operator training
SERVICE
H - Tamper protection on the safety devices
- The main safety components (e.g. pressure/speed/performance limiters, etc.) have features that allow EFFER to determine whether they have been tampered with (coded leading, labels and glazes, etc.).
The cranes with electronic safety devices have an electronic system that records the acts of tampering directly and, in some cases, slows down or stops the movements of the crane.
I - Manually adjustable jacks
- In the case of cranes where the jacks of the stabilizer feet can be turned by hand, the maximum torque the operator should apply at the end of the foot for rotation is 250N or less (~25kg).
F: < = 250N (~25kg).
F
02 21 MO00002_3Safety regulations and warnings
Operator training
Duties...Each operator must carry out the duties assigned:
Crane operator- Before using the crane on sites or in industrial areas he must ask the area safety manager
about any dangers present in the crane manoeuvring zone and any dangers that could arise from use of the crane;
- select the place to operate and where to park the vehicle with the crane;- cordon off the work zone to avoid unauthorised access;- sling loads with cables and/or chains or with lifting accessories;- evaluate the trajectory to be carried out with the load and the relevant degree of danger posed
by the presence of any obstacles;- carry out operations of lifting, laying and releasing the load;- carry out operations of folding the crane to carry out transport in maximum safety conditions;- visually inspect the crane for any anomalies;- check state and legibility of load diagrams and plates attached to the crane.
Vehicle driver- Checks for the correct idle position of the crane and the proper insertion of mechanical locks fitted before moving the truck.
Routine maintenance technician- Check the crane’s state of preservation, wear on the sliding elements (e.g. skids on the arms),
flexible tubing and any leaks in the power circuit.- carry out routine maintenance as prescribed and in accordance with the frequency set down
in this manual;- report unforeseen situations (such as wear, fatigue, breakages etc.) to the authorised workshop
and to the crane owner;- check that extraordinary maintenance has been carried out by EFFER authorised workshops
in accordance with the frequency set down in this manual;- assists with completing the servicing coupons and the maintenance control record
Site or industrial area Safety ManagerInform the crane operator with regard to:
- dangers present in the work area or which may arise from use of the crane;- possible presence of workers in the danger zone (crane manoeuvring zone) who, due to special
tasks, cannot leave their Workplace;- possible releases of dangerous substances into the air or onto the ground which could jeop-
ardise the safe execution of load handling;- safety devices obligatory in the work area involved.
Crane Safety Manager- Informs the crane operator of the dangers that may arise from using the crane.
DANGERThe crane safety manager must ensure that the machine is not used improperly, endan-gering the health of the operator, exposed persons, animals and materials present in the work area.
02 22 MO00002_3Safety regulations and warnings
Manual lifting of supplied material...OperationsIn lifting operations personnel chiefly use the muscles of the arms and trunk and the bone structure, in particular the spine.
The spinal column bears lifted weights by involving the discs which are crushed between the verte-brae.
DANGERTo avoid damage, such as classic back problems and in serious cases the breaking of the disc with consequences including invalidity, the spinal column when it is under stress must be kept straight and not curved.
The correct technique for lifting a load from the ground is divided into three phases:- squat down with your legs slightly apart;- grasp the object to be lifted;- straighten the trunk.
Make your leg muscles do the work and keep the load close to your body.
00762066
ExecutionTransporting loads by hand must be carried out after evaluating:
- Weight in relation to available forces;- the route to be covered;- the distance, which must be short.
Note Use proper lifting equipment to move loads with a weight higher than 25 kg for men and 20 kg for women.
25/30kg
50kg
The areas to be crossed must be:- free from obstacles;- clear of slippery materials and surfaces.
Notes To shift drums, crates or materials of greater weight use rollers, crowbars or trolleys.
Operator training
00762296
02 23 MO00002_3Safety regulations and warnings
00762124
Operator training
Operating signalsIf the operator cannot see the load to be handled and/or the operating zone from his work station, a dialogue with a remote operator is necessary.
To this purpose we suggest using the unequivocal system of visual signals shown below.
CAUTIONIf the operator does not understand the signals clearly the crane should not be acti-vated.
Notes Before beginning loading operations the operator and the signaller may agree on a different communications system.
Raise the crane arm
Lower the crane arm
Shift the load towardsthe signaller
Shift the load away from the signaller
Hoist the load with the winch
Lower the load with the winch
Turn the crane left Turn the crane right
Extraction of extensions
Retraction of extensions
By means of signals with one hand only
you give yes or no to movement of the load
Emergency stop
02 24 MO00002_3Safety regulations and warnings
Operator training
Routine maintenance technician:
CLOTHING
Use of protective clothing suitable for avoiding getting caught up in mechanical parts of the crane or truck.
GLOVES
Use of protective gloves to avoid the dangers of cuts, perforations or jabs caused by inadequately smoothed mechanical parts.
FOOTWEAR
Use of protective footwear to avoid the risks caused by fall-ing material or equipment during routine maintenance work.
GOGGLES (available)
Obligation to protect the eyes with goggles or mask in the case of interventions close to parts of the hydraulic system under pressure.
Personal protection devices (not supplied by EFFER)
HELMET
Use of protective helmet to avoid any danger caused by suspended loads during materials handling.
GLOVES
Use of protective gloves to avoid the danger of cuts, perforations, jabs or burns
FOOTWEAR
Use of protective footwear to avoid the risks caused by falling material during load handling operations.
CLOTHING
Use of protective clothing suitable for avoiding getting caught up in hoisted and transported parts.
SOUND PROTECTION HEADSET (available)
Protect hearing in cases of using the crane in environments where the legal sound level is exceeded.
Truck driver
Notes During transportation the driver does not need personal protection devices. Indeed it should be underlined that while driving the vehicle the driver should remove personal protection such as helmet, footwear and goggles (or mask) in order to avoid impeding movements while driving.
Operator responsible for load positioning and use of the crane:
02 25 MO00002_3Safety regulations and warnings
Operator training
Crane owner (not supplied by EFFER)
Note The user / employer must be equipped with the means and the devices that allow signalling and marking of the area, crane safe operation and maintenance accord-ing to specific instructions in the manual.
02 26 MO00002_3Safety regulations and warnings
00762012
00762013
Workplace
The crane has been designed and built for use in public places (e.g. squares, car parks, public roads etc.), private places (courtyards of houses, blocks of flats etc.), outdoors (building sites, infrastruc-tures such as industrial sheds, levels at a height, company courtyards etc.) and in covered areas (e.g. shopping centre entries, sports centres, trade fairs, production sheds, hangars etc.). Necessary authorisation for use must be requested.
Any use in particularly aggressive environments or in special or extreme conditions (e.g. temperature), must be approved by EFFER and compels you to increase both maintenance and checks on the whole structure.
Footrest surface
The ground on which the crane stabilizes has to be compact and not yielding.
If the ground is not sufficiently compact and resistant, provide a suitable surface to support stabilizer foot plates by placing additional support plates to prevent the plates from going down into the ground. See section “Placement and set-up” of this chapter.
Production areasWhen operating in production areas (building and industrial sites) pay great care to position-ing of the vehicle.
As far as possible choose the crane’s operating (or working) area also on the basis of the follow-ing suggestions:
- the place must be large enough to contain the whole structure in such a way as to avoid dangerous situations during manoeuvres with the crane arm;
02 27 MO00002_3Safety regulations and warnings
Workplace
00762131
- it must not block visibility of signs (road signs, lights etc.).
00762014
00762015
- the machine must not impinge upon the work space of other nearby equipment (such as overhead cranes, transporters etc.) unless the equipment in question has been previously put out of service for the entire period in which the crane is to be used.
Public and private areas- The machine must not block emergency exits
or pedestrian or transit roads;
- it must not block escape routes in the case of danger, private gates and entrances and vehicle entries/exits;
02 28 MO00002_3Safety regulations and warnings
Delimiting the operating areaBefore starting work with the crane, check the environmental and visibility conditions that may arise in the operating area and delimit the latter with suitable sign systems.
- Line barriers;- area delimitation tapes;- signs (prohibition, warning, danger etc....);- area delimitation signs (light signals, bollards etc.).
Notes This material is not supplied with the crane.
01504123 01504125
00762254
There must not be dangerous materials or toxic substances within the area.
To evaluate the operating zone with view to delimiting it you must consider spaces and trajectories relating to all possible movements of the load.
Workplace
02 29 MO00002_3Safety regulations and warnings
Workplace
Special casesWhen, for reasons of manoeuvre and type of work, the crane and loads hang over facilities with possible people/animals, and/or containing valuable or dangerous goods, do the following:
- Evacuate people/animals that are inside;- It is advisable to evacuate particularly valuable and/or hazardous goods;- It is recommended that the user/employer takes out an insurance which is appropriate for the possible damage that may be caused during operations.
Surrounding temperatureThe crane functions correctly at surrounding temperatures between -20°C and 40°C.
In other cases, do not use the crane.
00762132
00762071A
Delimitation must explicitly display that access to the area is forbidden to persons, animals, equip-ment and vehicles. Should it be impossible to eliminate the risk of transit within the crane operating area, authorised personnel must be appointed to supervise the boundaries and regulate traffic on the route involved.
02 30 MO00002_3Safety regulations and warnings
Workplace
HumidityThe electrical equipment functions correctly in atmospheric conditions with relative humidity less than 90% at a temperature of 40° C.
With high relative humidity and a temperature close to 0° there is a danger that functional electrical, mechanical and safety systems may block (e.g..: locking pins, emergency round-top buttons etc.). Check their correct functioning before transportation or use of the crane.
WindThe permissible wind conditions are:
(X) Arms above 45°:
light wind (state 1-EN 13001_2 -5th degree of the
Beaufort scale):
max. average speed (35 km/h)
max. gust speed (3 seconds) 50 km/h
(Y) Arms below 45°:
average wind speed (5th degree of the Beaufort scale):
max. average speed (40 km/h)
max. gust speed max (3 seconds) 55 km/h
NB: For details on wind speed and an indicative estimate of the wind speed without tools, see table A “wind speed” in this APPENDIX.
For cranes that reach a height greater than 25 metres, we recommended using an anemometer.
CAUTIONThe wind speed increases according to height H. (see APPENDIX)
CAUTIONThe doubling of wind speed quadruples the relative strength so if the permissible wind conditions are not complied with, the behaviour of the crane is dangerously unpredictable. (see appendix)
CAUTIONFor lifted loads with particularly high surfaces downwind, see the APPENDIX
00762008A
> 45°
< 45°
H
X
Y
45°
02 31 MO00002_3Safety regulations and warnings
It is forbidden to operate outdoors during storms.
Weather conditions
Workplace
Visibility and lightingBefore proceeding with setting up the crane, check for observance of the minimum visibility standards, avoiding shadow zones, stroboscopic and blinding effects, obfuscated areas (fog, fumes etc.) and unlit areas.
Do not operate when reasonable working safety is not ensured in the operating area, especially near the loads and the controls.
00762017
02 32 MO00002_3Safety regulations and warnings
Contaminating ad explosive agents
00762274
00762072
Workplace
It is strictly forbidden to set up and use the crane when:
- environmental conditions are at risk of explosion or fire;
- there is an excessive presence of dust, gas, fumes, solid and abrasive particles and electromagnetic currents deleterious to correct functioning of the crane;
- the environment is contaminated by a corrosive atmosphere.
02 33 MO00002_3Safety regulations and warnings
Workplace
00762074A
Radiation and magnetic fields
The crane’s electrical equipment can be sub-ject to hazardous malfunctioning if exposed to strong electromagnetic fields and/or particle radiation (X-ray, gamma-ray etc.). This depends on the emission strength and on the distance from the crane.
You are advised to obtain prior information from the competent bodies and centres and, in the case of doubt, to operate at suit-able distances. In general, for limited radio disturbances (non-ionised electromagnetic fields) the electrical system is protected and the crane will come to a halt.
00762075
It is forbidden to use the crane if the operator and the exposed people are involved by the amount of harmful exhaust gases of the power engine, in addition to the values allowed by laws in force. This depends on the position of the control station, on the work area, the type of power engine exhaust gas. If necessary, evacuate/remove harmful gases with special conveyors which must be provided.
00762119
It is forbidden to use the crane in an environment whose sound level exceeds the legal limit, unless suitable ear protection devices are used.
Vibration and impacts The crane must NOT be positioned on surfaces that transmit excessive vibration (generally greater than that transmitted by an ordinary truck).
Harmful exhaust gases of the vehicle
02 34 MO00002_3Safety regulations and warnings
Stabilizer foot cylinders
Stabilizer foot plates
- The plates of the feet (A) (crane and acces-sories-when available) can be inclined at an angle of about 10° to compensate for uneven terrain.
- The pressure applied on the ground by the plates of the feet (A) (crane and acces-sories-when available) is always < 4Mpa (40kg/cm2).
- For models of cranes where the pressure applied on the ground by the plates of the feet (A) is more than 4Mpa (40kg/cm2), additional weight-bearing plates (only CE Crane) are provided as standard (B) that can be fitted under the plates of the stabilizers’ feet.
max 10° max 10°
P < 4Mpa (40kg/cm2)
P < 4Mpa (40kg/cm2)
A
A
AB
Foot support surface The crane should be installed on hard, compact ground.
In the case the ground is not sufficiently hard or compact (refer to table C), you will need to put addi-tional supporting plates under the plates of the stabilizers’ feet to prevent the latter from sinking into the ground.
Placement and set-up
02 35 MO00002_3Safety regulations and warnings
Placement and set-up
Permitted load on the supporting ground Type of ground daN/cm2
kg/cm2P (MPa)
A) Filled land, not artificially tamped 0-1 0-0,1B) Natural ground that is visibly intact
1. Mud, peat, swampy ground2. Incoherent ground, supported in a sufficiently stable manner:fine to moderately coarse sand coarse sand and gravel
1,52.0
0,150,2
3. Coherent ground:softmalleable rigid semi-solid solid
0,41.02.04.0
0,040.10,20,4
4. Rock with small cracks, in good condition, not broken down by atmospheric agents and appropriately stratified: with closed succession of layers with solid or columnar formation
1530
1,53
C) Artificially formed ground1. Asphalt 5-15 0,5-1,5
2. ConcreteCategory of concrete B ICategory of concreteB II
50-250350-550
5-2535-55
CAUTIONThe supporting plates must be strong, resistant to the Rmax, and made of suitable materials such as: wood, thermoplastic, steel, etc, and be of a suitable size and shape (symmetrical). Position the foot plates at the centre of their respective supporting plates to ensure uniform weight distribution.
Table C
4Mpa
– a
dditi
onal
sup
port
ing
plat
es a
re re
quire
d
> 4Mpa – foot plates or standard EFFER supporting plates are sufficient
CAUTIONIf the type of ground can only withstand a pressure of < 4Mpa, you will need to put down additional support-ing plates under the plates of the stabilizers’ feet, or ones replacing the plates provided by EFFER. These additional plates (not provided by EFFER) must have a surface (A) of:
For the data: Rmax - Refer to the Technical Data table of the crane
P (MPa) - Refer to the table (C) below
> 4Mpa
standard optional
standard
A (m 2)= Rmax (daN) . 10 P (MPa)
02 36 MO00002_3Safety regulations and warnings
Placement and set-up
Use of the removable supporting plates
If the plates do not reposition themselves correctly, you will need to put the load back down on the ground and correctly re-stabilize the crane by putting the plates back in their respective points on the supporting plates.
DANGERIf you do not do the above, there will not be the necessary friction between the feet and the ground with the risk of damaging/breaking the foot jack and causing the vehicle to overturn.
= =
Rules- In the event some of the foot plates lift up
when the crane is lifting loads (fig. 1), you must check the plates move back down to and lift up again from their correct position (fig. 2) (the foot plate must be at the centre of its respective point on the supporting plate).
1
2
02 37 MO00002_3Safety regulations and warnings
Placement and set-up
- The supporting plates should be positioned on the ground at a max inclination of 10°.
There must be friction between the foot plate, the supporting plate and the ground to ensure the correct operation of the jack.
To ensure correct friction, make sure there are no oily or slippery substances or firm sliding bodies between the various parts.
The surface on which supporting plates rest should be as flat as possible and not so rough as to damage the supporting plate.
max 10°
OilSlippery substances
DANGERIf you do not do the above, there will not be the necessary friction between the feet and the ground with the risk of damaging/breaking the foot jack and causing the vehicle to overturn
02 38 MO00002_3Safety regulations and warnings
Placement and set-up
CAUTIONBefore starting work, check the maximum extension of the stabilizers, marked with a yellow reference point, and the correct locking of mechanical stops (fitted in the manual stabilizer outputs) *.
Stabilization operations
00762261
00762264
00762263
- Engage the parking brake;
- insert the power take-off;
- position the chucks on the drive wheels;
CAUTIONThe position of the chocks and their number depends on the type of park-ing brake, the type of ground and the torsional deformability in the instal-lation. In any case, the slide locking of the truck must be ensured by the tyres/chocks left on the ground with-out stressing the crane’s stabilizers.
NB: In case of one or more rotating stabilizers see the chapter “8 - Instruc-tions for the user”
- disengage the mechanical stops of the ordi-nary and supplementary stabilisers (where applicable);
- execute complete extraction of the stabilis-ers.
Ensure their exit position with the stops (where applicable).
Placement and set-up
MAX CE*NO CE
* The partial output of the stabilizers is permitted only in EC cranes when provided for (see chapter “6 - Safety devices”)
02 39 MO00002_3Safety regulations and warnings
00762266
Check the bearing surface in advance. (Refer to section “STABILIZER FOOT CYLINDERS”in this chapter and see chapter “3 - Description and technical data”).
PositioningIt is mandatory to accurately level the vehicle in horizontal plane, with the crane folded at a ma-ximum slope of ± 0.5 % (approx ± 0.3°) in all directions. To check this planarity, the air bubble of the device (standard on CE cranes) that shows the planarity should be positioned in the centre of the smaller circle (see fig. 3 e fig. a page 17).
45° 45°
5°
1°
3°
Max. (± 1) Max. (± 1°)
Max. (± 1°)
max ± 0,3° fig. 3 5°
1°
3°
5°
1°
3°
Pay special attention when levelling up with a joint and winch.During operation, the vehicle should not exceed the maximum slope of ± 1° (air bubble tangent to circle 1°) due to deformations. Especially with arms in vertical position, operate at very slow and gradual speeds. Pay particular attention to the rotation and up/down ovements of the arms.
Max. (± 0,3°)
fig. 3a
Max. (± 0,3°)
Placement and set-up
02 40 MO00002_3Safety regulations and warnings
The wheels of the vehicle must remain on the ground while maintaining a good adherence to ground.
Much of the weight of the truck and any load on the truck must always discharge on the wheels; only a minimal part of the total weight (truck + load) must discharge on the stabilizer feet.
Observe these requirements taking into consideration possible significant variations in the load on the truck during work.
PROHIBITIONIt is not allowed to discharge the truck wheels excessively and/or to detach them com-pletely from the ground, as this will cause dangerous structural damage to the stabilizer feet when lifting. (Any exceptions are listed in chapter “8 - Instructions for the user”.
Placement and set-up
00762268
Check the alignment of the arms With the vehicle stabilized and on level ground (Max. ± 0.3°), and with the crane empty, the mechanical alignment of the arms and joint must be checked in advance, reaching a maximum inclination of the arms at about 80°, check the alignment tolerance. This alignment tolerance must be So < Somax, where Somax is the offset between the hook and the middle axis of the 2nd arm (fig 4) which is equal to:
Somax=0,01 x H (Somax pari al 1% di H.
For this check, we recommend using the direct pull winch rope (where present).
If this tolerance has not been verified, do not work using this vertical configuration of the arms and go to an Effer authorized workshop for adjustment.
fig. 4
So < 0.01 x HSo
H
80°
For the frequency of the checks, refer to chapter “9 - Maintenance”
02 41 MO00002_3Safety regulations and warnings
In any case, with the arms vertical between 45° ÷ 80° (Fig. 5) and with the maximum permissible loads indica-ted in the load diagram (P max), the alignment tolerance must be Sp <Spmax where Spmax is the offset between the hook and the middle axis of the 2nd arm which is equal to:
Spmax = 0.03 x H with hook (Spmax equal to 3% of H)
Spmax = 0.05 x H with winch (Spmax equal to 5% of H)
fig. 5
SP SP
Pmax
Pmax
H
Sp < 0,03 x H Sp < 0,05 x H
Wind actionsThe permissible wind conditions are:
Arms above 45°:
light wind (state 1-EN 13001_2 -5th degree of the Beaufort scale: max. average speed (36 km/h) max. gust speed (3 seconds) 50 km/h
NB: For details on wind speed and an indicative estimate of the wind speed without tools refer to table A “wind speed” in the APPENDIX. For cranes reaching heights greater than 25 metres, we recommend using an anemometer.
CAUTIONThe wind speed increases according to height H. (see APPENDIX)
CAUTIONThe doubling of the wind speed quadruples the relative strength so if the permissible wind con-ditions are not complied with, the behaviour of the crane is dangerously unpredictable.
CAUTIONFor lifted loads with particularly high surfaces downwind (Fig. 7) refer to APPENDIX.
fig. 6
fig. 7
H
Placement and set-up
02 42 MO00002_3Safety regulations and warnings
Permissible load check -. Especially with arms set in vertical plane, observe the loads allowed and given in the load diagram.
. These devices/displays are another safety instrument (Fig.8).
Operating speeds Warnings with arms in vertical position
In this working condition, make all movements of the crane very slowly and gradually, in particular the rotation, up and down movements of the arms and extraction.
We recommend making particularly slow movements when bringing the arm down in unstable work areas (stabilizers not fully extended (if applicable) or working in the front area).
H
S
A ?
fig. 8
fig. 9
Placement and set-up
02 43 MO00002_3Safety regulations and warnings
Warnings and hazards
Note: For lifting with the arms in a vertical configuration, an operational plan is required (see APPENDIX) par-ticularly important for cranes with a reach exceeding 25 m.
The operator must pay particular attention when lifting with a winch. This type of lifting leads to accentuation of lateral deformation/warping.The centre of gravity of the load to be lifted must be approximately in line with the direction of rope when empty (Fig 10).
In the moment when the load leaves the round, this will move forward and sideways due to the effect of elastic deformations, the magnitude of the Sp arrow must not exceed the SPMax value
(see preceding paragraph) (Fig. 11).
CAUTIONWith the arms positioned vertically, pay attention to detecting excessive lateral skidding because in such conditions, the resistance of the arms and the guide of the profiles are reduced, so the behaviour of the crane can be dangerously unpredictable.
CAUTIONCrane parts such as the rotary unit, the side slides of the tubes and metal structure components are not suitable for use if the truck is subject to high gradients.
DANGER/CAUTIONFailure to comply with the instructions given in this chapter leads to unexpected behav-iour of the crane, damages to the structure, uncontrolled movements with possible fall of load and/or vehicle capsizing (fig 12-13-14-15-16).
(fig. 12) - Breaking backwards for exceeding the limit angle of the arms.
fig. 12
Placement and set-up
Sp max.
fig. 10 fig. 11
>> !?
02 44 MO00002_3Safety regulations and warnings
Placement and set-up
CAUTIONCompliance with the instructions and limitations specified in this chapter (stabilization inclination, wind level, arms alignment, high area downwind from the load) is the sole responsibility of the crane operator, as required by the regulation in force EN 12999.
fig.13 fig. 14
(fig. 13) -Side slipping and twisting of tubular frames
>> ? >> ?>> ?
(fig. 15) - Uncontrolled rotation and drift Early wear/damages to rotary unit, side slides and structural parts.
fig. 15 fig. 16
(fig. 14) -Backward overturning
>> ?
(fig. 16) - Twisting of the tubular sections and veering to the side, structural damage of the stabilizer foot.
02 45 MO00002_3Safety regulations and warnings
Placement and set-up
CAUTIONWith the vertical configuration of the arms, with the crane stopped and/or in motion, visually check the extent of the lateral skidding. To do this the operator must check the crane from the appropriate direction (Fig. 15) In the event of excessive skidding (Sp> WTmax), immediately stop lifting and reposition the load on the ground. Then proceed to check that: 1- that the inclination of the vehicle (± 0.3°) (Fig. 3) is correct 2 - that the arms are aligned correctly (Fig. 4) 3 - the level of the wind at various heights (Fig. 6) 4 - the area downwind from the load (Fig. 7) 5 - the level of the lifted load against the diagram. (Fig. 8)
A
H
Pmax
SP > SPmax ??
CAUTIONWhen releasing the load with a winch, or during the swing in lifting or lowering a loaded joint, the arms of cranes will deflect backwards by a few degrees with respect to the theoretical value allowed, without causing any danger. That is normal. (Fig 16).
fig. 15
max 82 ° ÷ 85 °
80 °
max 82 ° ÷ 85 °
80 °
fig. 16
02 46 MO00002_3Safety regulations and warnings
MAX
MAX
In detail verify:
- the correct home position, the insertion and the efficiency of the mechanical locks of the crane, the joint extensions, extensions and ordinary and additional stabilizers (if any) and any additional parts/equipment/accessories that are needed for use.
- the complete lifting of the stabilizers cylinder;
- the slewing of the stopcock of the stabilizers on the STOP position.
- the max. overall dimensions of the crane in transport position.
MAX
MA
X
00762284B
00762279
Shifting, driving and parking
To avoid jeopardising safety while moving and driving the crane-vehicle or crane-means of transport unit, always see that the arms are folded and equipment and accessories fixed.
CAUTIONDuring the closing operations, the position of the hook must comply with the overall dimensions.
02 47 MO00002_3Safety regulations and warnings
Shifting, driving and parking
00762291
CAUTIONDriving or moving the machine must be preceded by the following operations:
- secure in place all the pivots with the appropriate pins, check they are properly fastened and also their level of efficiency and wear.- fixing of lifting arm with the relevant mechanical lock (where applicable);- fixing of joint extensions (with special mechanical manual lock where applicable, or from the feedback provided) - fixing of extensions, bolts and equipment provided (e.g. winch counterweight, etc.) - insertion/check of mechanical locks of ordinary and additional stabilizers (if any). Check its efficiency and the correct position. See section “WARNING DEVICES IN CAB” of this chapter)
DANGERDuring moving and driving always insert the safety stops on all parts (stabilizers, Jib extensions, extensions,mobile elements, accessories or equipment) where their use is envisaged.
00762292B
02 48 MO00002_3Safety regulations and warnings
Shifting, driving and parking
00762293
WARNINGMake sure that the accessories which are not connected to the crane are supported on the body of the truck and check their proper locking/securing prior to circulation to prevent them from moving while running..
WARNINGMovement and/or circulation method, may be completed with instructions and techni-cal data of the installer. In any event comply with the regulations in force.
00762290
02 49 MO00002_3Safety regulations and warnings
Shifting, driving and parking
Lifting equipment and accessories can remain anchored to the crane during the movement or circulation of the vehicle/truck only if adequate fasteners and instructions have been expressly provided for by the installer and if the parameters of the law are respected relating to the maximum size and dimensions allowed.
CAUTIONThe only permissible transport posi-tion of the EFFER crane is when it is folded on the supports provided (Fig. 1). Any exceptions are indicated in chapter “8 - Instructions for the user”. For instructions relating to the incor-rect transport position of the signalling device see chapter “6”).
Particular Conditions
Transport positions are forbidden with the arms lying flat on the floor of the load or on the load (Fig. 2), unless the installer of the crane makes available instructions, special locking means and a suitable signalling safety device in the driving cab (Fig. 3).
The signalling device in the cab must indicate when the 1st arm is not below the transport height allowed by the rules of circulation.
For instructions on the signalling device of the incorrect transport position for the cab also see chapter “6”).
MA
X
OK
OK
fig. 1
fig. 2
MA
X
+
fig. 4
SERVICE
02 50 MO00002_3Safety regulations and warnings
When non-folded transport position (fig. 4) is provided for, it is mandatory to check that:
1 - the position of the arms is such as not to exceed the maximum size allowed by regulations in force;
2 - the longitudinal axis of the arms constitutes a resultant balanced load in relation to the vehicle/truck axles;
3 - all movements of the crane, its main units and components and its accessories are firmly fixed with suitable blocking devices on the platform or body. (in particular for crane rotation)
NB: The lock valves and brakes of the rotation unit of the crane have a block that is sufficiently safe during transport.
Parking
CAUTIONPark the vehicle/means of transport so it is sheltered from atmospheric agents, taking care to fold and lock the crane. When prolonged non-use is envisaged, grease the com-ponents liberally. Lubricate/ protect the exposed section of the stem of the jacks.
Pay attention to the following hazards:
-If the crane is not in the folded transport position, with the motor/pump also deactivated, it could cause possible descents and slow and uncontrolled movements of the arms due to normal leakage of the hydraulic system. These slow uncontrolled movements can lead to the tipping (see paragraph “Drops due to hydraulic leakage” in this chapter).
-If the crane is not in the folded transport position, but is parked with the arms in vertical configura-tions, the risk of lightning interception probability is increased. Furthermore, in this configura-tion, high forces due to strong wind can cause structural damage from tilting in relation to the position of the stabilizers (e.g. trade exhibitions).
Note: For parking of the arms in vertical configurations, an ‘operations plan’ (see APPEN-DIX) is required which is particularly important for cranes with a reach of more than 25 m.
- in the case of parking with ambient temperatures below 0°C, the ice may render the operation of different parts of the crane (sensors, clamps, moving parts, etc..) ineffective. Defrost such parts in advance and restore the correct operation.
Shifting, driving and parking
02 51 MO00002_3Safety regulations and warnings
Descent due to hydraulic leakages
WARNINGThe position of the crane/load is kept constant over time, but changes due to normal oil leakages in the hydraulic circuit. Then a small minimal descent of booms and the exit of uncontrolled extensions are possible at speeds depending on the outreach (S).
S (m)
Example:The maximum vertical speed can be derived from the following formula.
con S < 12 m Vmax = 0,5 x S (m) = V m/mincon S > 12 m Vmax = 0,2 x S (m) = V m/min
V max
You should therefore take care when parking with the crane open and when the crane has been at rest for a long while and not been folded.
Notes: You are advised to close the crane or place the crane/load on the ground if it is to be at rest for more than 30 minutes.
Shifting, driving and parking
02 52 MO00002_3Safety regulations and warnings
Residual risks and dangers
During use
Risk of falling from the upper or raised control stations, especially during access or descent if maxi-mum attention is not paid, if maximum care is not taken, if the supports and handgrips are not used and the safety devices on the console are not closed (brackets, gates, chains etc.).
00762253
Entanglement and dragging hazard if unsuitable clothing is worn.
00762135
00762082
Crushing and impact hazard during stabiliser positioning operations
02 53 MO00002_3Safety regulations and warnings
Risk of structural damage, fall of load, overturning especially at great heights with boom over 45°, if during load handling, the inclination of the vehicle exceeds permissible tolerances by ± 0,3°, and if manoeuvres are fast and not progressive.
>5°
Risk of structural damage and uncontrolled movements if with the booms below 20°, a 5-degree inclination of vehicle is exceeded and if you do not run slow and progressive movements.
Residual risks and dangers
± 0,3°± 0,3°
02 54 MO00002_3Safety regulations and warnings
Risk of damage to the stabilizer feet when lifting. In the event that during stabilization or during truck loading, the excessive weight is supported by stabilizer feet and not by the truck wheels.
Risk of tipping with the vertical arms above 45°, especially at great heights and with the stabiliz-ers not fully extended (downgraded working area) when performing fast drops and not slow and progressive ones.
00762111
Risk of overturning and fall of load, if the stabilizers/feet are handled incorrectly with the unfolded crane, especially at great heights.
Residual risks and dangers
02 55 MO00002_3Safety regulations and warnings
CAUTIONIn work areas where the crane has reduced performance with the joint located below the horizontal, it is strictly forbidden to try lifting loads using the joint extension return or the crane extension return manoeuvres. Danger of truck rollover danger.
Risk of structural damage and/or tipping if loads are disconnected suddenly from raised structures.
Risk of the vehicle with crane overturning due to the ground beneath the stabiliser feet giving way.
00762136
Residual risks and dangers
02 56 MO00002_3Safety regulations and warnings
When dropping loads abruptly with booms in a vertical position, the crane can be structurally damaged and tip over backwards as the booms retract quickly like a stretched bow.
Risk of collision with fixed infrastructures and mobile objects during load handling if the nec-essary manoeuvring spaces have not been previously considered.
00762013 00762278
Risk of collision with consequent dangers of crushing and falling for persons and/or work-ers present in the operating zone.
Residual risks and dangers
Risk of uncontrolled movements of the extension and structural damage if there is no pinning of the extensions of the crane/joint where applicable.
?
SWL
?P ?P < SWL
?
SWL
?P ?P < SWL
Risk of damage/breakage of the structure of the joint, in the event of lifting loads that are greater than the maximum capacity of the hook provided by EFFER (see chapter “3 - Description and tech-nical characteristics”)
02 57 MO00002_3Safety regulations and warnings
Risk of the vehicle with crane overturning due to the ground beneath the stabiliser feet giving way.
00762110
00762295
Risk of damage to the structure of the crane if downward pressure is exerted (hammering, compacting etc.) with the arms or installed accessories (orange peel buckets, buckets etc.). See ch. “7-Accessories”.
00762019
Risk of the load falling if not efficiently slung, with the consequent danger of crushing the operator and exposed persons.
Risk of collision of the load during handling with the crane structure, equipment or encumbrances in the operating area, with consequent risk of overturning of the crane or sudden descent of the load.
00762255
Residual risks and dangers
02 58 MO00002_3Safety regulations and warnings
Residual risks and dangers
Risk of tipping of the crane if the prescriptions of a correct placement of the machine are not respected.Risk of tipping of the crane if the movements of the feet with the applied load are made.
00762257
00762256
Risk of overturning on the cabin side and damage to the structure if the articulations reach end of vertical stroke at high speeds. (non-EC cranes only)
MAXMAX
A
Risk of tipping for cranes without a load/time limiter device, if load limits shown in the working diagrams applied to the crane are not complied with.
00762277
02 59 MO00002_3Safety regulations and warnings
00762137
In the event of overloading, or in cases of strange events together with hydraulic failures or safety devices, there is a risk of a slow but uncontrolled drop of the arms of the crane or the joint with possible damage or breakage to the crane and possible.
If such a slow uncontrolled movements, appear, quickly retract crane extensions or joint. If it is not possible, leace quickly the danger area and warn people nearby.
Residual risks and dangers
WARNINGIn some models with a high number of crane extensions, in case of extension retraction, especially without a load and from a vertical position, the last extensions may retract after the previous extensions. In this case, if you bring the boom below the horizontal line, the phenomenon of compensation is possible, that is the last left out extensions retract while the previous one come out without the operator running the joystick of extensions.
Therefore you can have some small uncontrolled movements of the hook joint.
WARNINGTo alleviate this condition, we recommend returning with the extensions with gradual starting and not at a high speed. In any case, start again with a new working cycle only after the last extensions are fully retracted.
?
02 60 MO00002_3Safety regulations and warnings
MA
X
Residual risks and dangers
00762018
During transport
Risk of collision with fixed and mobile parts along the way if the safety stops are not inserted on all the moving parts (above all mechanical exten-sions, knuckle-joint extensions), accessories and equipment that require their use.
00762083
00762138
Risk of collision with fixed infrastructures (bridges, flyovers etc.) along the way if the crane is not positioned in the correct configuration, suitably locked after use.
Risk of collision with fixed and mobile ele-ments (e.g. persons, parked and moving cars etc.) along the way if, after use, the stabilis-ing traverses have not been positioned and locked.
Risk of collision if the crane is not positioned in the correct transport position
14408
11440
1401
144222
02 61 MO00002_3Safety regulations and warnings
Residual risks and dangers
During parking/folding
Risk, in the case of temporary absence of the operator, that unauthorised persons may handle the crane if the electrical and hydraulic systems have not been cut out.
00762141
Risk of damage to the underlying goods, the crane in the event of parking or prolonged periods with the arms raised due to a slow but gradual descent of the arms due to normal hydraulic leaks.
P
00762285A
Risk, during folding of the crane into rest position, of damage to the operator or exposed persons if the correct control position is not taken up and/or if there is insufficient visibility.
00762140
02 62 MO00002_3Safety regulations and warnings
During maintenanceRisk of the crane arms giving way with consequent danger of crushing when:
- when crane parts or elements are replaced with non-original spares;
- operations not permitted by the manufacturer are carried out;
- interventions are carried out by workshops not authorised by EFFER.
Risk of leakage of fluid under pressure (oil) if incorrect and/or unauthorised maintenance is carried out on the hydraulic system.
Residual risks and dangers
00762142
02 63 MO00002_3Safety regulations and warnings
General risks for operators and exposed persons
If you DON’T stop and/or move keeping the stopping distance:
DANGER OF SHEARING DANGER OF CRASHING
DANGER OF CRUSHING DANGER OF CRUSHING
DANGER OF IMPACT WITH CONSEQUENT FALL
02 64 MO00002_3Safety regulations and warnings
APPENDIX
The wind force causes stress on the crane structure whatever its direction. The more insidious wind directions are those that lead to lateral skidding, increasing the tipping moment but also causing tilting movements against the arms when vertical (tilting backwards).
The factors that influence the strength of the wind acting on the crane and the load are the follow-ing:
1 - Wind speed value The permissible wind speeds are listed in chapter “2 - Safety regulations and warnings” and
repeated in detail in TAB A-TAB B. 2 - Dependence of the wind speed with height The wind speed varies with height. In cases of average speed and gusts of wind, they are not
assessed at the height (H) of the load lifted but rather at a given height (Hv), it is necessary to use conversion table TAB. B.
WARNING: Height variations lead to an increase of wind speed of up to 20% (Between zero and 60 meters) with a relative increase of the forces due to the wind of over 50%.
3 - Value of the area downwind from the load and load shape. The load diagrams are checked for the data segments of the design: 1) wind speed according to the TAB. A and B. (DIN 15018-3, EN 13000)
2) Area downwind from the load
Ar (m2)=Ap (m2) x Cw = P(t) x A (m2/t) x Cw where: -P (t) is the load lifted in tonnes (1t = kg/1000)
-A (m2/t) = 1 coefficient of load surface. (DIN 15018; EN 13000)
-Cw = 1.2 * shape coefficient. (DIN 15018; EN 13000)
-Ap (m2) ** Area downwind from the load
-Ar (m2) Area downwind increased due to the shape (Ap x Cw)
Wind force
• Cw is a coefficient that takes into account the different effect of the wind in varying the shape of the load. For details, see
(EN 13000 - EN 13001-2) As a guide: Cw = 2 for loads with a parallelepiped/cube shape Cw = 1 for -cylindrical shaped loads Cw = 0.4 for spherical loads Cw = max 2.4 ** Ap (m2) is the area downwind from the load (in the design P(t)x1 (m2/t) is hypothesized, and is calculated using the maximum size of the shape of the load. (E.g. diameter x height in a cylinder; base for rectangular height).
02 65 MO00002_3Safety regulations and warnings
In exceptional cases, it is possible that the real area downwind from the load is greater than the design referred to above.
In this case, the wind speed must be decreased compared to the values reported in TAB. A and TAB. B as indicated in the verification procedure shown below (EN 13000-A1: 2012):
1) If P (t)/Ap (m2)> 2, then it is possible to work with the crane with the wind speed reported in TAB A.
2) If P(t)/Ap(m2) <2 then it is possible to work with the crane with wind speeds possibly reduced by the Cr factor.
Cr= (1,2 x P(t)) / (Ap(m2) x Cw)
if Cr> 1, the speeds given in the TAB A and TAB B are those allowed and must not be decreased
P (t)
H
A
H
ø
Ap Downwind area in m2
if Cr <1, the speeds given in the TAB A and TAB B should be decreased multiplying them by Cr.
Example: P(t) = 2t in a cylindrical shape ø 3 meters; height H 3 meters; Ap=3x3=9 m2; Cw=2
P(t) / Ap(m2)= 2 / 9 = 0,2 Valore < 2
Cr = 1,2 x 2/9x2 = 0,36 < 1 Wind speed must be reduced:
Reduced wind speed = 0.36 x 50 km/h = 18 km/h
CAUTION Prior to lifting operations, the operator must perform the verification procedure shown above.
CAUTIONIf the approved conditions indicated are not strictly complied with, the crane can behave in unexpected and very dangerous ways; it can compromise the structural strength and stability. For this reason the planning instructions below must be observed.
Lifted load in tons.
Ap= H x A Ap= ø x H
02 66 MO00002_3Safety regulations and warnings
Planning of lifting operations relating to the lifting with the arms vertical (Ref. EN 13000-2012). Planning of operations is particularly important for the crane with a lifting capacity exceeding 25 m and for lifting with arms vertical (especially from 45° to 80°) and must be performed by qualified and experienced personnel (EN 13000-2012).
The following aspects must be considered:
1-prior assessment of environmental conditions (e.g. meteorological data, weather forecasts, relevant environmental conditions)
2-evaluation of the velocity of the wind gust (gust in 3 sec) at maximum height H, which can be reached by the arms of the crane. In the event of detecting this speed, it is performed at a height of Hv <H refer to TAB. B.
For cranes with a lifting capacity greater than 25 m, we recommend using an instrument (anemom-eter)
3-assessment of the correct positioning of the vehicle on a level surface and the alignment tol-erance of the crane arms (see chap. 2). These aspects can increase the negative effects of lateral skidding due to wind.
4-Evaluation of the load level to be lifted P(t) (t in tonnes) and its theoretical area downwind Ap (m2) (in square meters). Perform the verification procedure of the previous chapter, see page 68. In case the P(t)/Ap(m2) ratio is <2, it is necessary to calculate the Cr coefficient of reduc-tion of the wind speed. The reduced permissible speed is calculated by multiplying the speed shown in TAB A and B by Cr<1 (see page. 68)
5 - evaluate the escape and cordoned off areas relating to the direction of the possible deforma-tions in the event of structural damage/tipping
CAUTIONWith the arms close to maximum verticality, in the case in which the unpredictability of events leads to gusts of wind with a speed greater than that permitted and/or if involuntary sudden movements of rotation occur, there is a dangerous possibility that the deformation of the lateral skidding proceeds dangerously without stopping, causing simultaneous twisting/spinning of the arms. In this case, in addition to the return extensions, perform a sudden but gradual and controlled drop of the arms by a few degrees until the skidding movement stops. Pay attention to this downward movement to avoid knocks, overloads and losses of stability.
CAUTIONWith the arms close to maximum verticality, in the case in which the unpredictability of events leads to gusts of wind with a speed greater than that permitted and/or if involuntary sudden movements of rotation occur, there is a dangerous possibility that the deformation of the lateral skidding proceeds dangerously without stopping, causing simultaneous twisting/spinning of the arms. In this case, in addition to the return extensions, perform a sudden but gradual and controlled drop of the arms by a few degrees until the skidding movement stops. Pay attention to this downward movement to avoid knocks, overloads
02 67 MO00002_3Safety regulations and warnings
Planning of operations with the crane out of service (parking) If the crane is out of service, it must preferably be folded into the transport position.
If circumstances require a different position from the transport position, it is necessary: - to check the rules and laws in force relating to the position of the out of service crane (permissible
heights, visual/light signals, etc.).
- to assess unintended movement of the crane due to leakage (see chapter “2-Safety regulations and warnings.”)
-to perform a prior assessment of the environmental conditions (e.g. meteorological data, weather conditions, relevant environmental conditions) for the period for which the crane is out of service. The effects can be dangerous due to wind (risk of tipping and structural damage) and the collec-tion of lightning
-evaluate the stability conditions.
-With regard to the risk of tipping and structural damage due to wind forces, especially with the arms vertical (45°-80°), it is necessary to plan the operations/configurations. This plan must be performed by qualified and experienced personnel (EN 13000-2012) and must be carried out in the same way as that performed with the crane in service.
-With regard to the single structural resistance of the crane empty (with no load), the crane can with-stand wind loads according to the “Beaufort 6th” scale with arms below 45 degrees and “Beaufort 5th” scale with arms above 45° (Table A).
CAUTIONWe recommend positioning the out of service crane in a position other than the transport position and/or with suspended loads. There is a danger of uncontrolled movements, due to hydraulic leakage, which can lead among other things to tipping, structural damage of the crane and any nearby objects. (Rotation, extraction, swinging., etc.) (see chapter “2 - Safety regulations and warnings.”)
02 68 MO00002_3Safety regulations and warnings
Tables Tables A, B, C are shown below
(TAB A): PERMISSIBLE WIND SPEED
Note: In TAB A, the permissible speeds in different configurations of the crane are shown. The average speed indicated (in 10 minutes) can only be defined for heights within 10 meters (H <10 m). In any case, for all heights (H <10 m-H> 10 meters) it is necessary to verify the single gust speed (3 s) that increases as the height H (see TAB. B) increases.
In this table, the wind speeds are shown according to the Beaufort scale and the EN 13001-2 scale. Each degree/state of wind has a corresponding gust speed (measured in 3 sec-valid for each height H) and average speed (valid only within a height H of 10 meters, measured in a time of 10 minutes). General indications are also provided to visually assess the wind speed in the absence of an instrument.
The highlighted lines in TAB. A indicate the permissible wind speeds with different cranes in service and out of service between the arms in a configuration above and below 45 degrees from the horizontal. These speeds are valid for areas downwind from the design as shown on pages.. 1 and 2;
For areas downwind from the lifted load with P(t)/Ap(m2)<2), the speeds given in tables A and B may need to be decreased according to the information on pages 1 and 2. For details, refer to standards EN 13000-A1 :2012-EN 13001-2.
WARNING: for cranes with a lifting capacity greater than 25m, we recommended to measuring the speed with an instrument(anemometer)
.
(TAB A):PERMISSIBLE WIND SPEEDIn this table the permissible speeds detected at Hv height corresponding to the permissible speed at height H of the load are indicated.
Note: From the height of load H, the permissible wind speed at detection height Hv are detected.
02 69 MO00002_3Safety regulations and warnings
WIND SPEED
Average wind speed * (in 10 minutes, for H 10 meters)
Wind gust * speed (in 3 seconds)
Wind pressure
Wind effect in the internal area
Perm
issi
ble
win
d sp
eed/
confi
gura
tion
Cra
neSTATE 13001-2
Beaufort
Degree
Name m/sec Km/h m/sec Km/h N/m2
0 Calm 0.2 1 Calm, smoke rises upward
arm
s in
clin
ed a
bove
45
degr
ees
from
the
horiz
onta
l (c
rane
in s
ervi
ce a
nd o
ut o
f ser
vice
)
arm
s in
clin
ed b
elow
45
degr
ees
from
the
horiz
onta
l (cr
anes
in
serv
ice)
arm
s inc
lined
abo
ve 4
5 de
gree
s fro
m th
e ho
rizon
tal (c
rane
in se
rvice
and
out
of s
ervic
e)
1 Light 1.5 5
Wind direction indicated only by the movement of the smoke, but not by the mechanical wind indicators
2 Light breeze 3.3 11
You can feel wind in the face, leaves rustle, and the mechanical wind indicators move
3 Weak breeze 5.4 19
Leaves and light branches move, wind stretches out banners
4 Moderate breeze 7.9 28 Lifts dust and paper up, moves
branches and fine rods
1Light 5a 10,1 35 14,1 50* 125 Intermediate conditions between 4-5
Average 5 Cool Breeze 10.7 40 15 55* 150
Small broadleafs begin to sway, ridges of foam are formed on lakes
6 Strong wind 13.8 50 19,3 70 233
Strong poles move, telegraph lines whistle, it is difficult to use an umbrella
-- 7 Fresh breeze 17.1 61 23,9 86* 358
All the trees move, you are significantly hindered when walking against the wind
8 Stormy wind 20.7 74
The branches of the trees break, making it considerably difficult to walk outdoors
9 Storm 24.4 88 Minor damage to homes (knocks down chimney lids and tiles)
10 Violent storm 28.4 102 Trees uprooted, considerable
damage to homes
* Speed according to EN 13001-2, EN13000-; Beaufort scale - For guidance on the precise method of measurement, see the manuals for the anemometers.
- for heights of the crane/load H> 10 meters, refer to TAB.B
- the permissible speeds shown apply to areas downwind from the load as reported on pages 1 and 2.
(TAB A): PERMISSIBLE WIND SPEED
02 70 MO00002_3Safety regulations and warnings
(TAB.B):’CONVERSION SPEED’ TABLE’
Arms vertical above 45 ° (crane in service and out of service Speed conversion *
State 1 - Light Wind, (EN 13001-2 EN 13000) 5th Beaufort degree
H (m
eter
s) lo
ad h
eigh
t
Hv
(m) h
eigh
t det
ectio
n
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in to
10
m) k
m/h
Pres
sure
N/m
2
10 10 50 35 125 46 33,3 45 31,9 98 44 30,9 93 43 31 89 42 29,7 8520 20 50 125 48 47 45 4430 30 50 125 48 47 4640 40 50 125 48 4850 50 50 125 4960 60 50 125
Arms below 45 ° (cranes in service) Speed conversion *
5th Beaufort degree
H (m
eter
s) lo
ad h
eigh
t
Hv
(m) h
eigh
t det
ectio
n
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
Gus
t (in
3 s
econ
ds) k
m/h
Aver
age
(in 1
0 m
in) k
m/h
Pres
sure
N/m
2
10 10 55 40 150 51 36 125 49 35 115 48 34 110 47 33 107 46 32 10220 20 55 150 53 51 50 4930 30 55 150 53 52 5140 40 55 150 54 5350 50 55 150 5460 60 55 150
MO00039_2Description and technical features 03 1
3Description and technical data
European Community directives
European Community directives2006/42/EC Directive of the European Parliament and Council concerning the approximation of the laws of the Member States relating to machinery. Article. 14 of Directive 98/37/EC repeals Directive 89/392/EEC, and subsequent modifications.
2004/108/EC Council Directive on the approximation of the laws of the Member States relating to electromagnetic compatibility.
Modifications and supplements: 92/31/EEC, 93/68/EEC, 93/97/EEC.
Main reference standardsCEI EN 60204 Safety of machinery - Electrical equipment of machines.
EN 12999-2011 Cranes - Loader cranes
DIN 15018 - DIN 4114 - DAST RI-011 For some references of structural calculation
Allowed installations / prescriptions for useThe loader crane has been designed in accordance with EN 12999-2011 standard.
For the specific classification of project, refer to Chapter 3 “- Description and technical data”The crane is designed for use in non-continuous service normally handling medium loads and only occasionally maximum loads. In the case of heavier duty use the crane must undergo routine and extraordinary maintenance at shorter intervals.
CAUTIONLifting in continuous service and/or with frequent handling of maximum loads may reduce the crane working life considerably.
MO00039_2 03 2Description and technical features
The crane is typically installed on a commercial vehicle (including trailers) with a significant transportation capacity. The loader cranes are designed to load and unload the vehicle as well as for other tasks such as moving or positioning not hooked loads in all areas specified by the load diagram and allowed by the type of installation.
Examples of possible applications (in accordance with the load and installation diagram):
- Lifting from the ground at different heights (e.g.: placing concrete on a roof);
- Building assembly (e.g.: placing beams and structures of a building);
- Handling of building materials on pallets from the truck to which the crane is fitted or from another truck, or from the ground or other positions;
- placing of material in different areas of a building site;
- Lifting and handling of material in pits or ditches with the help of a winch
- Positioning of machine tools in factories.
Notes Commercial vehicle means: trucks, road tractors, special purpose vehicles, trailer trucks, articulated lorries, trailers.
Notes The loader crane fitted to a static base should be regarded as a loader crane.
Notes it is forbidden to move the vehicle with a crane at work that is not folded in trans-portation position.
Notes The lifting of people is prohibited unless the application of the people-holder basket is complete specific certification by notified bodies.
MO00039_2 03 3Description and technical features
A
EMTNG
F
H
L
B
00762103
P
DRSC
To make the crane (A) operational it must be anchored to a vehicle (B) by means of counter-chassis (C) with the hydraulic and electrical power circuits connected to those of the vehicle.
The crane is hooked up:- electrically by means of electrical cables (F)
of its own system to battery (G) of the vehicle or to a supplementary generator.
- hydraulically to the pump (D),by means of power take-off (H) connected to the engine.
The same connections are used for models complete with supplementary stabilisers (E).L main hydraulic distributorM hydraulic fluid tankN fluid intake lineP fluid delivery lineR fluid delivery line filterS fluid discharge lineT fluid discharge line filter
The type of installation may vary depending on the characteristics of the crane, the vehicle and operating requirements.
The following types should be mentioned:- installation behind the cabin with crane folded (a). Standard installation;- installation on the rear pivot (b). Standard installation;
Any other installation configurations can be carried out (e.g. folded centre platform crane, not folded centre platform crane, etc.) as long as they respect:- the technical specifications and data of the vehicle/means on which the crane is installed;- the regulations and laws in force in the country of use.
General description
a b
MO00039_2 03 4Description and technical features
Identification of the crane
The essential data for identification of the crane are given on the identification plate(s) externally fixed to the column.
The plate shows:
0 Machine type: GRU (CRANE)
1 Crane Model
2 Serial number
3 Year of manufacture
4 CE marking
CAUTIONIt is forbidden to remove or damage the plate. Should this occur contact only EFFER Technical Service.
Requests for information and/or in-depth techni-cal details on the crane must specify:
- model and serial number;
- edition and issue date of the use and main-tenance manual (given on the cover).
The series number (5) is also stamped on the base of the crane.
5
02197001
model
serial
year
1930700B
12
3 4
CRANE0
MO00039_2 03 5Description and technical features
1
12
2
11 10
6
5
4
3
5 4
5
5
4
89
4
7
02197015
top
bottomleft
front right
rear
00762143
top
bottom
left
right
Main parts...
1 Column2 1st boom cylinder3 Slewing unit4 Stabiliser5 Stabiliser cylinder6 Embase7 Counter-chassis8 Hydraulic extensions9 2nd boom10 Hydraulic extension cylinder11 1st boom12 2nd boom cylinder
Getting oriented…
The orientation referred to in this manual is shown in the figure below.
MO00039_2 03 6Description and technical features
00762148
What is mean by configurations of …
…rest or work pauseCrane in rest or work pause configuration means those conditions under which the machine is stopped for relatively short periods (e.g. checking work done or to be done, meal breaks etc.). In such cases the general conditions of the machine must be as follows:
- vehicle engine switched off;
- power circuit deactivated;
- electric circuit deactivated;
- load or crane arm resting on the ground or on truck cabin;
- stabilisers extended;
- stabiliser jacks extended and resting on the ground;
- crane and vehicle doors and switchboards (equipped with lock and key) locked;
- area where the machine is working delimited and signposted;
- operator temporarily absent.
Notes If the operator remains in the area it is NOT indispensable to lock the doors and switchboards equipped with lock and key.
CAUTIONYou need not dismantle the accessories (Jib, winch, bucket etc.) as long as the crane is left in a NON DANGEROUS configuration.
MO00039_2 03 7Description and technical features
00762149
00762150
…workWork configuration means situations in which the crane is operating and active or stopped only for very brief periods. In such cases the general conditions of the machine are as follows:
- power circuit active;- arms and articulations raised from the rest
stop;- telescopic elements of the arms extended or
partially extended;- stabilisers extended;- stabiliser jacks extended and resting on the
ground;- crane and vehicle doors and switchboards
(equipped with lock and key) unlocked;- operator at the control station;- only authorised persons present in the crane
work area;- work area delimited and signposted.
- vehicle with engine running;- power circuits deactivated;- telescopic elements of the arms fully retracted
in the closed position;- arms and articulations closed in the prescribed
position and locked on the appropriate stop;- stabilisers completely retracted and locked in
position;- stabiliser jacks fully retracted and locked in
position;- crane doors and switchboards (equipped with
lock and key) locked;- driver in the vehicle control station.
…transportTransport configuration means those situations in which the crane must be moved from one workplace to another. As well as involving disconnection of the crane from all power sources, transportation must not give rise to involuntary movements of any of the elements. In this case the general conditions of the machine are as follows:
CAUTIONFor all other configurations (stopping on the road, parking, including long-stay etc.) the machine must be in maximum safety conditions to avoid danger to those who approach it. The crane must be closed in the prescribed position and every telescopic or sliding element locked, and it must be protected (in the case of storage) and disconnected from all sources of energy.
What is meant by configurations of …
MO00039_2 03 8Description and technical features
Work areas…
A
B D
C
Max
Max
Max
Max
CAUTIONThe installer (the person who puts into the service the equipment, releasing the EC certification) must perform the calibration in the four work areas, calculations and stability tests, etc.. as required by 2006/42/CE-EN12999-2010 European Directive, with the aim of defining the load charts and validate the installation.
The performance, allowed in the various work areas, depends on the type of safety device, the type of installation, from the angular position of the column, when handling the load, and from the position of the stabilizers.
Typically there are four work areas (A, B, C and D) in which performance may vary.
Area A - Area in which the crane operates generally with downgraded performance.
Areas B - C - D - areas in which the crane can operate with different performance depending on the opening of the stabilizers. Setting of such performance is carried out and validated by the installer.
The specific work areas and their performance/load diagram are shown in the last pages of this chapter.
MO00039_2 03 1Description and technical features
Instructions for use of a crane with stabilizers fully extended (only with PROGRESS device)
B<<< 100 % 100 %
A
100 %
<<< 100 %B
100 %
100 %
100 %14408
11440
1401
144222
14408
11440
1401
144222
Maximum performances of stabilizers and supplementary stabilizers are achieved when they are fully extended on the work side (shown as ex. area A).
The winch diagrams show the work areas as well as the number of pulls and minimum outreach for the limit of cable angle of incidence.
For cranes without moment limiter only when the work areas shown in the load diagram are wider than the circle arches; the latter should be considered as placement curves without load checking the configuration of telescopic sections and the outreach with cable on the ground.
In such work areas it is only allowed the move-ment of cable while arms/outreach down move-ment are not allowed.
For all cranes with or without moment limiter we recommend you periodically extend crane telescopic sections and the joint with load born by the cable in order to avoid excessive stress on crane structure.
When stabilizers are not fully extracted, crane performances are reduced according to special diagrams (performances% - see chapter 3 Tech-nical data) depending linearly by the % of crane stabilizers extension and additional stabilizers (shown as area B, for example). In the downgra-ded diagrams the performance % is indicated (radio control display, % P1) and corresponding loads horizzontally. Load curves are not shown as they are similar to load curves of the crane maximum performance diagram. Since performance in the area (B) is reduced in line with the extension rate of stabilizers, you can have downgrades up to 90% (performance 10%) allowing only idle movements and with reduced outreaches.
CAUTION: With such high downgrades you must be careful and limit speed not to exceed performance by more than 105% (P1 rate on the radio control display).In this situation it may be difficult to exit the device lock, as the extensions of the cranes are often already fully retracted, and it is possible to decrease the outreach only below 105%.If the crane remains locked, see § By-pass Chapter 6 page 2 “functional devices”
NM
NM
AD
2N029_0
MO00039_2 03 2Description and technical features
CAUTION: Rmax (Maximum stabilizer pressure - see chapter 3 Technical data) is approximately constant for all opening values of stabilizers/downgrading rate (lever rule).
So it is necessary to insert support increase plates for each opening value.
Crane performance depends on the extension of the crane stabilizers that is progressive from 0% to 100%, and on the opening of additional stabilizers (considered in two positions: or to 0% or to 100%). A small retraction of additional sta-bilizers from their maximum extension (100%), is considered by the PROGRESS system as additional stabilizers completely closed (0%) automatically.
The work areas and the performances defined by the installer are provided according to the crane and installation in the load curves of the crane maximum performance diagram in the chapter “Technical data”.
The working conditions with stabilizers not fully extended are controlled by the PROGRESS safety device, however pay special attention and care, and perform movements at very reduced and progressive speed.
In these conditions of reduced stabilization, the unit crane + truck is very flexible and very sensi-tive to shocks, abrupt movements and sudden stops. For this reason, pay particular attention to movements of rise/descent at great heights, as a small rotation (A1) of booms during the movement entails high increases in inclination of truck (B1) which add up thus causing high increases in outreach (D1).
DURING STOPS OR MOVEMENT LOCKS determined by PROGRESS device you have additional movements of booms (A2), therefore further increases in outreach of the truck (B2). The movement (A2) added to the inclination of the truck (B2) causes an increase of outreach (D2). These sudden increases in outreach D1 + D2 may worsen significantly the safety margin of stability.
A1
B1
A1+B1
D1
A1
B1
A1+B1
D1
B2
A2
A2+B2
D2
B1
B2
R maxR max
10 % 100 %
MO00039_2 03 3Description and technical features
For example, the maximum vertical boom, 20 feet high, with stabilizers retracted, a descent of A1 = 5° that can be done IN A FEW SECONDS can lead to truck inclination by about B1=6°, which added together (A1 + B1 = 5 ° + 6 ° = 11 °), lead to an increased outreach D1 = 4 meters. When you stop, A2 + B2 are added about 3°, thus reaching a further increase in outreach D2 = 1 meter. You come to S2 (D1 + D2) = 5 meters IN A FEW SECONDS.
CAUTIONIn these conditions of high verticality, great height and not complete stabiliza-tion, proceed with the utmost care, at low speed and with progressive starts and stops.
NOTE: Before the descent movements, check the performance rate on the display in order to under-stand the margin of stability before PROGRESS device is automatically operated.
Proceed with the descent following small arc-shaped courses in order to check the performance rate step by step, then the residual overturning margin at the following descent.
A1
S1
A1
S2
A2B2
?S1 = 2 mt. A1 = 5°.
A1 + B1 + A2 + B2 = S2
S2 = 5 mt. (14°)
14°
5°
B1
D1 D2
MO00039_2 03 4Description and technical features
Plates and notices
1 2 3 4 5
6 7 8 9
1 2 3 4 5 6 7 8 9
10 11 12 13
18
15 14
16
FAC-SIM
ILE
17 19 20
AD1R
006_
0
1 2 3 4
Radio control
MO00039_2 03 5Description and technical features
Plates and notices
21 22 23 24 25
2728
29
30 31 32
33 34 35
38 39
MO00039_2 03 6Description and technical features
Plates and notices
42 4344
46 47
45
48 49
2F08261
49
AD
2N02
9_0
50
MO00039_2 03 7Description and technical features
At strategic parts of the crane there are plates and adhesive labels whose function is to draw the operator’s attention or give him important information.
(The type and the numbers of plates depend on crane’s model and version)1 Crane slewing operation2 First boom operation 3 Second boom operation4 Extension operation5 Fly-jib operation6 Fly-jib extension operation7 Winch operation8 Bucket operation9 Rotor operation10 Right stabilizer selection11 Left stabilizer selection12 Left stabilizer selection additional stabilizers 13 Right stabilizer selection additional stabilizers 14 Movement of stabilizers15 Movement of feet16 Position of stabilising elements17 Oil level18 Do not tread on 19 Enabling operations of aerial part of the crane20 Enabling operation of stabilising element21 Minimum oil level22 Maximum oil level23 Slewing unit zero point24 System complying with UNI-EN-ISO 9001 Standard 25 Inspection of correct arm angulation in crane opening phase26 27 Maximum load applicable to the extension28 Centre of gravity (position along a main axis)29 Instructions on discharge connection for trailer body30 Observation of operator manual obligatory. Always consult when necessary! Do not hoist persons31 Obligation to lock as per instructions 32 Observation of operator manual obligatory. Always consult when necessary!33 Danger of the crane colliding with bridges, electrical cables etc. due to erroneous operations Danger of electrocution due to crane colliding with electrical cables34 Lubrication points (oil or grease)35 Danger of entanglement with winch cable36 37
Plates and notices
MO00039_2 03 8Description and technical features
38 Danger of collision with remote/radio-controlled crane39 Danger of suspended weight40 41 42 Danger of collision with stabilisation and foot during their movement43 Danger of stabiliser foot support giving way (see the value “Reaction” in the Technical Data)44 Do not hoist persons45 Do not point water jets46 Danger of electric shock47 Danger of falling from raised position48 Danger of collision on opening and closing crane 49 Danger of shocks and cut during stabilizer cylinder slewing50 Inspection of the proper extension of the stabilizers
Notes The presence of certain plates and notices is in function of the crane.
Plates and notices
MO00039_2 03 9Description and technical features
01504198
Dimensions and capacities during transport...
CAUTIONThe installer must fill in this page
Dimensions of the crane in transport configuration, i.e. in the configuration permitted for driving the vehicle on the road with the crane completely installed.
CAUTIONThe installer must fill in this page
Crane weight with complete rig Original vehicle capacity Residual vehicle capacity
MO00039_2 03 10Description and technical features
Technical features
Load diagrams
For notes and symbols used in the load diagrams check the following data sheetsThe main load diagrams permitted (a 100% performance) are applied to the lever protection or in the immediate vicinity of the control stations. The complete loading diagrams are shown in the following pages. For maximum exploitation of crane potential the 1st and 2nd arms must form the angle specified in the load diagrams. (This position is shown by the alignment of two yellow arrows, one on the column and the other on the 1st boom.The load diagrams establish the operating limits. Informa-tion in the diagram refers to the horizontal configuration and the maximum trajectory performance configurations (load curves - only for 100% of performance).
Each hook load shown in the diagram is the addition of the liftable payload and the weight of lifting accessories (chains, ropes, etc..) and / or any lifting equipment (buckets, pallet mover, etc..) directly secured to the crane. If the winch is fitted, the load value shown in the load diagrams is already deducted from the weight of the counterweight/block/rope. To lift the maximum loads shown in the basic machine diagram, no equipment must be attached to the extremity of the crane.
In horizontal configuration the maximum permitted distance may be evaluated by approximation, identifying the exten-sions.
In horizontal configuration the load that may be lifted between two successive outreaches will be of approx. an intermediate value with regard to the loads relating to the previous and subsequent outreach.The operation of the automatic load limiting device does not allow exceeding the load curves shown in the graphs.With crane equipped with the HSS device, which can be dis-engaged, in order to achieve crane maximum performance in vertical and in horizontal (with max. loads and max. outreach) as per the diagram, it is necessary to disengage the HSS device (HSS OFF) (see section “5 - Functional devices”).
max.
max
MO00039_2 03 11Description and technical features
General instructions to achive maximum performances with jib
1
2
3
1
2
3
The pictures show the correct way of load handling at the maximum capacities, which can be obtai-ned only by disengaging the HSS device .
In order to lift maximum loads in certain cases, you must apply a special hook or a broaching of the extensions; a mark ( ) in the load diagram next to the capacity value indicates where this is nec-essary.
Indications referring to the symbols used are listed in the list annexed to the load diagrams.
The winch diagrams show the work areas as well as the number of pulls (T=1, T=2 ecc) and minimum outreach for the limit of cable angle of incidence.
CAUTIONFor cranes without moment limiter only when the work areas shown in the load diagram are wider than the circle arches; the latter should be considered as place-ment curves without load checking the configuration of telescopic sections and the outreach with cable on the ground.
In such work areas it is only allowed the move-ment of cable while arms/outreach down move-ment are not allowed.For all cranes with or without moment limiter we recommend you periodically extend crane telescopic sections and the joint with load born by the cable in order to avoid excessive stress on crane structure.
22.802120
mkg
m0 2 4 6 8 10 12 14 m
10
8
12
14
16
18
20
22
24
26
13.944000
9.586600
16.073325
18.282825
20.542420
11.904900
25°
min. basic craneext 6.17 m
NO
NO
NO
22.802120
mkg
m0 2 4 6 8 10 12 14 m
10
8
12
14
16
18
20
22
24
26
13.944000
9.586600
16.073325
18.282825
20.542420
11.904900
6600 kg
4000 kg4900 kg
3325 kg
2825 kg
2420 kg
25°
min. basic craneext 6.17 m
NO
NO
NO
MO00039_2 03 12Description and technical features
Locking extensions by a pin for special lifting
For lifting heavy loads below the horizontal line it may be necessary to lock the crane extensions by a special pin.See load diagram and technical data for correct pin size. (See chap. “3 - Description and technical features”).Do not leave the load hanging below the horizontal line for a long time. Remain in this configuration (with locked extensions) as long as strictly necessary.
General instructions
CAUTIONTo best exploit the crane’s potentialities the angle between the 1st and 2nd arms should be as indicated in the capacity diagrams attached to the crane. The arms can work aligned. However, this may cause premature stopping of the crane, or the lowering of the 2nd arm.
CAUTIONThe lifting capacities given in the basic crane diagram do not take into consideration the weight of the pipe-holding device present in the case of optional accessories (jib, bucket etc.).
Maximum load of crane and jointThe maximum allowed load in the crane and/or joint
may be limited in relation to machine/accessory potential.
In these cases apply the maximum loads shown on the load diagram by a note / on hook marking or any other marking:
(maximum load ---- MAX xxx kg ---- )
Also check the sheet on the notes and the Symbols-Technical data-Load diagrams.
---- MAX xxx kg ----
---- MAX xxx kg ----
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
Le curve indicate sono realizzabili con limitatore di carico.Load curves achievable by L.M.B.Courbes de levage realisables par limiteur de moment.Mit Überlastabschalteinrichtung realisierbare Lastkurven.Curvas de carga máxima con limitador de carga.
Curva di carico descritta partendo con secondo braccio (e/o jib) orizzontale.Lifting curve described starting with the outer boom (and/or fly-jib) in horizontal position.Charge maxi. soulevable en partant avec le deuxiéme bras (et/ou le jib) en position horizontale.Traglastkurve mit 2.Arm (und/oder Zusatzgelenk) in horizontaler Position.Curva de carga máxima partiendo con el segundo brazo (y/o brazo auxiliar) en posición horizontal.
Carico Massimo sollevabile con snodo nella posizione illustrata.Max. load which can be lifted by the fly-jib in the shown boom position.Charge maxi. pouvant etre soulevée par le jib dans la position illustrée.Max. moegliche Hublast des Zusatzgelenkes in der angegebenen Position.Carga máxima a elevar con el brazo auxiliar en la posición indicada.
Carico Massimo sollevabile nella posizione raffigurata.Max. load which can be lifted in the shown position.Charge maxi. soulevable dans la position illustrée.Max. Hublast in der angezeigten Position.Carga máxima levantable en la posición indicada.
Curva di Carico Massimo sollevabile.Lifting curve of the max. load capacity.Courbe de levage de la charge maxi. soulevable.Traglastkurve der max. moeglichen Hublast.Curva de carga máxima a elevar.
* Sollevamento con gancio fisso.Lifting by fixed hook.Levage au crochet fixe.Hublast am festen Haken.Levantamiento con gancho fijo.
Le massime capacità di sollevamento in verticale si raggiungono con il dispositivo HSS disinserito (Dove previsto).Max. lifting capacities in vertical position are reached with disconnected HSS device (If provided).Les capacités maxi. en vertical sont obtenues avec dispositif HSS débranché (Si prévu).Die max. senkrechten Traglastkapazitäten werden mit ausgeschaltener HSS Vorrichtung erreicht (Wenn vorgesehen). Las capacidades max. en vertical se pueden obtener con dispositivo HSS desconectado (Donde previsto).
Con gancio speciale.With special hook.Par crochet special.Mit Sonderhaken.Con gancho especial.
Carico massimo di gru/snodo limitato dalla capacita massima del gancio e/o attacco gancio.Maximum load of cranes/fly-jib limited by maximum hook coupling and/or connection capacity.Charge maximum de grue/jib limitée par la capacité maximum du crochet et/ou raccord crochet.Maximale Traglast des Krans/Zusatzgelenk, beschränkt durch die maximale Leistungsfähigkeit des Hakens und/oder des Hakeneinsatzes.Carga máxima de la grúa/brazo auxiliar limitada por la capacidad máxima delgancho y/o acople del gancho.
Secondo braccio e/o jib inclinati per non più di -30 sotto l'orizzontale(Per angoli superiori a -30 , occorre spinare gli sfili di gru e/o jib)Cap. shown with max. negative boom angle of -30 .(For outer boom/fly-jib angles greater than -30 extensions must be mechanically locked)Deuxième bras et/ou jib inclinés pour maxi. -30 au dessous de l'orizontale(Pour angles supérieurs à -30 les télescopes doivent etre verrouillés par axes)2. Arm und/oder Zusatzgelenk zwischen waagerechter Position bis max. -30 (bei Ueberschreitung -30 sind die Ausschuebe durch Bolzen zu sichern)Segundo brazo y brazo auxiliar por debajo de la horizontal hasta -30 (para un ángulo mas negativo las extensiones deberán estar bloqueadas por pasadores)
Carico massimo sollevabile con sfili spinati.Max.load which can be lifted by mechanically locked extensions.Charge maxi. pouvant être soulevée par télescopes verrouillés.Max. mögliche Hublast mit gelockerten Ausschüben.Carga máxima a levantar por extensiones bloqueadas.
Note generali - General notes - Remarques générales: Allgemeine Hinweise - Notas generales:
Le capacità di sollevamento della gru base (e/o jib) non considerano il peso deldispositivo raccoglitubazioni, del verricello, delle elettrovalvole di scambio e degli eventualialtri accessori.The lifting capacity of basic crane (and/or fly-jib) does not include the weight of the tubecollection device, exchange solenoid valves and any other accessories.Les capacités de levage de la grue de base (e t/ou le j ib ) ne prennent pas en compte lepoids de guide et flexibles, du treuil, des électrovalves d'échange et des autres accessoireséventuels.Die Werte für die Hubfähigkeit des Kransockels (und/oder Zusatzgelenk) berücksichtigennicht das Gewicht der Vorrichtung zum Aufrollen der Schläuche, der Seilwinde, derelektrischen Schaltventile und möglicher andere Zubehörteile.Las capacidades de levantamiento básicas de la grúa (y/o brazo auxiliar) no tienen encuenta el peso del dispositivo de retirada de los tubos, del cabrestante, de las electroválvulasde intercambio y de los demás eventuales accesorios.
t=1 tiro singolo - single pull - traction simple - Einzelzug - tiro individual
t=2 tiro doppio - double pull - traction double - Doppelzug - tiro doblet=3 tiro triplo - triple pull - traction triple - Dreifachzug - tiro triplet=4 tiro quadruplo - quadruple pull - traction quadruple - Vierfachzug - tirocuádruple
Gru con dispositivo PROGRESS - Crane with PROGRESS device - Grue avec dispositif PROGRESSKran mit Vorrichtung PROGRESS - Grúa con dispositivo PROGRESS
Per le principali configurazioni di stabilizzatori non completamente estesi, le capacità della gru sono indicate nel manuale operatore sotto forma di performance % (% della pressione del martinetto 1° braccio).In forma tabellare sono indicati i relativi valori dei carichi ammessi. (l’aggiornamento dei valori sul manuale è a cura dell’installatore).For the main configurations of stabilizers not fully extended, crane capacities are shown in the user manual expressed as performance % (% of 1st arm jack pressure).In the form of a table are given the relative values of allowed loads. (updating the values on the manual should be borne by the installer).Pour les principales configurations de stabilisateurs pas complètement sortis, les capacités de la grue sont indiquées dans le manuel de l'opérateur sous la forme de performance % (% de la pression du vérin 1° flèche).Les valeurs relatives des charges admises sont indiquées sous la forme d'un tableau. (la mise à jour des valeurs sur le manuel est de la responsabilité de l'installateur).Bei den meisten Konfigurationen der Stabilisatoren, die nicht vollständig ausgefahren sind, wird die Leistungsfähigkeit des Krans im Bedienerhandbuch unter Art der Leistung % (% des Drucks der Winde, 1. Arm) angegeben.In tabellarischer Form sind die entsprechenden Werte der zulässigen Lasten angegeben. (die Aktualisierung der Werte im Handbuch unterliegt der Sorgfaltspflicht des Monteurs).Para las principales configuraciones de estabilizadores no totalmente extendidos, las capacidades de la grúa están indicadas en el manual del operador bajo forma de rendimiento % (% de la presión del gato del 1° brazo).Los correspondientes valores de las cargas admitidas se indican en una tabla. (la actualización de los valores en el manual compete al instalador).
Tmax
Min. ext. xxx m....Sbraccio minimo con verricello per rispettare l’angolo limite di incidenza fune.Minimum outreach with winch to comply with limited cable angle of incidence.Extension minimum avec vérin pour respecter l'angle limite d'incidence câble.Die minimale Ausladung mit Seilwinde, um die Beschränkungen des Seilwinkels einzuhalten.Alcance de la pluma mínimo con cabrestante para respetar el ángulo límite de ataque del cable.
I diagrammi di carico rappresentano la capacità secondo la potenza massima della gru con stabilizzatori completamente estesi. La stabilità dell’autocarro può comunque richiedere il declassamento.The load diagrams represent the capacity according to maximum capacity of the crane with stabilizers fully extended. Truck stability may however require de-rating.Les diagrammes de charge représentent la capacité suivant la puissance maximum de la grue avec stabilisateurs complètement sortis. La stabilité du camion peut donc exiger le déclassement.Die Lastdiagramme geben die Tragfähigkeit gemäß der maximalen Leistung des Krans an, wenn die Stabilisatoren vollständig ausgefahren sind. Die Stabilität des Lastwagens kann letztlich die Herabstufung erforderlich machen.Los diagramas de carga representan la capacidad según la potencia máxima de la grúa con los estabilizadores totalmente extendidos. La estabilidad del vehículo puede, de todas formas, suponer un desclasamento.
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
(IT) Nelle pagine a seguire sono riportate le indicazioni relative a:- Massima inclinazione ammessa del piano di lavoro della gru (MAX Heel)- Aree di lavoro determinate dalla percentuale di estensione degli stabilizzatori- Valore della % PERFORMANCE (prestazione della gru) per ogni settore ed area di lavoro- Valore dell’angolo ( ) che delimita ogni settore di lavoro- Valori della portata (diagrammi con braccio orizzontale) in relazione alla % PERFORMANCENOTA: i valori sopra citati sono determinati e compilati dall’istallatore della gru, in relazione alla specifica installazione della gru sull’autocarro e del test finale di stabilità.
(EN) In the following pages are listed the indications regarding:- Maximum admitted inclination of the work plane of the crane (MAX Heel) - Work areas obtained by the percentage of the stabilizer extension - Percentage % of PERFORMANCE (crane performance) in each area and work area - Value of the angle ( ) that defines each work area - Values of the load capacity (diagrams with horizontal boom) according to PERFORMANCE percentage (%) NOTE: The above values are determined and filled in by the crane installator, according to the specific installation of the crane on the truck and the final stability test.
(FR) Dans les pages suivantes, veuillez trouver les indications relatives à:- Inclinaison maxi. admise de la surface de travail de la grue (MAX HEEL)- Zones de travail déterminées par le pourcentage de l’extension des stabilisateurs (WORK AREAS)- Valeur de % PERFORMANCE (performance de la grue) dans chaque secteur et zone de travail- Valeur de l’angle ( ) qui définit chaque secteur de travail- Valeurs de la capacité (diagrammes avec bras horizontal) par rapport à %PERFORMANCEREMARQUE: Les valeurs ci-dessus sont déterminées et compilées par l’installateurde la grue, par rapport à l’installation spécifique de la grue sur le camion et à l’essai final de stabilité.
(DE) Auf den folgenden Seiten finden Sie Angaben bezüglich:- Maximale zulässige Neigung der Arbeitsebene des Krans (MAX Heel)- Arbeitsebenen, bestimmt durch den Prozentwert der Ausfahrweite der Stabilisatoren (WORK AREAS)- Wert der % PERFORMANCE (Leistung des Krans) für jeden Arbeitssektor und -bereich- Winkelwert ( ), der jeden Arbeitssektor bestimmt- Werte der Belastbarkeit (Diagramme mit horizontalem Ausleger) im Verhältnis zur % PERFORMANCEANMERKUNG: Die oben erwähnten Daten werden vom Installateur des Krans gemäß der Installationsspezifikation des Krans auf dem Fahrzeug und des Sabilitätsendtest bestimmt und notiert.
(NO) På de neste sidene er indikasjoner som gjelder: - Maksimal godkjent vinkel for kranens arbeidsflate (MAX Heel)- Arbeidsområder som bestemmes av prosent uttrekking av stabilisatorer (WORK AREAS) - Verdien til % PERFORMANCE (kranens prestasjon) til hver sektor og arbeidsområdet - Verdien til vinkelen ( ) som begrenser hver arbeidssektor - Verdier for løftekapasitet (diagrammer med horisontal arm) i forhold til % PERFORMANCEMERK: Verdiene er fastsatt og utarbeidet av installatør av kranen, i forhold til den spesifikke installasjon av kran på lastebilen, og den endelige stabiliseringstesten.
(NL) De volgende pagina’s vermelden de aanwijzingen met betrekking tot:- Toegelaten maximale inclinatie van het werkvlak van de kraan (MAX Heel)- Werkzones bepaald door het uitbreidingspercentage van de stabilisatoren (WORK AREAS)- Waarde van het % PERFORMANCE (prestatie van de kraan) voor elke sector en werkzone- Waarde van de hoek ( ) die elke werksector afbakent- Waarde van het draagvermogen (diagrammen met horizontale arm) in verhouding tot % PERFORMANCEOPMERKING: de hierboven vermelde waarden zijn bepaald en ingevuld door de installateur van de kraan volgens de specifieke installatie van de kraan op de vrachtwagen en de eindtest voor stabiliteit.
(ES) En las páginas siguientes se presentan las indicaciones referidas a:- Máxima inclinación admitida en el plano de trabajo de la grúa (MÁX Heel)- Áreas de trabajo determinadas por el porcentaje de extensión de los estabilizadores (WORK AREAS)- Valor del % PERFORMANCE (rendimiento de la grúa) para cada sector y área de trabajo- Valor del ángulo ( ) que delimita cada sector de trabajo- Valores de la capacidad de carga (diagramas con brazo horizontal) en relación al % PERFORMANCENOTA: los valores anteriormente citados son determinados y compilados por el instalador de la grúa, en relación a la específica instalación de la grúa sobre el vehículo y del test final de estabilidad.
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
AREE DI LAVORO - WORK AREAS
heel
100% 100%
100% 100%
98% 98%
100% 100%
98% 98%
0% 0%
%
%
%%
°MAX heel =
2
63
7
%
%
% %%
%
%
%
2
63
72
54
7
PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCEPERFORMANCE
PERFORMANCEANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
INSTALLAZIONE DIETRO CABINA - INSTALLATION BEHIND THE CABIN
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
50% 50%
100% 100%
50% 50%
0% 0%
0% 0%
100% 100%
0% 0%
0% 0%
%
%
%%
%
%
%%
%
%
%%
%
%
1,2 1,2
63
7,8 7,8
1
63
8
%%
1
8
54
54
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
AREE DI LAVORO - WORK AREASINSTALLAZIONE DIETRO CABINA - INSTALLATION BEHIND THE CABIN
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
AREE DI LAVORO - WORK AREAS
heel
100%100%
100%100%
98%98%
100%100%
98%98%
0%0%
%
%
%%
°MAX heel =
2
63
7
%
%
% %%
%
%
%
2
63
72
54
7
PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCEPERFORMANCE
PERFORMANCE
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
INSTALLAZIONE SULLO SBALZO POSTERIORE - INSTALLATION ON THE REAR PIVOT
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
50%50%
100%100%
50%50%
0%0%
0%0%
100%100%
0%0%
0%0%
%
%
%%
%
%
%%
%
%
%%
%
%
1,2 1,2
63
7,8 7,8
1 1
63
8
%%
8
54
54
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
PERFORMANCE
PERFORMANCE PERFORMANCE
PERFORMANCE
ANTERIORE FRONT
POSTERIOREREAR
POSTERIOREREAR
POSTERIOREREAR
POSTERIOREREAR
DESTRARIGHT
SINISTRALEFT
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
DESTRARIGHT
SINISTRALEFT
DESTRARIGHT
SINISTRALEFT
ANTERIORE FRONT
ANTERIORE FRONT
AREE DI LAVORO - WORK AREASINSTALLAZIONE SULLO SBALZO POSTERIORE - INSTALLATION ON THE REAR PIVOT
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
PERFORMANCE
100%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
m
kg
kg
kg
kg
kg
kg
kg
kg
kg
kg
kg
kg
kg
kg
1405 PROGRESS
1405/6S AD2P133_0mkg PERFORMANCE 100%
1 2 3 4 5 6
20°5.90
16300
4.3322300
9.3110100
7.5612600
13.087050
11.148320
15.086100
17.325100
19.654340
1M 2M
19.6517.3215.0813.0811.149.317.565.904.33
DATI TECNICI - TECHNICAL SPECIFICATIONDiagrammi di carico
Load diagrams
1405 PROGRESS
PERFORMANCE100%
1405/6S
AD2P134_1
17.325100
(H)m 21.2
19.654340
23.5
kgm
+15°
337002.59
20°
11.148320
13.087050
15.086100
mkg
4.3322300
5.9016300
7.5612600
9.3110100
82°
14
16
18
200 2 4 6 8 10 12 14 m
m
DATI TECNICIISTRUZIONI GENERALI PER L’INSTALLAZIONE DI GRU
IDRAULICHE
N. DT00001I Pag. 1
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
GENERALITA’ Le gru idrauliche EFFER possono essere classificate come Loader Crane (gru caricatrici) - secondo la norma EN12999 -, cioè solitamente applicate ad un veicolo (incluso semirimorchio) e sono progettate generalmente per il carico e scarico del veicolo; possono essere installate anche in altre condizioni (installazioni fisse o navi).
L’installatore ha il compito di definire l’idoneo abbinamento della gru con il veicolo (o altro) ed è responsabile della corretta progettazione/realizzazione di alcune parti/impianti necessarie per l’installazione della gru nonché del loro corretto montaggio a regola d’arte. Sono di seguito riportati i punti fondamentali da analizzare per la corretta installazione, con riferimenti indicativi e non impegnativi. Osservare comunque leggi e norme vigenti.
I calcoli necessari sottoriportati e la progettazione meccanica e impiantistica devono essere eseguiti da un tecnico competente.
Autocarro/veicolo idoneo, posizione della gru: calcolo/verifica pesi sugli assi. calcolo di stabilità preventivo secondo EN12999-2010.
Scelta stabilizzatori supplementari idonei (fig.1a): calcolo di idoneità degli stabilizzatori supplementari secondo EN12999-2010 (istruzioni del Fornitore, se di fornitura Effer fare riferimento alla tabella “DT00015-STABILIZZATORI SUPPLEMENTARI” disponibile sul sito WWW.EFFER.COM (area riservata agli installatori) dove sono indicate le distanze minime di applicazione dalla gru degli stabilizzatori supplementari previsti per questo modello).
Scelta del controtelaio (fig.1b): calcolo controtelaio, vedi norma EN12999-2010.
Scelta collegamenti controtelaio: calcoli secondo norme vigenti CUNA NC034-05 e manuale del veicolista/fornitore degli stabilizzatori supplementari, calcoli secondo normative e formule di buona costruzione (es: EN13001).
Scelta presa di forza/pompa: calcolo attenendosi alla portata olio max e pressione max.
Scelta impiantistiche elettriche ed idrauliche per vedere norme varie vigenti. collegare i vari componenti:
Accessi e posti di comando: vedere direttiva 2006/42/CE, EN12999-2010.
Eventuale calcolo fondazioni se installazione calcolo secondo varie norme vigenti fissa:
Analisi di sicurezza globale: vedere direttiva 2006/42/CE, EN12999-2010.(analizzare tutti i pericoli)
Prove pratiche di stabilità statica e dinamica: fare riferimento alle norme DIN 15019, EN12999-2010, DIN 15018, direttiva 2006/42/CE. (tab.E)
Collaudo e autocertificazione dell’installazione: secondo leggi e norme vigenti (*) (*): nei paesi della UE-SEE, la conformità CE alla direttiva 2006/42/CE dell’intera macchina/complesso, nel quale è montata la gru idraulica, deve essere garantita dall’installatore/chi mette in servizio, il quale deve rilasciare una sua dichiarazione CE secondo l’allegato II-A della stessa direttiva.
L’installatore dovrà realizzare l’installazione seguendo comunque le indicazioni riportate nel manuale del veicolista, del Fornitore degli stabilizzatori supplementari e di tutti i Fornitori dei componenti che utilizza; e nel rispetto delle leggi e norme vigenti.
Dietro esplicita richiesta la EFFER fornisce istruzioni più dettagliate. Più dettagliate informazioni tecniche sono disponibili sul sito WWW.EFFER.COM (area riservata agli installatori).
DATI TECNICIISTRUZIONI GENERALI PER L’INSTALLAZIONE DI GRU
IDRAULICHE
N. DT00001I Pag. 2
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3DATI TECNICI
ISTRUZIONI GENERALI PER L’INSTALLAZIONE DI GRUIDRAULICHE
N. DT00001I Pag. 3
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
Nel caso l’installatore, per motivi legati alla stabilità declassi la gru (dispositivo limitatore di momento), è possibile, trovato il cariconominale «PD» con stabilità garantita, definire gli altri carichi nominali «Pi» corrispondenti alle diverse posizioni di sbraccio (sfilo)attraverso la seguente formula:
MtotD = PD*(SmD + d) + 0,2AD*(SmD + d)*20
Pi = [MtotD - 0,2Ai*(Smi + d)*20)] : (Smi + d)
N.B.: Per il valore 0.2A vedere Dati Tecnici (modulo D) (0.2A = 0.1A*2)
DATI TECNICIISTRUZIONI GENERALI PER L’INSTALLAZIONE DI GRU
IDRAULICHE
N. DT00001I Pag. 2
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3DATI TECNICI
ISTRUZIONI GENERALI PER L’INSTALLAZIONE DI GRUIDRAULICHE
N. DT00001I Pag. 3
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
ISTRUZIONI PER LA MOVIMENTAZIONEIn figura 2, è rappresentato il foglio «movimentazione gru» che si trova applicato sulla gru al momento della sua uscita dallostabilimento EFFER; su di esso sono riportate le indicazioni sulla movimentazione ed il peso della gru in condizioni di spedizione(non sono inclusi la carica olio ed eventuali componenti inclusi nella cassa accessori).Durante il trasporto bloccare la gru al pianale del mezzo utilizzato e proteggerla dagli eventi atmosferici.
SollevamentoPer il sollevamento della gru è prevista un’apposita staffa applicata sulla parte superiore del primo braccio, dov’è possibileagganciarvi catene, o funi.Il mezzo di sollevamento deve essere di capacità idonea al sollevamento della gru (peso e dimensioni).Il personale addetto dovrà operare seguendo le norme di sicurezza del caso.Non passare o sostare sotto la gru durante il suo sollevamento.
Movimentazione con mulettoPosizionare le forche del muletto come illustrato nella figura.Se necessario fissare la gru al muletto mediante una catena e ruotare le forche leggermente verso la cabina per equilibrare il pesodella gru.Movimentare verificando attentamente l’equilibrio della gru.
Movimentazione con carro ponteSollevare la gru come descritto al paragrafo «sollevamento» e posizionarla sull’autocarro.Mantenendo in tensione la catena, verificare il corretto posizionamento e fissare la gru mediante le apposite staffe.Attenzione: E’ assolutamente vietato distaccare la catena di sollevamento prima di aver fissato la gru all’autotelaio.
Posizionamento temporaneo o StoccaggioDepositare la gru in zone sicure da possibili danneggiamenti e riparata dagli agenti atmosferici.Posizionare la gru su una base di appoggio in piano verificando la stabilità della stessa.
Applicazione di accessoriVedere capitolo 7.0.
TECHNICAL DATAGENERAL INSTRUCTIONS FOR THE INSTALLATION OF
HYDRAULIC CRANES
N. DT00001GB Pag. 1
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
GENERAL SPECIFICATIONSThe EFFER hydraulic crane can be defined ‘Loader Crane’ (cranes for loading) - according to EN12999, which means machineries usually combined with a vehicle (semi-trailer included) and generally planned for loading and unloading the vehicle; they may be installed even in different conditions (pedestal installation or on vessel).
The installer’s task is to establish the proper coupling crane-vehicle (or anything else); he is responsible for the correct project/execution of some parts/circuits necessary for the crane installation as well as for their duly mounting.We report here below the main aspects of the proper installation along with some indicative suggestions which are not binding.Please comply in any case with the regulations in force.The calculations given below and the mechanical design and diagrams must be performed by a competent technician.
Truck/suitable vehicle, position of the crane: calculation/check for the weights on the axles. primary stability calculation according to EN12999-2010.
Choice of the suitable supplementary stabilizers: fitness calculation of the supplementary stabilizers according to EN12999-2010 (fig.1a) (Supplier directions, if supplied by Effer, refer to the relevant table “DT00015- Supplementary stabilizers” available in WWW.EFFER.COM (area reserved to installers), where are indicated the minimum mounting distances from the slewing centre of the crane of the supplementary stabilizers suitable for such model).
Choice of the sub-frame (fig.1b): counter-chassis calculation, see EN12999-2010.
Choice of the counter-chassis connections: calculations according to the regulations in force CUNA NC034-05 and Manual of the vehicle supplier/supplementary stabilizers supplier, calculations according to norms and formulas of correct design (ex: EN13001).
Choice of the power take-off/pump: make Your calculation according to the maxi. oil displacement and the maxi. pressure.
Choice of the hydraulic and electric circuits: see regulations in force.for connecting the different crane components
Access and control seats: according to directive 2006/42/ EC, EN12999-2010.
Possible calculation of the foundations for fix calculation according to the regulations in forceinstallation:
Global security check: according to directive 2006/42/ EC EN12999-2010 (check carefully all possible dangers)
Practical tests for static and dynamic stability : according to regulations DIN 15019, EN12999-2010, DIN 15018, directive 2006/42/ EC (table. E)
Installation final inspection and self-certifying: according to laws and regulations in force (*)(*): In the EU-SEE countries, the EC compliance to directive 2006/42/ EC of the whole machine/equipment, where the hydraulic craneis installed, has to be guaranteed by the installer/who starts the crane; this one has to release his own EC Declaration according toenclosure II-A of the same directive.
The installer must carry out the installation following strictly the instructions given in the vehicle manual, given by the supplementarystabilizers supplier and by all suppliers of components/accessories he will use and especially according to the regulations in force.
Upon request, EFFER supplies more detailed information. More detailed technical information is available at WWW.EFFER.COM (area reserved for the installers).
TECHNICAL DATAGENERAL INSTRUCTIONS FOR THE INSTALLATION OF
HYDRAULIC CRANES
N. DT00001GB Pag. 2
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3TECHNICAL DATA
GENERAL INSTRUCTIONS FOR THE INSTALLATION OFHYDRAULIC CRANES
N. DT00001GB Pag. 3
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
In case the installer has to derate the crane for some stability reasons (overload limiting device), it is possible, once established thenominal charge «PD» with proved stability, to define the other nominal charges «Pi» corresponding to the different outreachespositions (extension) through the following formula:
MtotD = PD*(SmD + d) + 0,2AD*(SmD + d)*20
Pi = [MtotD - 0,2Ai*(Smi + d)*20)] : (Smi + d)
N.B.: For the value 0.2A see Technical Data (module D) (0.2A = 0.1A*2)
TECHNICAL DATAGENERAL INSTRUCTIONS FOR THE INSTALLATION OF
HYDRAULIC CRANES
N. DT00001GB Pag. 2
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3TECHNICAL DATA
GENERAL INSTRUCTIONS FOR THE INSTALLATION OFHYDRAULIC CRANES
N. DT00001GB Pag. 3
Rev. 1
Data 19/01/2011 Date
Prep. UTD Ceccardi
/3
ISTRUCTIONS FOR THE CRANE’S HANDLINGIn figure N.2 we illustrate the sheet «crane’s handling» which is usually attached to the crane when the machine isready for leaving EFFER plants; we report on it all instructions for the handling and the weight of the crane during thetransport conditions (the oil charge and eventual parts inserted in the accessories case are not considered).During the transport, fix the crane to the truck’s platform and protect it from atmospheric agents.
LiftingFor lifting the crane, there is on the machine a suitable bracket applied on the upper side of the main boom, where it is possible tohook chains or ropes.The lifting system must have the right capacity for lifting the crane from the point of view of the weight and the dimensions.
The personnel in charge must operate according to the proper security regulations.Do not walk or stay under the crane during its lifting.
Crane’s handling by lift truckPosition the forks of the lift truck as illustrated in the figure.If necessary, fix the crane to the lift truck with a chain and turn the forks a little while towards the cabin for balancing the weight ofthe crane.While moving the crane, check carefully its stability.
Crane’s handling by bridge craneLift the crane according to the instructions illustrated in the paragraph «Lifting» and place it on the truck.Keeping the chain under tension, check the right position of the crane and fix it through the special brackets.I.N.: It is absolutely forbidden to remove the lifting chain before having fixed the crane to the truck chassis.
Temporary positioning and stockingUnload the crane in safe areas away from possible damages and protected from atmospheric agents.Put the crane on a level surface and check its stability.
Accessories’ applicationSe chapter 7.0.
DATI TECNICI - TECHNICAL SPECIFICATIONPiastre aumento appoggio al suolo – EN12999-2011
Increase support plates to the ground – EN12999-2011
N.Pag.Rev.DataDatePrep.
DT000721/21315.04.15
(UTD) T. CeccardiABBINAMENTO ALLA GRU E CARATTERISTICHE TECNICHE
PARTS SUPPLIED WITH THE CRANE AND TECHNICAL FEATURESModello gruCrane model
Reazione massimaMax Reaction
Rmax (*1)
Dimensioni piastre STDStandard plate size
(*2) (*3)
Area piastra / piattelloPlate / disk Area
PressionePressure
P (*4)
PesoWeight
[daN] [m] [m2] [MPa] [kg]28 2500 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0132 1,8935 2804 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0165 1,7043 3750 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0132 2,8440 3834 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 1,6945 4409 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 1,9465 4290 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 1,8980 6549 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 2,89100 7170 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 3,16130-135 8499 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 3,75145 8941 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 3,94150-165 7479 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 3,30175 7457 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0227 3,29215 PROGRESS 11900 NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0314 3,78220 11545 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0314 3,68250 12615 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0314 4,0225 11269 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0314 3,59255 12207 (*5) NON PREVISTE – NOT NECESSARY Piattello- disk: 0,0314 3,89265 PROGRESS 14800 0,3 x 0,3 0,09 1,65 4275 PROGRESS 14000 0,3 x 0,3 0,09 1,55 4305 PROGRESS 14200 0,3 x 0,3 0,09 1,58 4315 PROGRESS 14800 0,3 x 0,3 0,09 1,65 4350-365 15466 (*5) 0,3 x 0,3 0,09 1,72 4385 16943 (*5) 0,3 x 0,3 0,09 1,88 4375 18600 (*5) 0,3 x 0,3 0,09 2,07 4395 PROGRESS 19000 0,3 x 0,3 0,09 2,11 4440-470 15596 (*5) 0,3 x 0,3 0,09 1,73 4455-505 18945 (*5) 0,3 x 0,3 0,09 2,10 4525 PROGRESS 18945 0,3 x 0,3 0,09 2,10 4575 18339 (*5) 0,3 x 0,3 0,09 2,04 4655 18490 (*5) 0,3 x 0,3 0,09 2,05 4685 PROGRESS 23000 0,3 x 0,3 0,09 2,55 4850-855 23386 (*5) 0,3 x 0,3 0,09 2,60 4885 PROGRESS 25500 0,3 x 0,3 0,09 2,83 4955 PROGRESS 25500 0,3 x 0,3 0,09 2,83 4
NOTE(*1) Reazione massima sullo stabilizzatore (Heel 5°).(*2) Dimensioni piastre conformi alla norma EN12999-2011 (P<4Mpa). Fornite di serie.(*3) Per gli stabilizzatori supplementari sono da prevedere le medesime piastre prescritte per gli stabilizzatori della gru.(*4) Pressione al suolo della superficie di appoggio. (*5) Con stabilizzatori completamente estesi.In seguito ad aggiornamenti tecnici i dati indicati possono subire modifiche.
(*1) Max reaction on stabilizer (Heel 5°).(*2) Plate dimensions conform to standard EN 12999-2011 (P <4Mpa). Standard supply.(*3) The same plates for crane outriggers must be provided for additional stabilizers.(*4) Pressure on ground surface. (*5) With outriggers fully extended.Technical data may change because of improvements.
DATI TECNICI - TECHNICAL SPECIFICATIONPiastre aumento appoggio al suolo – EN12999-2011
Increase support plates to the ground – EN12999-2011
N.Pag.Rev.
DT000722/213
ABBINAMENTO ALLA GRU E CARATTERISTICHE TECNICHEPARTS SUPPLIED WITH THE CRANE AND TECHNICAL FEATURES
Modello gruCrane model
Reazione massimaMax Reaction
Rmax (*1)
Dimensioni piastre STDStandard plate size
(*2) (*3)
Area piastra / piattelloPlate / disk Area
PressionePressure
P (*4)
PesoWeight
[daN] [m] [m2] [MPa] [kg]1155 25466 (*5) 0,3 x 0,3 0,09 2,83 41255 PROGRESS 27000 0,3 x 0,3 0,09 3,00 41355 25618 (*5) 0,3 x 0,3 0,09 2,85 41355 PROGRESS 28000 0,3 x 0,3 0,09 3,11 41405 PROGRESS 28000 0,3 x 0,3 0,09 3,11 41550 27885 (*5) 0,3 x 0,3 0,09 3,10 41750 33183 (*5) 0,3 x 0,3 0,09 3,69 41750 L 32102 (*5) 0,3 x 0,3 0,09 3,13 41855 PROGRESS 33500 0,3 x 0,3 0,09 3,72 41855 L PROGR. 33500 0,3 x 0,3 0,09 3,72 42055 PROGRESS 36500 0,6 x 0,6 0,36 1,01 212455 PROGRESS 48000 NON PREVISTE – NOT NECESSARY Piattello- disk: 0,15 3,12655 PROGRESS 48000 NON PREVISTE – NOT NECESSARY Piattello- disk: 0,15 3,1
NOTE(*1) Reazione massima sullo stabilizzatore (Heel 5°).(*2) Dimensioni piastre conformi alla norma EN12999-2011 (P<4Mpa). Fornite di serie.(*3) Per gli stabilizzatori supplementari sono da prevedere le medesime piastre prescritte per gli stabilizzatori della gru.(*4) Pressione al suolo della superficie di appoggio. (*5) Con stabilizzatori completamente estesi.In seguito ad aggiornamenti tecnici i dati indicati possono subire modifiche.
(*1) Max reaction on stabilizer (Heel 5°).(*2) Plate dimensions conform to standard EN 12999-2011 (P <4Mpa). Standard supply.(*3) The same plates for crane outriggers must be provided for additional stabilizers.(*4) Pressure on ground surface. (*5) With outriggers fully extended.Technical data may change because of improvements.
L1 Lmax
-100 100
Lmax
+100
DATI TECNICI TECHNICAL DATA N.Pag.
Prep.
Rev.DataDateLunghezza max prolunga piede con snodo sferico
Maximum length of extension foot with ball joint
DT000771/2
(UTD) T. Ceccardi
031.03.2011
20-35-40-45-65-80-100-130-135-145-150-165-175-210-250
[mm]
Istruzioni per la determinazione della lunghezza massima - L max - della prolunga piedein presenza di snodo sferico.
Le prolunghe piede consegnate in dotazione devono essere opportunamente dimensionate in funzione dell'altezzadel telaio dell'autocarro (vedi Service Manual).In presenza di snodo sferico NON E' POSSIBILE sfruttare tutta la lunghezza originale - L1 - della prolunga.La lunghezza della prolunga deve essere ridotta come da istruzioni.Per determinare la lunghezza - L max - sfruttabile occorre procedere nel modo seguente:L max = L1 - 100 mm.ATTENZIONE: se non si osservano le istruzioni soprariportate vi è il rischio di danneggiare il martinettopiede, con possibile conseguente ribaltamento dell'autocarro.
Instructions to set the maximum length - L max - of foot extension in case of balljoint fitted.
Foot extensions delivered must be appropriately sized, depending on the height of the truck chassis (see ServiceManual).
In a ball joint is fitted, all the original length of the extension - L1 - CAN NOT BE used.The length of the extension should be reduced as per instructions.
To set the correct length available - L max - follow the instructions below:L max = L1 - 100 mm.
WARNING: If these instructions are not followed, there is the risk of damaging the foot cylinder, withpossible, consequent overturn of the truck.
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21 3
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C1
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XL0
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13.0
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CX
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8.0A
XS1
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8.0A
XS2
0-2
8.0A
XS2
0-4
8.0A
XS3
0-4
8.0A
XS4
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8.0A
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XS3
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9.0A
XS4
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10.3
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310
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A
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P23
Priv
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15
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C1
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C1
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C1
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C1
P68
C1
P65
C1
P66
C1
P31
Val
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C1
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C1
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C1
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C1
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C1
P26
C1
P27
C1
P25
C1
P24
+24V
dc L
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ide
+24V
dc V
alve
Pow
er
+24V
dc L
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ide
+24V
dc L
ow S
ide
+24V
dc V
alve
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+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
C1
P09
C1
P14
C1
P21
C1
P22
C1
P20
C1
P11
C1
P13
C1
P12
C1
P10
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
C1
P04
C1
P07
C1
P08
C1
P05
C1
P06
C1
P03
C1
P19
C1
P53
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc L
ow S
ide
+24V
dc H
igh
Side
+24V
dc H
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Side
+24V
dc L
ow S
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+24V
dc P
rivile
ged
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3-C
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Hi
9-4-
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XC
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XC
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XC
AN
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2EX
CA
N-4
6.3E
XC
-313
.0E
XC
-413
.0E
CC
A-B
-38.
4FC
CA
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8.4F
XL0
-20
8.0B
XL0
-21
8.0A
XL0
-67.
0AX
R-1
013
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XL0
-77.
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SX-3
10.5
DX
DX
-310
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XB2
-17.
0AX
R-1
13.0
CX
R-2
13.0
CX
R-3
13.0
CX
R-4
13.0
CX
CS
-111
.0A
XAL
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10.5
CX
DX
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XR
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CC
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R-5
13.0
CX
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-50
10.3
FX
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910
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C1
P63
GN
DC
1P
47
C1
P01
C1
P33
C1
P18
C1
P17
C1
P02
C1
P49
C1
P50
C1
P48
+24V
dc P
rivile
ged
+24V
dc P
rivile
ged
+24V
dc P
rivile
ged
+24V
dc P
rivile
ged
+24V
dc P
rivile
ged
GN
D
GN
D
GN
D
C1
P42
C1
P44
C1
P45
C1
P46
C1
P43
C1
P40
C1
P41
C1
P73
C1
P64
GN
D
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D
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D
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Filte
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pin
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C1
P57
CA
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- L
C1
P54
C1
P61
C1
P62
C1
P60
C1
P58
C1
P39
C1
P59
C1
P38
EM
_Box
A
EM
_Ser
ies_
Out
EM
_Ser
ies_
In
CA
N 1
- L
CAN
1 -
H
CAN
1 -
H
CA
N 1
- L
C1
P35
C1
P57
C1
P37
C1
P37
C1
P55
CAN
1 -
H
CAN
0 -
H
CA
N 0
- L
CA
N 0
- L
CAN
0 -
H
S. P
. A.
"PR
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2.0
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SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
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XCAN-35.9B
XCAN-45.9B
XCAN-15.9C
XCANCan from Power Box A
XSDA-312.0A
XSDA-412.0A
XCAN-XCan to OX Unit
XC
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XC
RS
CA
N C
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and
Rot
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Col
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or
Sta
b E
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1
(M12
con
nect
or)
XS
1
XS
2
(M12
con
nect
or)
Sta
b E
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2
346
Cro
ss S
tab
Rot
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con
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are
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Opt
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sec
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Cro
ss S
tab
Sen
sor
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29.
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XC
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49.
0A
XC
AN-B
39.
0A
Can
0-H
to L
OW
ER
Can
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to L
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XC
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19.
0A
XL0
-47.
0A
XL0
-37.
0A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
XFA
N
5Vdc
Sen
sor_
GN
D
C1
P27
XC
S-8
11.0
B
Aux
Sta
b Fr
ont o
n gr
ound
CH
1&C
H2
Aux
Sta
b R
ear o
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ound
CH
1&C
H2
Sta
b O
n G
roun
d S
erie
s 1+
3+A
ux F
ront
Ser
ies
CH
1
Sta
b O
n G
roun
d S
erie
s 2+
4+A
ux R
ear S
erie
s C
H1
C1
P18
C1
P22
C1
P25
C1
P26
C1
P24
C1
P23
C1
P21
C1
P19
C1
P20
Sta
b E
xten
sion
3 C
H1
Sta
b E
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sion
3 C
H2
Sta
b E
xten
sion
4 C
H1
P G
en
P L
S
CAN
1_H
igh
Can
1_Lo
w
Faul
t Fan
C1
P13
C1
P14
C1
P16
C1
P15
C1
P17
XL0
C1
P11
C1
P12
C1
P10
C1
P09
Sta
b3 o
n G
roun
d C
H2
Sta
b4 o
n G
roun
d C
H2
PB
On-
off
Sta
b1 o
n G
roun
d C
H2
Sta
b2 o
n G
roun
d C
H2
Bal
last
Pow
er S
uppl
y +
Low
er S
ide
"LO
WE
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NIT
CO
NTR
OLL
ER
(SC
050-
020)
XL0
-4
XL0
-3
XL0
-1
XL0
-2
XR
-11
XL0
-6
XL0
-7
XL0
-10
XB2
-2
XB2
-1
Pow
er S
uppl
y +
Priv
ilegi
ed
C1
P04
C1
P07
C1
P08
C1
P06
C1
P05
C1
P02
C1
P03
C1
P01
CAN
0_Lo
w
EM
Box
A
ESt
op N
C S
erie
s
5Vdc
Sen
sor_
Supp
ly
ES
top
NC
PLE
CAN
0_H
igh
Pow
er S
uppl
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ND
GN
D d
a B
att.
XP
2
XP
3
XFA
N2
XFA
N1
LOW
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con
nect
ions
GN
D d
a B
att.
V B
att +
1 111
XFA
N-1
11.0
B
347
XFA
N-2
11.0
B
Sig
nal F
AN
2
Sig
nal F
AN
1
Pow
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AN2
Pow
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AN1
XA
LX
AL-1
5.9C P
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Sup
ply
+ Lo
wer
Sid
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9D V B
att +
XAL
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9C
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3
XB
2(F
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Olio
Inta
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Bal
last
Filte
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Dirt
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(Opt
iona
l)
Gre
en L
çigh
t
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
CC
A-B
-15.
9CC
CA
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5.9E
CC
A-B
-35.
9BC
CA
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5.9B
C1
P32
Man
on
plat
form
Aux
Sta
b Fr
ont o
n gr
ound
CH
2
Aux
Sta
b R
ear o
n gr
ound
CH
2
Sta
b A
ux E
xten
sion
CH
2
Sta
b O
n G
roun
d S
erie
s 2+
4+A
ux R
ear S
erie
s C
H1
Sta
b O
n G
roun
d S
erie
s 1+
3+A
ux F
ront
Ser
ies
CH
1
Sta
b A
ux E
xten
sion
CH
1
C1
P23
P G
en
C1
P27
C1
P28
C1
P29
C1
P31
C1
P30
C1
P26
C1
P24
C1
P25
Sta
b E
xten
sion
4 C
H2
Hid
r. O
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mpe
ratu
re
Sta
b E
xten
sion
4 C
H1
Sta
b E
xten
sion
3 C
H1
Sta
b E
xten
sion
3 C
H2
P L
S
C1
P18
C1
P19
C1
P21
C1
P20
C1
P22
XL0
C1
P16
C1
P17
C1
P15
C1
P14
CAN
1_H
igh
Can
1_Lo
w
Faul
t Fan
Sta
b3 o
n G
roun
d C
H2
Sta
b4 o
n G
roun
d C
H2
Pow
er s
uppl
y +
Low
er S
ide
Pow
er s
uppl
y +
Low
er S
ide
Pow
er s
uppl
y +
Low
er S
ide
Pow
er s
uppl
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Low
er S
ide
Pow
er s
uppl
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Low
er S
ide
(SC
050-
020)
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WE
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NIT
CO
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OLL
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Pow
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uppl
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Low
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ide
XS
40-4
5.9D
XL0
-21
5.9B
XL0
-20
5.9B
XS
10-2
5.9D
XS
10-4
5.9D
XS
20-2
5.9D
XS
20-4
5.9D
XS
30-4
5.9D
C1
P09
C1
P12
C1
P13
C1
P11
C1
P10
C1
P06
C1
P07
C1
P08
5Vdc
Sen
sor_
GN
D
Sta
b1 o
n G
roun
d C
H2
Sta
b2 o
n G
roun
d C
H2
PB
On-
off
Bal
last
ESt
op N
C S
erie
s
5Vdc
Sen
sor_
Supp
ly
EM
Box
A
XA
GF
Sta
b 1+
3+A
ux F
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PV
ED
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(A)
LOW
ER
con
nect
ions
(sta
b. o
n gr
ound
)
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GF-
45.
9D
XA
GR
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9E
CC
A
XA
GR
CA
N1
L
CAN
1 H
GN
D
Val
ve P
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PV
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Con
nect
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1-C
AN
Low
2-P
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Sup
ply
3-G
ND
4-C
AN
Hi
(AM
P J
unio
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er G
ray)
348
Sta
b 1+
3+A
ux R
ear
On
Gro
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(CH
1)
On
Gro
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(CH
2)A
ux S
tab
Rea
r
Aux
Sta
b Fr
ont
On
Gro
und
(CH
2)
On
Gro
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(CH
1)
XS
20
XS
30
XS
40
XS
10
(App
oggi
o pi
ede
4)
Sta
b 4
On
Gro
und
Sta
b 3
On
Gro
und
(App
oggi
o pi
ede
3)
(App
oggi
o pi
ede
2)
Sta
b 2
On
Gro
und
Sta
b 1
On
Gro
und
(App
oggi
o pi
ede
1)
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
XL0
C1
P32
Man
on
plat
form
Sta
b O
n G
roun
d S
erie
s 2+
4+A
ux R
ear S
erie
s C
H1
Sta
b O
n G
roun
d S
erie
s 1+
3+A
ux F
ront
Ser
ies
CH
1
Aux
Sta
b Fr
ont o
n gr
ound
CH
1&C
H2
Aux
Sta
b R
ear o
n gr
ound
CH
1&C
H2
C1
P23
P G
en
Sta
b E
xten
sion
3 C
H1
Sta
b E
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sion
3 C
H2
Sta
b A
ux E
xten
sion
CH
1
Hid
r. O
il Te
mpe
ratu
re
Sta
b E
xten
sion
4 C
H2
Sta
b E
xten
sion
4 C
H1
Sta
b A
ux E
xten
sion
CH
2
C1
P27
C1
P30
C1
P31
C1
P29
C1
P28
C1
P25
C1
P24
C1
P26
P L
S
CAN
1_H
igh
Faul
t Fan
Can
1_Lo
w
Sta
b3 o
n G
roun
d C
H2
Sta
b4 o
n G
roun
d C
H2
C1
P18
C1
P22
C1
P20
C1
P21
C1
P19
C1
P14
C1
P15
C1
P17
C1
P16
"LO
WE
R" U
NIT
CO
NTR
OLL
ER
(SC
050-
020)
Pow
er S
uppl
y +
Low
er S
ide
Pow
er S
uppl
y +
Low
er S
ide
Pow
er S
uppl
y +
Low
er S
ide
Pow
er S
uppl
y +
Low
er S
ide
Pow
er S
uppl
y +
Low
er S
ide
Pow
er S
uppl
y +
Low
er S
ide
XS4
-25.
9E
XAE
X-4
5.9E
XAE
X-2
5.9E
XS4
-45.
9E
XS3
-45.
9E
XS3
-25.
9E
XC
AN-B
46.
9B
XC
AN-B
36.
9A
XC
AN-B
26.
9A
XC
AN-B
16.
9A
5Vdc
sen
sor g
nd10
.0A
5Vdc
Sen
sor_
GN
D
ESt
op N
C S
erie
s
5Vdc
Sen
sor_
Supp
ly
EM
Box
A
Bal
last
Sta
b1 o
n G
roun
d C
H2
Sta
b2 o
n G
roun
d C
H2
PB
On-
off
C1
P09
C1
P10
C1
P11
C1
P13
C1
P12
C1
P08
C1
P07
C1
P06
XS
3S
ee S
E00
521A
for t
he c
onne
ctio
ns
Rea
r Sta
b E
xten
sion
LOW
ER
con
nect
ions
( st
ab. e
sten
sion
)
Sta
b E
xten
sion
3
(Ved
ere
SE
0052
1A p
er le
con
ness
ioni
)
Sta
b E
xten
sion
4
XS
4
XA
EXXS
3
349
XS
4
As
alte
rnat
ive
for l
inea
r sta
b. e
xit
Com
e al
tern
ativ
a in
cas
o di
usc
ite li
near
i
(M12
con
nect
or)
Sta
b E
xten
sion
4
XTP
XC
RS
Pla
narit
y Se
nsor
(M12
con
nect
or)
Cro
ss S
tab
Rot
atio
n
Sta
b E
xten
sion
3
(M12
con
nect
or)
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
RPM
-
Val
ve P
ower
Ena
ble
C1
P43
Pow
er S
uppl
y +
Priv
ilege
d
Pow
er S
uppl
y +
Priv
ilege
d
Pow
er S
uppl
y +
Priv
ilege
d
Res
et T
rasp
orta
ble
Cra
ne
Pow
er S
uppl
y +
Priv
ilege
d
Set
Tra
spor
tabl
e C
rane
Ligh
t Pow
er E
nabl
e
C1
P47
C1
P48
C1
P50
C1
P49
C1
P46
C1
P44
C1
P45
Lam
p R
ight
Sta
b Se
lect
ed
Truc
k C
laxo
n Ac
tivat
ion
Priv
ilege
d P
ower
Ena
ble
Lam
p Le
ft S
tab
Sel
ecte
d
Mai
n P
ower
Ena
ble
Aut
o R
PM
Eng
ine
Stop
Eng
ine
Sta
rt
C1
P38
C1
P39
C1
P42
C1
P41
C1
P40
C1
P37
C1
P36
C1
P35
C1
P34
XL0
-43
5.9F
XL0
-50
5.9D
XL0
-49
5.9D
XL0
-48
5.9D
XL0
-47
5.9D
XL0
-44
5.9F
XL0
-42
5.9F
XL0
-41
5.9F
(SC
050-
020)
"LO
WE
R" U
NIT
CO
NTR
OLL
ER
+24V
dc L
ow S
ide
5Vdc
sen
sor g
nd9.
3C
XM
P-1
5.9E
Man
on
Pla
tform
Hyd
Oil
Tem
pera
ture
Sta
b A
ux E
xten
sion
CH
2
RPM
+
Sta
b A
ux E
xten
sion
CH
1
Sta
b.4
Ext
ensi
on C
H2
C1
P29
C1
P30
C1
P33
C1
P32
C1
P31
C1
P28
BA
SE
con
nect
ions
Ope
rato
r Rig
ht P
rese
nce
Lam
p R
ight
Sta
b Se
lect
ed
XR
EL-
15.
9CX
RE
L-2
5.9E
XD
X-3
5.9C
XD
X-2
5.9E
XD
X-1
5.9C
+24V
dc L
ow S
ide
Gnd
XR
EL
To tr
uck
cabi
n
XD
X
3410
(Pre
senz
a O
pera
tore
Lat
o D
estro
)
Ope
rato
r Pre
senc
e
Rig
h Si
de
RT
XB
1
XSX
-25.
9EX
SX-3
5.9B
XSX
-15.
9C+2
4Vdc
Low
Sid
e
Lam
p Le
ft S
tab
Sel
ecte
d
Ope
rato
r Lef
t Pre
senc
e
Gnd
XB
6
XS
X
XM
P
(Tem
pera
tura
Olio
)
(Pre
senz
a O
pera
tore
Lat
o Si
nist
ro)
Left
Sid
e
Ope
rato
r Pre
senc
e
(Aus
iliar
i Cam
ion)
Trac
k's
Aux
iliar
y C
onne
ctor
RP
M A
uto
Sto
p
Hor
n
Sta
rt
RPM
+
RPM
-
(Opt
iona
l)M
an o
n pl
atfo
rm
Oil
Tem
pera
ture
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
XC
SXSDA (GRAY)
C1
P09
C1
P10
C1
P11
C1
P12
C2
P12
C2
P11
C2
P10
C2
P07
C2
P08
C2
P09
C2
P03
C2
P02
C2
P01
C2
P04
C2
P05
C2
P06
XSBD (BLACK)
EV
Sta
b 4
Pow
er S
uppl
y +
Priv
ilegi
ed
Pow
er S
uppl
y +
Priv
ilegi
ed
EV
XS
tab
Rot
/Ext
Sel
ectio
n
EV
Sta
b A
ux (R
ear)
EV
Sta
b A
ux (F
ront
)
Pow
er S
uppl
y +
Priv
ilegi
ed
EV
Wal
l 1-3
EV
Wal
l 2-4
EV
Sta
b E
xten
sion
4
EV
Sta
b E
xten
sion
2
EV
Sta
b E
xten
sion
1
EV
Sta
b 3
EV
Sta
b 2
EV
Sta
b 1
Fan
Ena
ble
"STA
B" D
RIV
ER(O
X02
4-01
0)
C1
P06
C1
P05
C1
P04
C1
P01
C1
P02
C1
P03
C1
P08
C1
P07
XC
S-6
5.9F
XFA
N-2
7.9F
XFA
N-1
7.9F
XC
S-8
7.3E
XC
S-7
5.9F
XC
S-5
5.9F
XC
S-3
5.9F
XC
S-2
5.9E
XC
S-1
5.9C
XC
S-4
5.9F
DirB
_In
EV
Sta
b E
xten
sion
3
Pow
er S
uppl
y +
Priv
ilegi
ed
Pow
er S
uppl
y G
roun
d
CAN
_Low
CAN
Shi
eld
EV
Dir
B
EV
Dir
A
CAN
_Hig
h
Faul
t Fan
DirB
_Out
Pow
er S
uppl
y +
Low
er S
ide
EV
0_E
nabl
e
DirA
_In
DirA
_Out
GN
D
EV_
Dir-
A
STA
B's
DR
IVE
R c
onne
ctio
ns
3411
EV
XS
tab
Rot
/Ext
Sel
ectio
n
EV_
Dir-
B
EV
_XS
tab
XB
5
EV_
V0 S
tabi
lizer
s C
H1
Gnd
OX
12.0
A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
EV
_Ext
-1
EV
_Ext
-2
EV
_Ext
-3
EV
_Ext
-4
Whe
n th
e au
xilia
ry s
tabi
lizer
and
/or w
all a
re e
nabl
e by
sof
twar
e, e
ack
mov
emen
t ena
ble
the
follo
win
g ou
tput
s:A
uxili
ary
Fron
t Sta
biliz
er e
xten
sion
:A
uxili
ary
Fron
t Sta
biliz
er fo
ot:
Aux
iliar
y R
ear S
tabi
lizer
foot
:A
uxili
ary
Rea
r Sta
biliz
er e
xten
sion
:
Wal
l 3:
Wal
l 4:
Wal
l 2:
Wal
l 1:
C2
P06
C2
P05
C2
P04
C2
P01
C2
P02
C2
P03
C2
P09
C2
P08
C2
P07
C2
P10
C2
P11
C2
P12
XSBD (BLACK)
EV
Wal
l 2-4
Pow
er S
uppl
y +
Priv
ilegi
ed
EV
XS
tab
Rot
/Ext
Sel
ectio
n
Pow
er S
uppl
y +
Priv
ilegi
ed
Pow
er S
uppl
y +
Priv
ilegi
ed
EV
Sta
b A
ux (F
ront
)
EV
Sta
b A
ux (R
ear)
EV
Sta
b 3
EV
Sta
b 4
EV
Wal
l 1-3
EV
Sta
b 1
EV
Sta
b 2
C1
P12
C1
P11
C1
P10
C1
P07
C1
P08
C1
P09
C1
P03
C1
P02
C1
P01
C1
P04
C1
P05
C1
P06
(OX
024-
010)
"STA
B" D
RIV
ERXSDA (GRAY)
Gnd
OX
11.9
A
XSD
A-3
6.3E
XSD
A-4
6.3E
EV
Sta
b E
xten
sion
1
EV
Sta
b E
xten
sion
2
EV
Sta
b E
xten
sion
4
EV
Sta
b E
xten
sion
3
Fan
Ena
ble
EV
Dir
A
EV
Dir
B
Pow
er S
uppl
y G
roun
d
Pow
er S
uppl
y +
Priv
ilegi
ed
CAN
Shi
eld
CAN
_Low
CAN
_Hig
h
Sta
biliz
er n
r.1 F
oot +
C2p
07S
tabi
lizer
nr.4
Foo
t + C
2p08
STA
B's
DR
IVE
R c
onne
ctio
ns
Sta
biliz
er n
r.1 E
xten
sion
+ C
2p07
Sta
biliz
er n
r.4 E
xten
sion
+ C
2p08
Sta
biliz
er n
r.3 E
xten
sion
+ C
2p06
Sta
biliz
er n
r.3 F
oot +
C2p
06
Sta
biliz
er n
r.2 F
oot +
C2p
05S
tabi
lizer
nr.2
Ext
ensi
on +
C2p
05
3412
EV
_Foo
t-2
EV
_Foo
t-3
EV
_Foo
t-4
EV
_Foo
t-1
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
MO
LEX
430
25
XSR
XR
XR
-10
5.9B
XR
-95.
9F
XR
-11
7.0A
XC
-45.
9B
XC
-35.
9B
XC
-25.
9B
XC
-15.
9B
XC
Spa
re
Spa
re
CAN
1 H
CAN
1 H
CA
N0
L
CAN
0 H
E-S
top
NC
PLE
Spa
re
EM
-ser
ies
CAN
Shi
eld
CAN
1 H
CAN
1 H
CA
N0
L
CAN
0 H
1 m
m
1 m
m
1 m
m
"Low
Sid
e"
XR
-85.
9E
XR
-75.
9D
XR
-65.
9D
XR
-55.
9C
XR
-45.
9C
XR
-35.
9C
XR
-25.
9C
XR
-15.
9C
53
1
Pow
er+
Priv
ilege
d
+24
Vol
t Val
ve P
ower
+24
Vol
t Lig
ht P
ower
+24
Vol
t Hig
h Si
de
+24
Vol
t Hig
h Si
de
GN
D
GN
D
GN
D
GN
D
1 m
m
1 m
m
1 m
m
1 m
m
1 m
m
1 m
m
1 m
m
1 m
m
1 m
m
Lato
fili
/ Sid
e w
ireC
AN H
CAN
L
Vdc+
GND
64
2
S9
XR
U
XA
11-5
19.0
C
XA
-620
.0D
Rot
ary
Col
lect
or's
con
nect
ions
CAN
Shi
eld
CAN
1 H
CAN
0 H
CAN
1 H
CA
N0
L
S12
S11
S10
1 m
m
1 m
m
1 m
m
Spa
re
Spa
re
E-S
top
NC
PLE
Spa
re
EM
-ser
ies
CAN
0 H
CA
N0
L
CAN
1 H
CAN
1 H
3413
XC
U
XC
U-4
15.0
A
XC
U-3
15.0
A
XC
U-2
14.0
A
XC
U-1
14.0
A
XAU
X-6
21.0
D
13
5G
ND
XSR
S51
mm
S7 S8S6
1 m
m
1 m
m
1 m
m
1 m
m
S2 S4S3S1
1 m
m
1 m
m
1 m
m
1 m
m
RO
TAR
YS
ENSO
R
CAN
MO
LEX
430
20
CAN
LC
AN H
Vdc
+
+24
Vol
t Hig
h Si
de
+24
Vol
t Hig
h Si
de
+24
Vol
t Lig
ht P
ower
+24
Vol
t Val
ve P
ower
Pow
er+
Priv
ilege
d
GN
D
GN
D
GN
D
GN
D
Lato
fili
/ Sid
e w
ire
24
6
XR
U-5
19.0
A
CC
A-2
19.0
E
XR
U-7
20.0
D
XR
U-6
14.0
A
CC
A-3
19.0
E
XR
U-3
17.0
AX
RU
-417
.0A
XR
U-2
14.0
A
"Up
Sid
e"
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
1st A
rm's
Ang
le XA
4
Plu
s1+
Pow
er S
uppl
y H
igh
Side
CAN
Shi
eld
Spa
re
CA
N0
L
Gnd
CAN
0 H
XR
U-2
13.9
CX
RU
-613
.9C
XC
U-1
13.9
DX
CU
-213
.9E
XC
AN
-RX
CAN
XC
AN
-U
Plu
s1+
Pow
er S
uppl
y H
igh
Side
Can
0 C
olum
n J
unct
ion
BO
XS
cato
la g
iunz
ioni
CA
N 0
sul
la c
olon
na
3414
XC
AN-
20.0
BX
CAN
+20
.0B
XC
U-1
20.0
BX
CU
-220
.0B
CAN
0 H
CA
N0
L
Gnd
XC
AN
Box
C
olum
n
XC
AN
0-4
15.0
A
XC
AN
0-3
15.0
A
XR
U-6
15.0
A
XR
U-2
15.0
A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
C1
P20
C1
P19
C1
P18
C1
P15
C1
P16
C1
P17
C1
P23
C1
P22
C1
P21
C1
P24
C1
P25
C1
P26
C1
P12
C1
P11
C1
P13
C1
P14
C1
P28
C1
P27
XUP
CAN
1_H
igh
PLE
Pre
senc
e C
H2
PLE
Pre
senc
e C
H1
Spa
re
Spa
re
P G
en
CAN
1 Sh
ield
CAN
1_Lo
w
P L
S
1st C
ylin
der P
ress
ure
CH
1
2nd
Cyl
inde
r Pre
ssur
e
Rad
io C
onso
le p
rese
nce
PLE
CH
2
Req
uest
oil
PLE
Jib
/Rot
-Gra
b Pr
esen
ce
Not
Use
d
C1
P10
C1
P07
C1
P08
C1
P09
C1
P03
C1
P02
C1
P01
C1
P04
C1
P05
C1
P06
(SC
050-
020)
"UP
PER
" UN
IT C
ON
TRO
LLER
XC
U-4
13.9
E
XC
U-3
13.9
E
XC
AN
0-4
14.9
A
XC
AN
0-3
14.9
A
XR
U-6
14.9
A
XR
U-2
14.9
A
CAN
0_Lo
w
CAN
0_H
igh
CAN
1_Lo
w
CAN
1_H
igh
+24V
olts
Hig
h Si
de
5Vdc
Sen
sor_
GN
D
Rad
io C
onso
le p
rese
nce
PLE
CH
1
Pro
xy 7
/9th
Out
(M2)
Spa
re (5
Vdc
Sen
sor_
Supp
ly)
Pro
xy 4
th E
xten
sion
Out
(M1)
CAN
Shi
eld
CAN
_Low
CAN
_Hig
h
Pow
er S
uppl
y G
ND
XAU
X-1
21.0
CX
AUX-
221
.0C
To X
AUX
UP
PE
R's
con
nect
ions
3415
XE
K
XAU
X-4
21.0
D
XAU
X-5
21.0
D
XAU
X-3
21.0
D
XA-
1220
.0E
XA-
1120
.0EX
A11
-419
.0D
XA
11-3
19.0
D
XAU
X-10
21.0
D
XAU
X-9
21.0
D
CAN
1_Lo
w
CAN
1_H
igh
CC
A-1
19.0
F
XR
U-2
19.0
AX
RU
-616
.0A
CC
A-4
19.0
EC
AN1_
Hig
h
CAN
1_Lo
w
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
C1
P32
C1
P33
C1
P19
C1
P18
C1
P16
C1
P17
C1
P31
C1
P30
C1
P29
C1
P26
C1
P27
C1
P28
C1
P22
C1
P21
C1
P20
C1
P23
C1
P24
C1
P25
XUP
Mai
n bo
om h
eigh
t (if
1st b
oom
can
sen
sor i
sn't
pres
ent)
Spa
re
PLE
Pre
senc
e C
H1
PLE
Pre
senc
e C
H2
Mai
n bo
om P
ress
ure
CH
2 (P
LE o
nly)
Spa
re
Spa
re
Spa
re
2nd
Cyl
inde
r Pre
ssur
e
1st C
ylin
der P
ress
ure
CH
1
Em
erge
ncy
Key
Win
ch F
ully
Out
CAN
1_H
igh
P L
S
CAN
1_Lo
w
CAN
1 Sh
ield
P G
en
"UP
PER
" UN
IT C
ON
TRO
LLER
(SC
050-
020)
C1
P11
C1
P10
C1
P09
C1
P06
C1
P07
C1
P08
C1
P14
C1
P13
C1
P12
C1
P15
XR
U-6
15.9
A
Jib
/Rot
-Gra
b Pr
esen
ce
Req
uest
oil
PLE
Rad
io C
onso
le p
rese
nce
PLE
CH
2
Spa
re (5
Vdc
Sen
sor_
Supp
ly)
Pro
xy 7
/9th
Out
(M2)
Rad
io C
onso
le p
rese
nce
PLE
CH
1
5Vdc
Sen
sor_
GN
D
Not
Use
d
Win
ch F
ull I
n
Pro
xy 4
th E
xten
sion
Out
(M1)
XA
52
UP
PE
R's
con
nect
ionsXA
20
XA
21
3416
(Sen
sore
di P
ress
ione
LS)
(Sen
sore
Pre
ssio
ne 1
° bra
ccio
)
1st C
ylin
der P
ress
ure
CH
2se
nsor
Dis
tribu
tor L
V Pr
essu
re
(Sen
sore
di P
ress
ione
man
data
Olio
)
Dis
tribu
tor I
nput
Pre
ssur
e
sens
or
sens
or
Plu
s1+
Pow
er S
uppl
y H
igh
Side
XA
51
XA
-920
.0D
1st C
ylin
der P
ress
ure
CH
1
(Sen
sore
Pre
ssio
ne 1
° bra
ccio
)se
nsor
XA-
1020
.0D
XA
-820
.0D
XR
U-6
17.0
A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Gre
en L
edC
1P
33
C1
P43
C1
P44
C1
P42
C1
P41
C1
P40
C1
P37
C1
P38
C1
P39
C1
P34
C1
P35
C1
P36
C1
P48
C1
P49
C1
P50
C1
P45
C1
P46
C1
P47
XUP
XA
-720
.0D
Spa
re
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Spa
re
Spa
re
Spa
re
Spa
re
EV
1 7/
9 E
xten
sion
Out
EV
_ByP
ass
Cra
ne d
istri
buto
r CH
1
EV
PLE
Gra
vity
Unl
ock
EV
2 7/
9 E
xten
sion
Out
EV
HSS
Red
Led
Yel
low
Led
Out
Buz
zer
C1
P25
C1
P24
C1
P23
C1
P28
C1
P27
C1
P26
C1
P29
C1
P30
C1
P31
(SC
050-
020)
"UP
PER
" UN
IT C
ON
TRO
LLER
C1
P32
XR
U-3
13.9
CX
RU
-413
.9C
XR
U-6
16.9
A
Mai
n bo
om h
eigh
t (if
1st b
oom
can
sen
sor i
sn't
pres
ent)
Mai
n bo
om P
ress
ure
CH
2 (P
LE o
nly)
Dis
tribu
tor L
V Pr
essu
re
PLE
Pre
senc
e C
H2
PLE
Pre
senc
e C
H1
Spa
re
Spa
re
Spa
re
Spa
re
Dis
tribu
tor I
nput
Pre
ssur
e
XA
10E
V_B
yPas
s C
rane
dis
tribu
tor C
H1
EV
1A 7
/9th
Ext
ensi
on
EV
1A 7
/9th
Ext
ensi
on
UP
PE
R's
con
nect
ions
(onl
y w
ith 7
/9 E
xten
sion
on
colu
mn)
XE
VS
XA
9
3417
EV
1A 7
/9th
Ext
ensi
on
EV
1A 7
/9th
Ext
ensi
on
Turr
et L
ight
ing
XR
U-3
18.0
AX
RU
-418
.0A
XR
U-6
18.0
A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Gre
en L
ed
C1
P47
C1
P46
C1
P45
C1
P50
C1
P49
C1
P48
C1
P36
C1
P35
C1
P34
C1
P39
C1
P38
C1
P37
C1
P40
C1
P41
C1
P42
C1
P44
C1
P43
C1
P33
XUP
Spa
re
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Pow
er S
uppl
y +
Spa
re
Spa
re
Spa
re
Spa
re
EV
2 7/
9 E
xten
sion
Out
EV
PLE
Gra
vity
Unl
ock
EV
_ByP
ass
Cra
ne d
istri
buto
r CH
1
EV
1 7/
9 E
xten
sion
Out
EV
HSS
Out
Buz
zer
Yel
low
Led
Red
Led
"UP
PER
" UN
IT C
ON
TRO
LLER
(SC
050-
020)
C1
P31
C1
P30
C1
P29
C1
P26
C1
P27
C1
P28
C1
P23
C1
P24
C1
P25
C1
P32
XR
U-6
17.9
A
XR
U-4
17.9
A
XR
U-3
17.9
A
Mai
n bo
om h
eigh
t (if
1st b
oom
can
sen
sor i
sn't
pres
ent)
Dis
tribu
tor L
V Pr
essu
re
Mai
n bo
om P
ress
ure
CH
2 (P
LE o
nly)
PLE
Pre
senc
e C
H1
PLE
Pre
senc
e C
H2
Spa
re
Spa
re
Spa
re
Spa
re
Dis
tribu
tor I
nput
Pre
ssur
e
XA
10
XAU
X-7
21.0
D
XEV
S-8
21.0
B
XEV
S-7
21.0
B
XEV
S-6
21.0
B
XEV
S-5
21.0
A
XEV
S-4
21.0
A
XEV
S-3
21.0
A
XEV
S-1
21.0
AX
EVS-
221
.0A
EV
_ByP
ass
Cra
ne d
istri
buto
r CH
1
UP
PE
R's
con
nect
ions
(with
7/9
Ext
ensi
on o
n 2n
d bo
om
exte
nsio
n )
XA
9
3418
to XEVS
Turr
et L
ight
ing
XR
U-6
20.0
D
XR
U-4
20.0
D
XR
U-3
20.0
C
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
J3
Em
erge
ncy
Sto
p A
ll se
ries
In
Em
erge
ncy
Sto
p A
ll se
ries
Out
CC
A-3
13.9
CC
CA
-213
.9D
CC
A-4
15.9
AC
CA
-115
.9A
CA
N1
L
CAN
1 H
Val
ve P
ower
GN
D
XAU
X-11
21.0
EX
A11
-513
.8C
XA
11-3
15.9
AX
A11
-415
.9B
XA
11
CA
N1
L
CAN
1 H
XR
U-5
13.9
C
XR
U-2
15.9
AP
ower
Priv
ilegi
ed
X41
22
1X
10X
131
32
RA
DIO
HE
TRO
NIC
RE
CE
IVE
R
120
Ohm
A (M
12) P
VE
D-C
C(A
)
RA
DIO
& D
istri
buto
rs c
onne
ctio
ns
CA
N1
L
CAN
1 H
Em
erge
ncy
Sto
p A
ll se
ries
Out
Em
erge
ncy
Sto
p A
ll se
ries
In
C (M
12)
3419
PV
ED
-CC
Con
nect
ion
1-C
AN
Low
2-P
ower
Sup
ply
3-G
ND
4-C
AN
Hi
(AM
P J
unio
r tim
er G
ray)
Cab
le 9
3963
28
Type
:160
9
RAD
IOR
ECEI
VER
G3X
RU
-220
.0C
XR
U-5
21.0
D
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
XA
62n
d C
ylin
der P
ress
ure
(Sen
sore
pre
ssio
ne 2
° bra
ccio
)
XR
U-7
13.9
C
XA
Jib/
Gra
b-R
otat
. Pre
senc
e
2nd
Boo
m P
ress
ure
XA-
1215
.8E
XA
-816
.9B
XA-
1016
.9B
XA-
1115
.8E
XA
-916
.9B
XA
-613
.9D
XA
-717
.3D
Not
Use
d
+Vdc
Lig
ht
EV
HSS
Win
ch F
ull O
ut
Win
ch F
ull I
n
Col
umn
XR
U-6
18.9
A
XR
U-2
19.9
A
XR
U-4
18.9
A
XR
U-3
18.9
A
XC
U-2
14.9
F
XC
U-1
14.9
E
XC
AN+
14.9
E
XC
AN-
14.9
E
XC
AN
-U
XC
AN+
22.0
AX
CU
-122
.0A
XC
U-2
22.0
A
XC
AN-
22.0
A
XAT
Plu
s1+
Pow
er S
uppl
y H
igh
Side
Ligh
tW
inch
Ful
ly O
utE
V_H
SS(F
ine
cors
a di
sces
a ve
rrice
llo)
AR
M c
onne
ctio
ns (s
td)
(con
ness
ioni
2°
brac
cio
)
XA
8X
A2
XL1
3420
Spa
re
Jib/
Rot
-Gra
b Pr
esen
ce
Not
Use
d
Win
ch F
ull I
n
Spa
re
Spa
re
+Vdc
Lig
ht
Plu
s1+
Pow
er S
uppl
y H
igh
Side
UPP
ER X
CA
N B
OX
Arm
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Onl
y w
ith P
LE a
nd/o
r 7/9
° ex
tens
ion
XAU
X-9
15.8
C Pin
s 11
-12
mus
t be
shor
ted
with
out B
ASK
ET o
r CS
(Con
tatti
11-
12 c
orto
circ
uita
ti in
ass
enza
del
PLE
o C
S)
XAU
X-11
19.9
D
XAU
X-10
15.8
C
XR
U-5
19.9
A
9396
444
Col
umn
XEV
S-4
18.8
E
XAU
X-7
18.9
F
XAU
X-6
13.8
D
XAU
X-5
15.8
D
XAU
X-4
15.8
D
XAU
X-3
15.8
D
XAU
X-2
15.8
D
XAU
X-1
15.8
D
XEV
S-8
18.8
F
XEV
S-7
18.8
F
XEV
S-6
18.8
F
XEV
S-5
18.8
F
XEV
S-3
18.8
E
XEV
S-1
18.8
EX
EVS-
218
.8E
XE
VS
XAU
T
Pro
xy 4
th E
xten
sion
Out
(M1)
(con
ness
ioni
2°
brac
cio
e tra
licci
o co
n ge
stio
ne P
LE e
/o 7
/9°
sfilo
)A
RM
& T
RE
STL
E c
onne
ctio
ns (w
ith P
LE a
nd/o
r 7/9
th e
xt.)
(Sol
o co
n P
LE e
/o 7
/9°
sfilo
)
3421
EM
- Ser
ies
+24V
dc P
rivile
gied
Pro
xy 7
/9th
Out
(M2)
Rad
io C
onso
le p
rese
nce
PLE
CH
2
Rad
io C
onso
le p
rese
nce
PLE
CH
1
Onl
y w
ith 7
/9°
exte
nsio
n(S
olo
con
7/9°
sfil
o)
Arm
XE
VT
EV
2 7/
9 E
xten
sion
Out
PLE
Pre
senc
e C
H1
PLE
Pre
senc
e C
H2
Req
uest
oil
PLE
ES
top
NC
PLE
Spa
re
EV
PLE
Gra
vity
Unl
ock
GN
D o
ptio
nal
EV
1 7/
9 E
xten
sion
Out
GN
D o
ptio
nal
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
to in
sert
inte
rnal
can
term
inat
or (
120
ohm
.) W
ithou
t JIB
inse
rt br
idge
on
the
mat
ing
part
betw
een
pin3
and
2 in
ord
er
2 431
XC
U-2
20.4
B
XC
U-1
20.4
B
XC
AN-
20.4
B
XC
AN+
20.4
B
XC
AN
-UX
CAN
T
UP
PE
R's
CA
N c
onne
ctio
ns
CAN
Shi
eld
Spa
re
CA
N0
L
CAN
0 H
CA
N0
L
CAN
Shi
eld
Spa
re
CAN
0 H
2nd
Arm
's A
ngle
XA
16
Win
ch S
train
Gau
ge
XAC
C
3422
Load
Cel
ls c
onne
ctio
ns:
Yel
low
: 1 -
6W
hite
: 3 -
4R
ed: 2
- 8
Bla
ck: 5
- 7
XC
AN
Box
U
pper
Sid
e S
enso
r
XC
U-1
23.0
DX
CU
-223
.0D
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
XC
U-1
22.9
AX
CU
-222
.9ATr
estle
Wor
k (S
tand
ard)
Tral
icci
o (S
tand
ard)
XAT
Win
ch F
ull I
n
Jib/
Rot
-Gra
b Pr
esen
ce
Not
use
d
Spa
re
Spa
re
Plu
s1+
Pow
er S
uppl
y H
igh
Side
Plu
s1+
Pow
er S
uppl
y H
igh
Side
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
+Vdc
Lig
ht
Spa
re
Cav
o 6x
1 +
6x0,
75
325 6
sez.
0,7
5se
z. 0
,75
sez.
0,7
5se
z. 0
,75
sez.
1,0
0
12 4 110 11
sez.
1,0
0se
z. 0
,75
sez.
0,7
5
sez.
1,0
0
8 97
sez.
1,0
0se
z. 1
,00
sez.
1,0
0XT
J
Hee
l Sen
sor (
optio
nal)
TRE
STL
E W
OR
K c
onne
ctio
ns (S
tand
ard)
XT1
XAH
CAN
0 H
CA
N0
L
CAN
Shi
eld
Spa
re
3423(F
ine
cors
a sa
lita
verri
cello
)W
inch
Ful
ly In
R1
120
Ohm
- 0.
5W
JIB
/Rot
-Gra
b Pr
esen
ce
Spa
re
Spa
re
Spa
re
Spa
re
Spa
re
Spa
re
Not
Use
d
Spa
re
+24V
dc H
igh
Side
CAN
Shi
eld
CAN
L
+Vdc
Lig
ht
CAN
H
GN
D
GN
D
JIB
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
R1
120
Ohm
- 0.
5W
XAU
XT
PLE
Pre
senc
e C
H2
XC
ANT
CAN
H
CAN
L
Pow
er p
rivile
ged
Em
erge
ncy
Sto
p Al
l Ser
ies
Pro
xy 7
/9th
Ext
ensi
on O
ut (M
2)
Pro
xy 4
th E
xten
sion
Out
(M1)
EV
PLE
Gra
vity
Unl
ock
Req
uest
oil
PLE
Spa
re
ES
top
NC
PLE
Cav
o 18
x1
**********
XAT
Tral
icci
o (c
on P
LE)
Tres
tle W
ork
(with
BAS
KET)
Win
ch F
ull I
n
Jib/
Rot
-Gra
b Pr
esen
ce
PLE
Pre
senc
e C
H1
Rad
io C
onso
le P
rese
nce
CH
2
Rad
io C
onso
le P
rese
nce
CH
1
Spa
re
Spa
re
Not
Use
d
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
Plu
s1+
Pow
er S
uppl
y H
igh
Side
Plu
s1+
Pow
er S
uppl
y H
igh
Side
+Vdc
Lig
ht
Spa
re
** ************ ************
XTJ
FC2_
PLE
FC1_
PLE
XAH
CAN
Shi
eld
TRE
STL
E W
OR
K c
onne
ctio
ns w
ith B
AS
KE
T
Spa
re
Hee
l Sen
sor (
optio
nal)
XTJ
B
CA
N0
L
CAN
0 H
XP
L1
XT1
GN
D o
ptio
nal
EV
PLE
Gra
vity
Unl
ock
Req
uest
oil
PLE
(Fin
e co
rsa
salit
a ve
rrice
llo)
Win
ch F
ully
In
PLE
_Pre
senc
eCH
1+2
4Vdc
Hig
h S
ide
PLE
_Pre
senc
eCH
2+2
4Vdc
Hig
h S
ide
3424
To A
utol
evel
CTR
To A
utol
evel
CTR
From
Aut
olev
el C
TR
Bas
ket P
rese
nce
(Pre
senz
a P
LE)
To A
utol
evel
CTR
Em
erge
ncy
Sto
p Al
l ser
ies
Pow
er+
Priv
ilege
d
EM
_PLE
for D
P20
1
+24
Vdc
Hig
h Si
de
+24V
dc H
igh
Sid
e
Spa
re
Spa
re
Spa
reS
pare
Spa
reS
pare
Spa
reS
pare
EM
_PLE
Rad
io C
onso
le p
res
PLE
CH
2
Rad
io C
onso
le p
res
PLE
CH
1
(Effe
r cod
e 93
9648
4)
PLU
G T
O W
OR
KW
ITH
OU
T BA
SKET
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Tres
tle W
ork
(with
7/9
th m
anag
emen
t and
BAS
KET)
Em
erge
ncy
Sto
p A
ll S
erie
s
XA
UX
T
XE
VT
XC
AN
TC
AN
L
CA
N H
EV
2 7
/9th
Ext
ensi
on
EV
1 7
/9th
Ext
ensi
on
GN
D
GN
D
Pow
er p
rivile
ged
XP
R79
XP
R4
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Pro
xy 7
/9th
Ext
ensi
on O
ut (M
2)
Pro
xy 4
th E
xten
sion
Out
(M1)
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Cav
o 24
x1
GN
D
GN
D
****** **** ****
Tral
icci
o (c
on g
estio
ne 7
/9°
sfilo
e c
on P
LE)
XA
T
Rad
io C
onso
le P
rese
nce
CH
1
Rad
io C
onso
le P
rese
nce
CH
2
PLE
Pre
senc
e C
H1
PLE
Pre
senc
e C
H2
EV
PLE
Gra
vity
Unl
ock
Pro
xy 4
th E
xten
sion
Out
(M1)
Pro
xy 7
/9th
Ext
ensi
on O
ut (M
2)
Req
uest
oil
PLE
ES
top
NC
PLE
Spa
re
Not
Use
d
Jib/
Rot
-Gra
b P
rese
nce
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
Spa
re
Spa
re
Win
ch F
ull I
n
Spa
re
+Vdc
Lig
ht
** ** **** **** **** ******** ****** ********
+24V
dc H
igh
Sid
e
XP
L1
XA
H
EV
1B
EV
2B
XTJ
B
TRE
STL
E W
OR
K c
onne
ctio
ns w
ith 7
/9°
Mng
. and
BA
SK
ET
CA
N S
hiel
d
Spa
re
CA
N0
H
CA
N0
L
3425
EV
2A
Hee
l Sen
sor (
optio
nal)
EV
1A
EV
PLE
Gra
vity
Unl
ock
GN
D
+24V
dc H
igh
Sid
e
PLE
_Pre
senc
eCH
2
Req
uest
oil
PLE
XT1
WIT
HO
UT
BA
SK
ET
PLU
G T
O W
OR
K
(Effe
r cod
e 93
9648
4)X
TJR
1
120
Ohm
- 0.
5W
PLE
Pre
senc
e C
H1
Pow
er p
rivile
ged
Em
erge
ncy
Sto
p A
ll S
erie
s
ES
top
NC
PLE
PLE
Pre
senc
e C
H2
+24V
dc H
igh
Sid
e
+Vdc
Lig
ht
CA
N S
hiel
d
JIB
/Rot
-Gra
b P
rese
nce
Not
Use
d
Rad
io C
onso
le P
rese
nce
CH
1
Rad
io C
onso
le P
rese
nce
CH
2
CA
N L
CA
N H
GN
D
GN
D
Win
ch F
ully
In(F
ine
cors
a sa
lita
verri
cello
)
PLE
_Pre
senc
eCH
1
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Tres
tle W
ork
(with
7/9
th a
nd w
ithou
t Bas
ket)
XA
UX
T
Spa
re
XE
VT
XC
AN
T
CA
N H
CA
N L
EV
1 7
/9th
Ext
ensi
on
EV
2 7
/9th
Ext
ensi
on
GN
D
GN
D
Spa
re
XP
R4
XP
R79
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Pro
xy 4
th E
xten
sion
Out
(M1)
Pro
xy 7
/9th
Ext
ensi
on O
ut (M
2)
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Cav
o 18
x1
GN
D
GN
D
** ******** ** **
Tral
icci
o (c
on g
estio
ne 7
/9°)
XA
T
Pro
xy 7
/9th
Ext
ensi
on O
ut (M
2)
Pro
xy 4
th E
xten
sion
Out
(M1)
Spa
re
Spa
re
Spa
re
Spa
re
Not
Use
d
Spa
re
Spa
re
Spa
re
Spa
re
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
GN
D (I
I° A
rm &
JIB
)
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Plu
s1+
Pow
er S
uppl
y H
igh
Sid
e
Jib/
Rot
-Gra
b P
rese
nce
+Vdc
Lig
ht
Spa
re
Win
ch F
ull I
n
Spa
re
Spa
re
** ** **** ****** ** **** **
EV
2B
EV
1B
XA
H
TRE
STL
E W
OR
K c
onne
ctio
ns w
ith 7
/9°
man
agem
ent
CA
N S
hiel
d
with
out B
AS
KE
T
Spa
re
CA
N0
L
CA
N0
H
3426
EV
2A
Hee
l Sen
sor (
optio
nal)
EV
1A
XT1
R1
120
Ohm
- 0.
5W
XTJ
Spa
re
Spa
re
Spa
re
Spa
re
Spa
re
Not
Use
d
Jib/
Rot
-Gra
b P
rese
nce
CA
N S
hiel
d
+Vdc
Lig
ht
+24V
dc H
igh
Sid
e
Spa
re
Spa
re
CA
N L
CA
N H
GN
D
GN
D
(Fin
e co
rsa
salit
a ve
rrice
llo)
Win
ch F
ully
In
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
(GRAY)
C2
P07
C2
P08
C2
P09
C2
P03
C2
P02
C2
P01
C2
P04
C2
P05
C2
P06
C1
P09
C1
P08
C1
P07
C1
P10
C1
P11
C1
P12
C2
P12
C2
P11
C2
P10
(BLACK)
Pow
er S
uppl
y VB
att+
Pow
er S
uppl
y VB
att+
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Min
iJib
Ang
le
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
EV
Exc
hang
e R
otat
or 1
- 2
EV
Exc
hang
e R
otat
or 3
- 4
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
EV
Exc
hang
e G
rab
3 - 4
EV
Exc
hang
e G
rab
1 - 2
Min
iJib
Cyl
inde
r Bul
khea
d Pr
essu
re
Jib
Cyl
inde
r Rod
Pre
ssur
e
Spa
re (5
Vdc
Sen
sor_
Supp
ly)
Jib
Cyl
inde
r Bul
khea
d Pr
essu
re
5Vdc
Sen
sor_
GN
D
Min
iJib
Cyl
inde
r Rod
Pre
ssur
e
M2
on J
ib
"JIB
" UN
IT C
ON
TRO
LLER
(MC
024-
120)
C1
P06
C1
P05
C1
P04
C1
P01
C1
P02
C1
P03
XTJ
CAN
L
Spa
re
Min
i Jib
Pre
senc
e
Pow
er S
uppl
y VB
att+
Pow
er S
uppl
y G
ND
Win
ch F
ull I
n
CAN
_Hig
h
CAN
_Low
Spa
re
Spa
re
Spa
re
Spa
re
Spa
re
Spa
re
CAN
Shi
eld
(DO
NO
T U
SE)
Jib
Pre
senc
e
Spa
re
GN
D
+24V
dc H
igh
Side
+Vdc
Lig
ht P
ower
CAN
H
GN
D
XJ4
Res
ista
nce
BO
X Ad
apto
r
Jib
(sen
za P
LE o
7/9
Est
ensi
one)
JIB
(with
out B
ASK
ET o
r 7/9
Ext
)
JIB
's c
onne
ctio
ns w
ithou
t BA
SK
ET
or 7
/9 E
xt.
XJ5
Spa
re
Spa
re
Spa
re
Cod
. 939
6410
3427
(Fin
e co
rsa
salit
a ve
rrice
llo)
Win
ch F
ully
In
Wor
k La
mp
(opt
iona
l)
Bro
wn
Gre
en
Bla
ck
XJ1 XJ6
XJ1
0
Red
XL2
M2
Pro
xim
ity o
n Ji
b
CAN
H
CAN
LC
AN S
uppl
y
Aux
iliar
y P
ower
&
A3
LH
Jib
CH
1 &
CH
2)(S
enso
re a
ngol
are
CH
1 &
CH
2Ji
b B
oom
Ang
le
If M
2 no
t pre
sent
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
(GRAY)
C1
P09
C2
P06
C2
P05
C2
P04
C2
P01
C2
P02
C2
P03
C2
P09
C2
P08
C2
P07
C2
P10
C2
P11
C2
P12
C1
P12
C1
P11
C1
P10
C1
P07
C1
P08
(BLACK)
Pow
er S
uppl
y VB
att+
Pow
er S
uppl
y VB
att+
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Min
iJib
Ang
le
EV
Exc
hang
e G
rab
1 - 2
EV
Exc
hang
e G
rab
3 - 4
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
EV
Exc
hang
e R
otat
or 3
- 4
EV
Exc
hang
e R
otat
or 1
- 2
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
Min
iJib
Cyl
inde
r Rod
Pre
ssur
e
5Vdc
Sen
sor_
GN
D
Jib
Cyl
inde
r Bul
khea
d Pr
essu
re
Spa
re (5
Vdc
Sen
sor_
Supp
ly)
Jib
Cyl
inde
r Rod
Pre
ssur
e
Min
iJib
Cyl
inde
r Bul
khea
d Pr
essu
re
M2
on J
ib
C1
P03
C1
P02
C1
P01
C1
P04
C1
P05
C1
P06
(MC
024-
120)
"JIB
" UN
IT C
ON
TRO
LLER
CAN
L
XTJ
EM
_Ser
ies
Pow
er S
uppl
y G
ND
Pow
er S
uppl
y VB
att+
Min
i Jib
Pre
senc
e
CAN
_Low
CAN
_Hig
h
Win
ch F
ull I
n
+24V
dc P
rivile
ged
Spa
re
Rad
io C
onso
le P
rese
nce
CH
1
PLE
_Pre
senc
e C
H2
Rad
io C
onso
le P
rese
nce
CH
2
PLE
_P
rese
nce
CH
1
ES
top
NC
PLE
Jib
Pre
senc
e
(DO
NO
T U
SE)
CAN
Shi
eld
XJ9
-829
.4B
XJ9
-929
.5B
XJ9
-429
.4A
XJ9
-729
.4B
XJ9
-629
.4B
XJ9
-529
.4B
XJ9
-329
.4A
GN
D
CAN
H
+Vdc
Lig
ht P
ower
+24V
dc H
igh
Side
GN
D
XJ4
JIB
(with
BAS
KET
or 7
/9 E
xt)
Jib
(con
PLE
o 7
/9 E
sten
sion
e)
Res
ista
nce
BO
X Ad
apto
r
JIB
's c
onne
ctio
ns 1
/2 W
ith P
LE o
r CS
XJ5
Spa
re
Spa
re
Spa
re
Cod
. 939
6410
3428
Win
ch F
ully
In
(Fin
e co
rsa
salit
a ve
rrice
llo)
Gre
en
Bro
wn
Wor
k La
mp
(opt
iona
l)
Bla
ck
XJ1 XJ6
XJ1
0
Red
XL2
M2
Pro
xim
ity o
n Ji
b
CAN
H
CAN
LA
uxili
ary
Pow
er &
CAN
Sup
ply
A3
LH
(Sen
sore
ang
olar
eJi
b C
H1
& C
H2)
Jib
Boo
m A
ngle
CH
1 &
CH
2
If M
2 no
t pre
sent
XJ9
-129
.5A
XJ9
-229
.5A
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
M.M
ello
ni
(GRAY)
C2
P06
C1
P09
C1
P08
C1
P07
C1
P10
C1
P11
C1
P12
C2
P12
C2
P11
C2
P10
C2
P07
C2
P08
C2
P09
C2
P03
C2
P02
C2
P01
C2
P04
C2
P05
(BLACK)
Pow
er S
uppl
y VB
att+
Pre
senc
e Ji
b a
nd R
ot/G
rab
inpu
t on
the
Pow
er S
uppl
y VB
att+
Bsa
me
anal
og p
in30
/03/
15
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Spa
re (P
WM
OU
T/D
OU
T/PV
GPo
wer
Sup)
Min
iJib
Ang
le
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
EV
Exc
hang
e R
otat
or 1
- 2
EV
Exc
hang
e R
otat
or 3
- 4
Spa
re (P
WM
OU
T/D
OU
T/PV
GO
ut2)
EV
Exc
hang
e G
rab
3 - 4
EV
Exc
hang
e G
rab
1 - 2
Min
iJib
Cyl
inde
r Bul
khea
d Pr
essu
re
Jib
Cyl
inde
r Rod
Pre
ssur
e
Spa
re (5
Vdc
Sen
sor_
Supp
ly)
Jib
Cyl
inde
r Bul
khea
d Pr
essu
re
5Vdc
Sen
sor_
GN
D
Min
iJib
Cyl
inde
r Rod
Pre
ssur
e
M2
on J
ib
"JIB
" UN
IT C
ON
TRO
LLER
(MC
024-
120)
C1
P06
C1
P05
C1
P04
C1
P01
C1
P02
C1
P03
EV
PLE
Gra
v. U
nloc
k
Min
i Jib
Pre
senc
e
Pow
er S
uppl
y VB
att+
Pow
er S
uppl
y G
ND
Win
ch F
ull I
n
CAN
_Hig
h
CAN
_Low
Req
uest
Oil
PLE
XTJ
B
XJ7
JIB
's c
onne
ctio
ns 2
/2 w
ith P
LE
XJ8
3429
EV
4 R
otat
or
EV
3 R
otat
or
EV
2 R
otat
or
EV
1 R
otat
or
EV
4 G
rab/
PLE
EV
3 G
rab/
PLE
EV
1 G
rab/
PLE
EV
2 G
rab/
PLE
Rad
io C
onso
le P
rese
nce
CH
2R
adio
Con
sole
Pre
senc
e C
H1
XJ9
XJ9
-428
.3B
XJ9
-928
.4C
XJ9
-828
.3B
XJ9
-728
.3B
XJ9
-628
.3B
XJ9
-528
.3B
EV
PLE
Gra
vity
Unl
ock
Req
uest
Oil
PLE
+24V
dc P
rivile
ged
EM
_Ser
ies
ES
top
NC
PLE
PLE
_Pre
senc
e C
H2
PLE
_Pr
esen
ce C
H1
Spa
re
XJ9
-328
.3B
XJ9
-228
.9A
XJ9
-128
.9A
+24V
dc H
igh
Sid
eG
ND
Bas
ket L
evel
ing
Con
nect
or
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Min
iJib
Pre
senc
e5V
dcSe
nsor
_Sup
ply
Min
iJib
Ang
leM
iniJ
ib C
ylin
der R
od P
ress
ure
Min
iJib
Cyl
inde
r Bul
khea
d Pr
essu
reJi
b C
ylin
der R
od P
ress
ure
Jib
Cyl
inde
r Bul
khea
d Pr
essu
reP
ower
+ (II
° A
rm &
JIB
)5V
dcS
enso
r_G
ND
XJ4
RJ2
221Ω ±0.1% 0.25W
RJ1
221Ω ±0.1% 0.25W
Box
Ada
ttato
re re
sist
enze
Res
ista
nce
BO
X A
dapt
or
Pre
ssur
e Se
nsor
JIB
Cyl
inde
r Rod
Pre
ssur
e Se
nsor
JIB
Cyl
inde
r Bul
khea
d
XJ3
XJ2
3430
(Pre
ssio
ne la
to s
telo
Jib
)P
ress
ure
Sens
orJi
b C
ylin
der R
od
(Pre
ssio
ne la
to fo
ndel
lo J
ib)
Jib
Cyl
inde
r Bul
khea
dP
ress
ure
Sens
or
XM
J
RJ5
221Ω ±0.1% 0.25W
RJ3
221Ω ±0.1% 0.25W
RJ4
221Ω ±0.1% 0.25W
Min
iJib
Pre
senc
e
Min
iJib
Cyl
inde
r Bul
khea
d Pr
essu
reM
iniJ
ib C
ylin
der R
od P
ress
ure
5Vdc
Sens
or_S
uppl
y
5Vdc
Sen
sor_
GN
DP
ower
+ (II
° A
rm &
JIB
)
Min
iJib
Ang
le
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Cab
le R
eel c
on M
2 e
FCS
Cab
le R
eel c
on F
CS
XJ5
Win
ch F
ull I
n
M2
Pro
xim
ity o
n Ji
b+2
4Vdc
Hig
h S
ide
XJ5
Win
ch F
ull I
nXJ6
GN
D
Cab
le re
el w
ith M
2 an
d FC
S o
r FC
S o
nly
Avv
olgi
cavo
con
Pro
xim
ity M
2 e
FC v
erric
ello
o s
olo
FCS
XJ5
3431
Win
ch F
ully
In(F
ine
cors
a sa
lita
verri
cello
)
M2
Pro
xim
ity o
n Ji
b
XJ5
XJ6
Win
ch F
ully
In(F
ine
cors
a sa
lita
verri
cello
)
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Cab
le R
eel
XJ5
Win
ch F
ull I
n
5Vdc
Sen
sor_
GN
D
Min
iJib
Cyl
inde
r Bul
khea
d P
ress
ure
Pow
er+
(II°
Arm
& J
IB)
Min
iJib
Ang
le5V
dcS
enso
r_Su
pply
Min
iJib
Cyl
inde
r Rod
Pre
ssur
e
Min
iJib
Pre
senc
eXM
J
Spa
re
Spa
re
Spa
reS
pare
Spa
re
XA
63
Con
nect
ions
for M
iniJ
ib (o
n JI
B)
(Con
ness
ioni
per
Mon
oJib
sul
Jib
)
XM
J5
3432
Win
ch F
ully
In(F
ine
cors
a sa
lita
verri
cello
)
XAM
J
XA
62
XA
61
sens
or
(Sen
sore
Pre
ssio
ne S
telo
Min
iJib
)
sens
orA
ngol
o M
iniJ
ib
(Sen
sore
di A
ngol
o M
iniJ
ib)
Min
iJib
)
sens
orM
iniJ
ib B
ulkh
ead
Pres
sure
(Sen
sore
Pre
ssio
ne F
onde
llo
Min
iJib
Rod
Pre
ssur
e
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
Em
erge
ncy
Sto
p Al
l ser
ies
Bas
ket L
evel
ling
Oil
Req
uest
EM
_PLE
for D
P20
1
Rad
io C
onso
le p
rese
nce
PLE
CH
2
Rad
io C
onso
le p
rese
nce
PLE
CH
1
EV
PLE
Gra
vity
Unl
ock
PLE
_Pre
senc
eCH
1
PLE
_Pre
senc
eCH
2
XP
L1
(con
figur
azio
ne c
he p
reve
de c
onne
ttori
Deu
tsch
)1s
t sol
utio
n w
ith D
euts
ch C
onne
ctor
s
PLE
_Pre
senc
eCH
2
PLE
_Pre
senc
eCH
1
+24V
dc H
igh
Sid
e
+24V
dc H
igh
Sid
e
FC1_
PLE
FC2_
PLE
EV
PLE
Gra
vity
Unl
ock
+24V
dc P
rivile
ged
Rad
io C
onso
le P
rese
nce
CH
1+2
4Vdc
Hig
h S
ide
PLE
_Pr
esen
ce C
H1
PLE
_Pre
senc
e C
H2
Rad
io C
onso
le P
rese
nce
CH
2
XJ9
Spa
re
XJ5
EM
_Ser
ies
Win
ch F
ull I
n
Req
uest
Oil
PLE
ES
top
NC
PLEC
able
Ree
lG
ND
XP
L3+2
4Vdc
Hig
h S
ide
From
Aut
olev
el C
TRTo
Aut
olev
el C
TR
(Fin
e co
rsa
salit
a ve
rrice
llo)
To A
utol
evel
CTR
FC_R
adio
CH
2
FC_R
adio
CH
1
XP
L2
EV
PLE
Gra
vity
Unl
ock
Con
nect
ions
for B
AS
KE
T (o
n JI
B)
(Con
ness
ioni
per
PLE
sul
Jib
)
+24V
dc H
igh
Sid
eR
adio
Con
sole
pre
senc
e PL
E C
H1
+24V
dc H
igh
Sid
eR
adio
Con
sole
pre
senc
e PL
E C
H2
+24V
dc P
rivile
ged
EM
_PLE
for D
P20
1+2
4Vdc
Priv
ilege
dE
mer
genc
y S
top
All s
erie
sB
aske
t Lev
ellin
g O
il R
eque
st
+24V
dc H
igh
Sid
e
Win
ch F
ull I
n
GN
D o
ptio
nal
Win
ch F
ully
In
3433
EM
_PLE
PLE
XP
L1X
PL1 XP
L2X
PL2
+24V
dc P
rivile
ged
+24V
dc P
rivile
ged
+24V
dc H
igh
Sid
e+2
4Vdc
Hig
h S
ide
+24V
dc H
igh
Sid
e
GN
D o
ptio
nal
+24V
dc H
igh
Sid
e
PLU
G T
O W
OR
KW
ITH
OU
T BA
SKET
+24V
dc H
igh
Sid
e
S. P
. A.
"PR
OG
RE
SS
2.0
"
SE0
0520
B
SE
0052
0C
SE
0052
0A
Mel
loni
02/0
7/20
15
+24V
dc H
igh
Sid
e
2nd
solu
tion
with
ILM
E C
onne
ctor
s (o
r sim
ilar)
(con
figur
azio
ne a
ltern
ativ
a ch
e pr
eved
e co
nnet
tori
ILM
E)
PLE
_Pre
senc
eCH
1+2
4Vdc
Hig
h S
ide
PLE
_Pre
senc
eCH
2+2
4Vdc
Hig
h S
ide
+24V
dc P
rivile
ged
Pow
er+
Priv
ilege
d
Rad
io C
onso
le P
rese
nce
CH
2
PLE
_Pre
senc
e C
H2
PLE
_Pr
esen
ce C
H1
+24V
dc H
igh
Sid
eR
adio
Con
sole
Pre
senc
e C
H1
EV
PLE
Gra
vity
Unl
ock
XJ9
Spa
re
XJ5
EM
_Ser
ies
Req
uest
Oil
PLE
Win
ch F
ull I
n
ES
top
NC
PLEC
able
Ree
lG
ND
FC2_
PLE
Bas
ket P
rese
nce
(Pre
senz
a P
LE)
(Fin
e co
rsa
salit
a ve
rrice
llo)
Win
ch F
ull I
n
XP
L3 Con
nect
ions
for B
AS
KE
T (o
n JI
B)
(Con
ness
ioni
per
PLE
sul
Jib
)
XP
L1FC
1_P
LE Win
ch F
ully
In
3434
To A
utol
evel
CTR
FC_R
adio
CH
1
FC_R
adio
CH
2
To A
utol
evel
CTR
From
Aut
olev
el C
TR
+24
Vdc
Hig
h Si
de
XP
LE
Rad
io C
onso
le p
res
PLE
CH
1
Rad
io C
onso
le p
res
PLE
CH
2+2
4 V
dc H
igh
Side
PLE
_Pre
senc
eCH
2 (S
pare
)E
M_P
LE fo
r DP
201
Pow
er+
Priv
ilege
dE
mer
genc
y S
top
All s
erie
s
EV
PLE
Gra
vity
Unl
ock
PLE
_Pre
senc
eCH
1 (S
pare
)
Bas
ket L
evel
ling
Oil
Req
uest
Pow
er+
Priv
ilege
d
Spa
re
Spa
reS
pare
EM
_PLE
GN
D o
ptio
nal
+24V
dc H
igh
Sid
e
WIT
HO
UT
BASK
ETP
LUG
TO
WO
RK
(Effe
r cod
e xx
xxxx
)