oilgear type “pvg” pumps - 100/130 (series f1u) service ... · serious injury. damaged or...
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Bulletin 947022 THE OILGEAR COMPANY 1
OILGEAR TYPE “PVG” PUMPS - 100/130 (SERIES F1U)
SERVICE INSTRUCTIONS
Figure 1. Typical Oilgear “PVG” Open Loop Pump
PURPOSE OF INSTRUCTIONSThese instructions will simplify the installation,operation, maintenance and troubleshooting ofOilgear type “PVG” pumps.
Become familiar with the construction, principle ofoperation and characteristics of your pump to helpyou attain satisfactory performance, reduce shut-down and increase the pump's service life. Somepumps have been modified from those described inthis bulletin and other changes may be madewithout notice.
REFERENCE MATERIALFluid Recommendations .....................................................................................Bulletin 90000Contamination Evaluation Guide.........................................................................Bulletin 90004Filtration Recommendations ...............................................................................Bulletin 90007Piping Information ...............................................................................................Bulletin 90011Installation of Vertically Mounted Axial Piston Units ...........................................Bulletin 90014PVG Open Loop Pumps, Sales.......................................................................Bulletin 47019-H
Pump Control Instructions, Series F1U“P-1NN” Single Pressure Compensator ............................................................Bulletin 947551“P-1NN/F” Single Pressure Compensator w/Load Sense.................................Bulletin 947552“P-1NN/H” Single Pressure Compensator w/H.P. Limiter ....................................Bulletin 947553“P-1NN/G” Horsepower Limiter w/Load Sense .................................................Bulletin 947554“P-2NN” Dual Pressure Compensator ..............................................................Bulletin 947555“P-A” or “P-B” Electronic Pressure Compensator .............................................Bulletin 947556“P-C” Single Pressure - Soft Start.....................................................................Bulletin 947557“P-CNN/H” Single Pressure - Soft Start w/H.P. Limiter .....................................Bulletin 947558“P-2NN/H” Dual Pressure Compensator w/H.P. Limiter ....................................Bulletin 947559“V-S25” Electro Hydraulic Servo Valve..............................................................Bulletin 947560“V-M20” Electro Hydraulic Servo Valve .............................................................Bulletin 947561
OILG0362
Bulletin 947022
May 2008
THE OILGEAR COMPANY2300 South 51st Street
Milwaukee, Wisconsin 53219 Bulletin 947022
2 THE OILGEAR COMPANY Bulletin 947022
Read and understand this entire instruction sheetbefore repairing, or adjusting your Oilgear product.
Those who use and maintain this equipment mustbe thoroughly trained and familiar with the product.If incorrectly used or maintained, this product andits equipment can cause severe injury.
SAFETY SYMBOLSThe following signal words are used in thisinstruction sheet to identify areas of concern whereyour safety may be involved. Carefully read the textand observe any instructions provided to ensureyour safety.
THIS SIGNAL WORD INDICATES ANIMMINENTLY HAZARDOUS SITUATIONWHICH, IF NOT AVOIDED, WILL RESULTIN DEATH OR SERIOUS INJURY.
This signal word indicates a potentiallyhazardous situation which, if not avoided,could result in death or serious injury.
This signal word indicates that a potentiallyhazardous situation exists which, if notavoided, may result in damage toequipment or minor personal injury.
While not directly relevant to the topic beingdiscussed, the NOTE is used to emphasizeinformation provided, or provide additionalinformation which may be of benefit.
This service information is designed forthe maintenance of your Oilgear product.It contains the information on the correctprocedures determined by Oilgear for thesafe manner of servicing. Always keepthis instruction sheet in a location where itis readily available for the persons whouse and maintain the product. Additionalcopies of this instruction sheet areavailable through the Oilgear Company.Or visit our website: www.oilgear.com.Please contact us if you have anyquestions regarding the information inthis instruction bulletin.
The cleanliness of working on this pump orthe hydraulic system is extremelyimportant to the safety and reliability of thepump and the system. Always make surethe fittings are clean on the outside beforeremoving them from their connections, arecapped and plugged when removed andplaced in a clean rag or container until theyare reinstalled.
Some service operations may requirespecial tools or equipment. If you requireinformation on these items, please contactOilgear before attempting these repairsand service operations.
Read, understand, and follow the safetyguidelines, dangers, and warningscontained in this instruction sheet topromote reliable operation and preventserious personal injury.
DO NOT attempt to service this machineryin an environment where safety regulationsare not established and in place.
DO NOT operate the hydraulic system if aleak is present. Serious injury may result.
Hydraulic systems operate under very highpressure. Hydraulic fluid escaping from apressurized system can penetrateunprotected body tissue. DO NOT inspectfor hydraulic leaks with bare hands orother exposed body parts. As a minimum,wear leather gloves prior to inspecting forleaks and use cardboard or wood. If leaksare present, relieve pressure and allowsystem to cool prior to servicing. If injuredby escaping hydraulic oil, contact aphysician immediately. Seriouscomplications may arise if not treatedimmediately. If you have questionsregarding inspecting for hydraulic leaks,please contact Oilgear prior to servicing.
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CAUTION
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Safety First
© 2008 THE OILGEAR COMPANY - ALL RIGHTS RESERVED
Bulletin 947022 THE OILGEAR COMPANY 3
Hydraulic hoses and tubing must beinspected on a daily basis for leaks, cuts,abrasions, damage and improperclearance along any mounting frame forhidden damage before the unit is put intoservice. Replace damaged hoses or hosesyou suspect are damaged before thesystem is returned to service! Hoses mustbe replaced every two years. Failure toproperly inspect and maintain the systemmay result in serious injury.
Hydraulic systems are hot. DO NOTTOUCH! Serious personal injury mayresult from hot oil. When you havecompleted working on the hydraulicsystem, thoroughly clean any spilled oilfrom the equipment. Do not spill anyhydraulic fluids on the ground. Clean anyhydraulic fluids from your skin as soon asyou have completed maintenance andrepairs. Dispose of used oil and systemfilters as required by law.
Use correct hoses, fittings, and adapterswith the correct SAE rating whenreplacing hoses to prevent possibleserious injury. Always replace hoses,fittings, and adapters with replacementsthat have a proper, suitable, workingpressure rating. Replacement hoses mustbe of the correct length and must complywith the hose manufacturer’s andOilgear’s installation guidelines andrecommendations.
Hydraulic hoses have the SAE ratingsmarked on the hose to assist you inselecting the correct hose. The samemanufacturer must supply anyreplacement hydraulic hoses and fittingassemblies. As an example: Brand “X”hose and brand “Y” fitting will not normallybe compatible. No “Twist” is allowed in thehydraulic hoses. “Twist” may result inpremature hose failure. This can causeserious injury. Please contact Oilgear forassistance when required.
Hydraulic cylinders can be holding afunction in a certain position when thepump is OFF. An example of this is afunction being held in the lift or partial liftposition by the cylinders. If a hydraulicline is removed or the hydraulic circuits orcontrols are being worked on, gravity mayallow the function being held in position todrop. All workers and personnel mustremain clear of these areas when workingon or operating the hydraulic system.Block and secure all devices andfunctions which apply before beginningwork or operation. Failure to comply withthis can result in serious injury or death.
Any hydraulic pipe which is replaced mustconform to SAE J1065 specifications. Ifincorrect hydraulic pipe is installed, thehydraulic system may fail, causingserious injury. Damaged or leakingfittings, pipes or hoses must be replacedbefore the system is returned to service.
DO NOT heat hydraulic pipe. The carboncontent of this steel tube is such that ifheated for bending, and either water or airquenched, the pipe may lose its ductilityand thereby be subject to failure underhigh pressure conditions. Serious injurycan result. Damaged or leaking pipesmust be replaced before the system isreturned to service. Please contact Oilgearif you require assistance or havequestions.
All hydraulic pressure must be relievedfrom the hydraulic system prior toremoving any components from thesystem. To relieve the hydraulic pressurefrom the hydraulic system, turn off themotor and operate the control panel withthe key in the ON position. Failure tocomply can result in serious injury. If youhave any questions concerning relievingthe hydraulic pressure from the system,please contact Oilgear.
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Safety First
4 THE OILGEAR COMPANY Bulletin 947022
Hydraulic components can be heavy. Usecaution while lifting these components.Serious personal injury can be avoidedwith proper handling of the components.
Please contact Oilgear if you requireassistance, when performing hydraulictest procedures, use the proper hydraulicgauges. Installing an incorrect test gaugecould result in serious injury if the gaugefails. Use properly rated hydraulic hosesto allow the test gauge to be read awayfrom moving parts and functions.
Increasing hydraulic pressure beyond therecommendations may result in seriousdamage to the pump and system orserious personal injury and may void theOilgear Warranty. If you have questionsconcerning hydraulic pressures or testingprocedures, please contact Oilgear beforeattempting the test procedures or makingadjustments.
An Oilgear pump must not be modified inany way without authorization fromOilgear. Modifications may not complywith safety standards, including ANSIsafety standards, and may result inserious personal injury. Please contactOilgear if you require assistance.
DO NOT enter under hydraulic supportedequipment unless they are fully supportedor blocked. Failure to follow this procedurecan result in serious injury or death.
Any Oilgear pump safety decals must bereplaced anytime they are damaged,missing, or cannot be read clearly. Failureto have proper decals in place can resultin serious injury or death. (If you requiresafety decals, please contact Oilgear forreplacement safety decals, at no charge.)
Be sure everyone is clear of the areaaround the hydraulic system beforeoperating after servicing. Remain attentiveat all times when operating to check yourwork until you are completely sure it issafe to return to service. Failure to heedthis warning may result in seriouspersonal injury or death.
Wear the proper protective clothing whenoperating, servicing or maintaining thehydraulic system or the Oilgear pump. Wearthe correct protective gear, safety glasses,gloves, and safety shoes. Serious injurycan result without proper protective gear.
Make sure to keep hands and feet andother parts of your body clear of revolvingor moving parts. Failure to comply cancause serious injury.
DO NOT wear watches, rings, or jewelrywhile working with electrical andmechanical equipment. These items canbe hazardous and can cause serious andpainful injuries if they come into contactwith electrical wires, moving parts, orhydraulic equipment.
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Bulletin 947022 THE OILGEAR COMPANY 5
PREPARATION AND INSTALLATION
MOUNTING
Pump Without Reservoir - The pump can bemounted in any position. But, the recommendedmounting position is with the drive shaft on ahorizontal plane and the case drain port 1 on thetop side. Secure the pump to a rigid mountingsurface. Refer to the referenced Oilgear PipingInformation Bulletin 90011.
Pump With Reservoir - These pumps are usuallyfully piped and equipped. It may be necessary toconnect to a super-charge circuit when used.Mount reservoir on level foundation with thereservoir bottom at least six inches above floorlevel to facilitate fluid changes.
PIPING AND FITTINGS
Refer to the referenced Oilgear Piping InformationBulletin 90011 and individual circuit diagram beforeconnecting the pump to the system. Inlet velocitymust not exceed 5 fps (1,5 mps). Inlet should beunrestricted and have a minimum of fittings.
DO NOT use an inlet strainer.
Arrange line from “case drain” so the case remainsfull of fluid (non-siphoning). Case pressure must beless than 25 psi (1,7 bar). For higher casepressures, special shaft seals are required; contactour Customer Service. Each drain line must be aseparate line, unrestricted, full sized andconnected directly to the reservoir below the lowestfluid level. Make provisions for opening this linewithout draining (siphoning) reservoir.
Running the pump in NEUTRAL position(zero delivery) for extended periodswithout a supercharge circuit can damagethe pump. The system and pump must beprotected against overloads by separatehigh pressure relief valves. Install bleedvalve(s) at the highest point(s) in system.
POWER
Power is required in proportion to volume andpressure used. Motor size recommendations forspecific applications can be obtained from TheOilgear Company. Standard low starting torquemotors are suitable for most applications.
DO NOT start or stop unit under loadunless system is approved by Oilgear. Itmay be necessary to provide deliverybypass in some circuits.
DRIVE
Verify rotation direction plate on the pump's housing.Clockwise pumps must be driven clockwise andcounterclockwise pumps must be drivencounterclockwise. Use direct drive coupling. Sizeand install coupling per manufacturer's instructions.
DO NOT drive the coupling onto the pumpdrive shaft. If it is too tight, it may benecessary to heat coupling for installation.Refer to manufacturer's instructions.
Misalignment of pump shaft to driver's shaft shouldnot exceed 0.005 inches (0,13 mm) Total IndicatorReadout (TIR) in any plane.
NOTE
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CAUTION
CAUTION
Service Instructions
6 THE OILGEAR COMPANY Bulletin 947022
FILTRATION
Keep the fluid clean at all times to ensure long lifefrom your hydraulic system. Refer to the referencedOilgear Filtration Recommendations bulletin 90007and Oilgear Contamination Evaluation GuideBulletin 90004. Oilgear recommends use of a filterin the pressure or return line. Replace filterelement(s) when the filter condition indicatorreaches change area at normal fluid temperature.Drain and thoroughly clean filter case. Usereplacement element(s) of same beta 10 ratio(normally a ratio of 4 with hydraulic oils).
FLUID COOLING
When the pump is operated continuously at therated pressure or frequently at peak load, auxiliary cooling of the fluid may be necessary. Fluidtemperature should not exceed limits specified inthe referenced Oilgear Fluid RecommendationsBulletin 90000.
AIR BREATHER
On most installations, an air breather is mountedon top of fluid reservoir. It is important for thebreather to be the adequate size to allow air flow inand out of reservoir as fluid level changes. Keepthe breather case filled to the “fluid level” mark.About once every six months, remove cover, washscreen in solvent and allow screen to dry, cleanand refill case to level mark and install screen.Refer to the manufacturer's recommendations.
FLUID, FILLING AND STARTING RECOMMENDATIONS
Refer to instruction plate on the unit, reservoir,machine and/or reference, Fluid Recommendationsbulletin. Fire resistant fluids and phosphate esterfluids can be used in accordance with fluidmanufacturer's recommendations.
1. Pump all fluid into reservoir through a clean(beta 10 ratio of 4 or more) filter. Fill reservoirto, but not above, “high level” mark on the sightgauge.
2. Remove case drain line and fill pump casewith hydraulic fluid.
3. Turn drive shaft a few times by hand with aspanner wrench to make sure parts rotate.Torque to turn drive shaft should be 9 to 24 ft•lb(12 to 32 N•m).
With pump under “no load” or with pump control atNEUTRAL:
4. Turn drive unit ON and OFF several timesbefore allowing pump to reach full speed. Thesystem can usually be filled by running thepump and operating the control.
5. The fluid level in the reservoir should decrease.Stop the pump. DO NOT allow the fluid level togo beyond the “low level.” If the level reaches“low level” mark, add fluid and repeat step.
With differential (cylinder) systems, the fluidmust not be above “high level” when theram is retracted or below “low level” whenextended. Bleed air from the system byloosening connections or opening petcocksat the highest point in the system. Closeconnections or petcocks tightly when solidstream of fluid appears.
CONSTRUCTION
See Figure 3.
1. A drive shaft (301) runs through the center lineof pump housing (001) and valve plate (401)with the pump cylinder barrel (101) splined to it.
2. A bearing (306) supports the outboard end ofthe drive shaft and a bushing supports theinboard end. (The bushing is part of valve plate assembly.)
3. The pump cylinder barrel is carried in apolymerous (journal type) cylinder bearing(202).
4. The valve plate (401) has two crescent shapedports.
5. The pumping piston/shoe assemblies (102) inthe cylinder barrel are held against aswashblock (201) by a shoe retainer (104).
6. The shoe retainer is held in position by thefulcrum ball (103) which is forced outward bythe shoe retainer spring (105).
7. The spring acts against the pump cylinderbarrel, forcing it against the valve plate whilealso forcing the piston shoes against theswashblock.
8. The semi-cylindrical shaped swashblock limitsthe piston stroke and can be swiveled in arcshaped saddle bearings (204).
9. The swashblock is swiveled by a control(included in referenced material). Refer toPRINCIPLE OF OPERATION.
NOTE
Bulletin 947022 THE OILGEAR COMPANY 7
PRINCIPLE OF OPERATIONThe illustrations show the pump driven clockwise(right hand) from the top (plan) view.
Figure 2. Cut-a-way of a Typical “PVG” Pump
Position B, Pump During Full Delivery From PORT B - Figure 3
Rotating the drive shaft (301) clockwise turns thesplined cylinder, which contains the pumpingpistons (102). When the cylinder rotates, thepistons move in and out within their bores as theshoes ride against the angled (C) swashblock(201).
As the cylinder rotates, the individual piston boresare connected, alternately, to the crescent shapedupper (port A) and lower (port B) in the valve plate.While connected to the upper side (suction) port A,each piston moves outward OUT, drawing fluidfrom port A into the piston bore until its outermoststroke (D) is reached. At this point, the piston borepasses from the upper crescent port A to the lowercrescent port B.
While rotating across the lower crescent, eachpiston moves across the angled swashblock faceand then each piston is forced inward IN. Eachpiston then displaces fluid through the lowercrescent to port B until its innermost stroke (D) isreached. At this point, the piston bore passes fromthe lower to the upper crescent again and the cycleis repeated.
Figure 3. Position B, Pump During Full Delivery From Port B
OILG0363
BA
105 401
306202
OIL_0001
001
8 THE OILGEAR COMPANY Bulletin 947022
Position B/2, Pump During One Half Delivery From PORT B - Figure 4
This illustration shows that the angle (E) of theswashblock determines the length of the pistonstroke (F), (the difference between outermost andinnermost position) which determines the amountof delivery from the pump. In this case, the strokeangle (E) is one-half of the stroke, which means thepiston stroke is one-half and the pump delivery isone-half.
Position N, Pump In Neutral, No Stroke, No Delivery - Figure 5
Neutral position results when the controlcenters the swashblock. The swashblockangle (G) is now zero and swashblock face isparallel to the cylinder face. There is noinward or outward motion of the pump pistonsas piston shoes rotate around the swashblockface. With no inward and outward motion orno stroke (H), NEUTRAL no fluid is beingdisplaced from the piston bores to thecrescents in the valve plate and there is nodelivery from pump ports.
Illustration reference numbers match thepart item number in the parts list.
Figure 4. Position B/2, Pump During One Half Delivery From Port B
Figure 5. Position N, Pump In Neutral, No Stroke, No Delivery
Refer to SPECIFICATIONS
NOTE
FE
IN
OUT
OILG-0002
A
A
A
B
GH
NEUTRAL
NEUTRAL
OILG-0003
A
A
A
B
Bulletin 947022 THE OILGEAR COMPANY 9
SPECIFICATIONS
Refer to reference material, pump controlmaterial and individual application circuitfor exceptions.
Case pressure should be less than 25 psi (1,7 bar). For higher pressure, consult factory.Higher speeds available - consult factory.
Table 1. Nominal Performance Data with 150-300 SSU viscosity fluids.
All dimensions (without controls) are approximate. For detailed dimensions, contact your Oilgear Representative.* Weight with P Control and rear port valve plate
Table 2. Nominal Dimensions without controls.
Refer to installation drawings for more detailed dimensions and port configurations.
NOTE
Unit
THEORETICALMAXIMUM
DISPLACEMENT
RATED CONTINUOUS
PRESSURE
PEAKPRESSURE
FLOW RATE at1800 rpm rated
continuous pressureand 14,7 psia (bar abs)
inlet condition
MAXIMUMSPEED
POWER INPUT at rated
continuous pressure & 1800 rpm
in 3/rev ml/rev psi bar psi bar gpm l/mi rpm hp kw
PVG 100 6.00 98,3 5000 344,8 5800 400,0 42.4 160,5 2400 150 111,9
PVG 130 7.94 130,2 3750 258,6 4250 293,1 57.6 218,0 2400 150 111,9
UnitLength Width Height Weight
Face Mountinginches mm inches mm inches mm lbs. kg
PVG 100, 130 13.0 330,5 8.4 213 7.3 185,7 115* 52 SAE “C” 2 bolt
10 THE OILGEAR COMPANY Bulletin 947022
TROUBLESHOOTINGPROBLEM CAUSES REMEDY
Unresponsive or Sluggish Control
Low control input (pilot) pressure for “R” and “V” volume type controls only.
Refer to referenced control instruction material.
Swashblock saddle bearings (204) worn or damaged. Inspect bearings. Replace.
Insufficient PumpVolume
Delivery limited by faulty control Refer to appropriate control instruction material.
Obstructed suction circuit or insufficient supercharge volume. Inspect for obstruction and verify supercharge.
Insufficient drive motor speed. Refer to appropriate power material.
Worn or grooved cylinder barrel (101) and/or valve plate (401) mating surfaces.
Inspect components. Replace.Worn piston/shoe assemblies (102) or piston bores in cylinder (101).
Worn or damaged piston shoe or swashblock (201).
Irregular orUnsteady Operation
Faulty control.Inspect components. Replace. Refer to referenced pump control instruction materials.
Fluid level in reservoir is low or supercharge is insufficient. Verify fluid level and/or supercharge.
Air entering hydraulic system. Inspect system for leak.
Worn axial piston pump. Inspect components. Replace.
Faulty output circuit components (cylinder, motors, valves or other related components).
Inspect components. Replace.
Loss of Pressure
Worn piston pump.
Inspect components. Replace.Worn or grooved cylinder barrel (101) and/or valve plate (401) mating surfaces.
Worn piston/shoe assemblies (102) or piston bores in cylinder.
Faulty output circuit components.
Excessive or High Peak Pressure
Faulty output circuit components. Check the relief valves.
Excessive Noise
Pump stopped or started incorrectly under load. Verify operation procedure of pump.
Low fluid level in reservoir or insufficient supercharge causing cavitation.
Verify fluid level and/or supercharge.
Air entering hydraulic system. Inspect system for leak.
Fluid too cold or viscosity too high. Verify fluid temperature and/or type.
Suction line problem i.e.; obstructions in line, line too long, line diameter too small or too many bends and/or loops in line.
Inspect line for obstruction.
Broken or worn piston/shoe assembly (102). Inspect components. Replace.
Pump rotating in wrong direction. Inspect operation direction of pump.
Excessive Heating
Operating pump above rated or peak pressure. Verify pump limitations.
Low fluid level in reservoir or insufficient supercharge. Verify fluid level and/or supercharge.
Air entering hydraulic system. Inspect system for leak.
Worn piston pump.
Inspect components. Replace.Worn or grooved cylinder barrel (101) and/or valve plate (401) mating surfaces.
Faulty output circuit components (continuous blowing relief valves or "slip" through valves, cylinder or other components.
Insufficient cooling provision or clogged coolers. Inspect for obstruction.
Bulletin 947022 THE OILGEAR COMPANY 11
TESTING AND ADJUSTING
Shut the pump OFF and release pressurefrom the system before disassemblingcomponents. Failure to comply with theseinstructions could result in personal injuryor death. Blocking the pressure linebetween the pump and the system (orpump) high pressure relief valve will resultin damage and could result in seriouspersonal injury.
PISTON PUMP
To check for a worn piston pump, make a leakmeasurement test from the case drain while thepump is under pressure. After the unit is warm,either install a flow meter in the drain line or havethe flow from the drain line directed into a largecontainer or reservoir. The pump case must remainfull of fluid during this test.
DO NOT run a pump on stroke against ablocked output unless it is protected by ahigh pressure relief valve and then run nolonger than necessary to check slip. Limitdischarge to prevent dropping reservoirfluid below low level.
With an accurate high pressure gauge in thepressure line, start the pump and stall (or block)output device to raise system pressure tomaximum (as set by system relief valve). Read themeasurement on the flow meter or time andmeasure the case drain flow to fill a known sizecontainer and calculate the flow rate.
Additional leakage indicates wear, butdoes not become critical until it impairsperformance.
DISASSEMBLY
The cleanliness of working on this pump orthe hydraulic system is extremely importantto the safety and reliability of the pump andthe system.
When disassembling or assembling thepump, choose a clean, dry, dust and sandfree area where no traces of abrasiveparticles are in the air which can damagethe pump and system. DO NOT work nearwelding, sandblasting, grinding benches orsimilar conditions.
Always make sure the fittings are clean onthe outside before removing them fromtheir connections. Make sure they arecapped and plugged when removed. Placethem on a clean surface and in a clean ragor container until they are reinstalled.When cleaning parts which have beendisassembled, it is important to useCLEAN cleaning solvents and parts areallowed to dry. All tools and gauges shouldbe clean prior to working with the systemand use new, CLEAN lint free rags tohandle and dry parts.
DO NOT attempt to remove or install anycomponents or assembly while the pumpand system is running. Always stop thepump, shut OFF the power and releasepressure from the system before servicingor testing. Be sure provisions have beenmade so the case drain line can bedisconnected from the unit withoutcausing the line to drain (siphon) thereservoir.
(continued)
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12 THE OILGEAR COMPANY Bulletin 947022
DISASSEMBLY (Continued)
1. Disconnect case drain line from port 1 or 1A.
2. Drain pump case through the remaining (port 1or 1A) on the bottom of case. If plugs areinaccessible, it may be necessary to removethe pump from the mounting and drive motorbefore draining it.
3. After removing the pump from the mountingand before disassembly, cap or plug all portsand clean the outside of unit thoroughly toprevent dust from entering the system. SeeFigures 8 and 9.
Depending on what part or parts are to beinspected, it may not be necessary tocompletely take apart all assemblies.
CONTROL GROUP
Refer to the reference material for the informationwhich applies to the control your pump is equippedwith. Some force is required to remove the controlhousing.
1. Remove socket head cap screws.
2. Lift the control group assembly, with control pin,straight up from the top of the pump assembly.The control pin may or may not remain in theswashblock (201).
3. Remove control O-rings from the pumphousing.
VALVE PLATE GROUP
If another pump is coupled to thru-shaft pumps, itwill be necessary to remove coupling half beforeremoving valve plate.
1. Block the pump on a bench with the drive shaftfacing down.
2. Remove the valve plate (401) by removing fourhex head cap screws (403) and lifting it straightup.
3. Remove valve plate O-ring (404) and (411).
NOTE
Bulletin 947022 THE OILGEAR COMPANY 13
ROTATING GROUP
The rotating group is heavy. Be careful notto damage cylinder wear surface whichmates against the valve plate, bearingdiameters or piston shoes. Use properlifting techniques and assistance fromothers to prevent personal injury.
On thru-shaft pumps, the tailshaft bushingassembly (307, 308, 309) or a coupling will have tobe removed (a “jacking” screw can be used) beforethe rotating group can be disassembled.
1. Place the pump in a horizontal position.
2. Remove the rotating group by turning shaft(301) slowly, while pulling the cylinder barrel(101) from the housing.
3. Identify (number) each pump piston shoeassembly (102) and its respective bore in thecylinder barrel (101) and shoe retainer (104) foreasy reassembly.
4. See Figure 6. Lift out shoe retainer (104) withpistons (102) and remove the fulcrum ball (103)and shoe retainer spring (105).
Figure 6. Rotating Group Disassembly (5V-12015-L).
5. Remove retaining ring (208) and plug (205) andpull the hydrodynamic bearing (202) from thehousing.
DRIVE SHAFT GROUP
1. Remove the drive key (303), if used and thedrive shaft bearing retainer ring (305).
2. Grasp outboard end of drive shaft (301) andpull it out of the pump housing.
3. Remove the shaft seal retainer (302) and shaftseal (007) from the housing only if necessary.
SWASHBLOCK GROUP
Remove screws (206) and guide plate (203) first.Reach inside the case and remove the swashblock(201) and saddle bearings (204).
INSPECTIONClean all parts thoroughly and allow them to dry.Inspect all seals and O-rings for hardening,cracking or deterioration. Replace if necessary or ifyou suspect damage. Check all locating pins fordamage and springs for cracking or signs of wear.
Wear proper protective gear when usingsolvents or compressed air, servicing ormaintaining the hydraulic system or theOilgear pump. Wear correct protectivegear, safety glasses, gloves, and safetyshoes. Serious injury can result withoutproper protective gear.
CONTROL GROUP
Refer to the reference material on pump controls.Be sure to carefully check the control pin for cracksand/or signs of fatigue. Check fit of the pin in theswashblock. It should be a slip-fit without side-play.Replace if necessary or if you suspect damage.
! WARNING
104
102
103
105
101
OILG-0004
! WARNING
14 THE OILGEAR COMPANY Bulletin 947022
VALVE PLATE GROUP
Inspect the valveplate (401) surface which mateswith the cylinder barrel (101) for excessive wear.Remove minor defects by lightly stoning thesurface with a hard stone which is flat to within0.001 inches (0,03 mm).
Be sure to stone lightly. Any excessivestoning will remove the hardened surface.If wear or damage is extensive, replace thevalve plate.
ROTATING GROUP
Inspect cylinder barrel (101) piston bores and theface which mate with the valve plate for wear.Remove minor defects on the face by lightlystoning or lapping the surface.
Inspect the cylinder bearing (202) for damage andreplace if necessary. Check all piston and shoeassemblies (102) to be sure they ride properly onthe swashblock.
Be sure to stone lightly. Any excessivestoning will remove the hardened surface.If wear or damage is extensive and defectscannot be removed, replace the cylinderbarrel.
See Figure 7. Check each shoe face for nicks andscratches, and the shoe for smooth pivot action onthe piston.
If one or more piston/shoe assembly needsto be replaced, replace all the piston/shoeassemblies. When installing new piston/shoe assemblies or the rotating group,make sure the pistons move freely in theirrespective bores.
Figure 7. Piston and Shoe Inspection (5V-12015-L)
(A) All shoes must be equal within 0.001 inches(0,025 mm) at this dimension.
(B) All shoe faces must be free of nicks.
End play should not exceed 0.003 inches(0,076 mm) when new or 0.006 inches(0,152 mm) when worn.
SWASHBLOCK GROUP
Inspect the swashblock (201) for wear. If defectsare minor, stone the swashblock lightly. If damageis extensive, replace the swashblock.
Check the small hole in the face of theswashblock. The hole provides “porting” for thehydrostatic balance fluid of the piston/shoeassembly to be channeled through the swashblockto the face of the saddle bearing, providingpressure lubrication.
Compare the saddle bearing (204) thickness in aworn area to thickness in an unworn area. Replacesaddle bearings if the difference is greater than0.015 inches (0,4 mm).
Check the mating surface of swashblock for cracksor excessive wear. The swashblock movement inthe saddle bearings must be smooth. Replace ifnecessary.
Be sure to stone lightly. Any excessivestoning will remove the hardened surface.If wear or damage is extensive and defectscannot be removed, replace if necessaryor if you suspect them of being bad.
NOTE
NOTE
NOTE
B
A
OILG-0005
NOTE
NOTE
Bulletin 947022 THE OILGEAR COMPANY 15
DRIVE SHAFT GROUP
Check:
• the shaft seal (007) for deterioration orcracks. Replace if necessary (press-out).
• the shaft bearing (306) for galling, pitting,binding or roughness.
• the rear shaft bushing in valve plate.
• the shaft and its splines for wear. Replaceany parts necessary.
ASSEMBLYSee Figures 8 and 9. Follow the disassemblyprocedures in reverse for re-assembling the pump.
During assembly, install new seals and O-rings.Apply a thin film of CLEAN grease or hydraulic fluidto sealing components to ease assembly. If a newrotating group is used, lubricate thoroughly withCLEAN hydraulic fluid. Apply fluid generously to allwear surfaces.
SWASHBLOCK GROUP
If removed,
1. Press shaft seal (007) into front of pumphousing.
2. Place housing on a bench with the mountingflange side down.
3. Grease the back side of each saddle bearing(204) and place on the pin to locate thebearings in the pump case. Make sure the pinsdo not protrude.
4. The swashblock is inserted from the valve plateend. Insert swashblock (201) into the pumphousing. Once in place, be sure the swashblockswivels in the saddle bearings. With newbearings, swiveling may be stiff and not alwayssmooth. Assemble (203) and (206).
5. The bearing (202) should be positioned with“scarf” cuts (PVG 130 only) positioned top andbottom. The bearing should fit into place with alittle difficulty and be square to the axis of thepump.
6. Tap bearing into place if necessary usingextreme care not to damage the bearing.
7. Insert retaining ring (208) to hold bearing inplace. Assemble plug (205) with O-ring (209)into case.
DRIVE SHAFT GROUP
1. Place the housing on its side with the axishorizontal.
2. Install the seal retainer (302).
3. Lubricate the shaft seal (007) and shaft.
4. Insert the drive shaft (301) and bearingassembly into the housing.
5. Lock in place with the drive shaft bearingretainer ring (305).
ROTATING GROUP
See Figure 6.
1. Place the cylinder barrel (101), wear surfacedown, on a clean cloth.
2. Place the shoe retainer spring (105) in thecenter of the barrel with the fulcrum ball (103)on top of it.
3. Insert the identified pistons (102) into theircorresponding identified holes of the shoeretainer (104). As a unit, fit the pistons into theircorresponding, identified bores in the cylinderbarrel. DO NOT FORCE. When parts arealigned properly, the pistons will fit smoothly.
16 THE OILGEAR COMPANY Bulletin 947022
The rotating group weight is heavy. Becareful not to damage cylinder wearsurface which mates against the valveplate, bearing diameters or piston shoes.Use proper lifting techniques andassistance from others to preventpersonal injury.
The rotating group can now be carefully installedover the end of the drive shaft (301) and into thepump housing (001).
When installing the rotating group, supportthe weight of the cylinder barrel (101), ascylinder spline is passed over the tailshaft,to avoid scratching or damage.
4. Push cylinder forward until the cylinder splinereaches the drive shaft spline and rotateslightly to engage shaft splines. Continue toslide cylinder forward until it encounters thecylinder bearing (202). Lifting the rear of theshaft slightly helps the cylinder (101) and thecylinder bearing (202) engagement. Continuepushing the cylinder forward until the pistonshoes contact the swashblock, the back of thecylinder should be located approximately 0.4inches (10,2 mm) outside the back of the pumphousing.
On thru-shaft pumps without another pumpor device connected to them, slideassembly onto the shaft (301) and securecap assembly (307, 309) in with sockethead shoulder screw (308).
VALVE PLATE GROUP
1. Place the pump housing on a bench with theopen end facing up.
2. Install new O-rings (404) and (411) on thehousing.
3. Position the valve plate (401) on pins (005) andhousing. Make sure the end of shaft engagesthe bushing.
4. Hand-tighten the hex head cap screw (403)closest to O-ring (404) first, then alternatelytighten the other cap screws. On thru-shaftunits connected to another pump or device,install coupling (501).
Refer to PREPARATION and INSTALLATIONwhen pump is ready to be returned to service.
! WARNING
NOTE
NOTE
Bulletin 947022 THE OILGEAR COMPANY 17
Table 3. PVG Pump Torques
PVG Pump Fastener or PlugHead
Type/Size Tightening Torque
100/130
004 5/8 int. 135 ft•lb (183 N•m)205 1/8 int. 45 in•lb (5 N•m)206 5/32 int. 87 in•lb (10 N•m)308 5/32 int. 87 in•lb (10 N•m)403 13/16 ext. 100 ft•lb (136 N•m)408 1/8 int. 45 in•lb (5 N•m)409 1/8 int. 45 in•lb (5 N•m)410 3/16 int. 120 in•lb (14 N•m)503 Depends on adapter
3/8 SHC 5/16 int. 45 ft•lb (61 N•m)3/8 HHC 9/16 ext. 15 ft•lb (20 N•m)1/2 HHC 3/4 ext. 37 ft•lb (50 N•m)5/8 HHC 15/16 ext. 74 ft•lb (100 N•m)
507 5/16 int. 45 ft•lb (61 N•m)
18 THE OILGEAR COMPANY Bulletin 947022
PARTS LISTParts used in these assemblies are per Oilgearspecifications. Use only Oilgear parts to ensurecompatibility with assembly requirements. When ordering replacement parts, be sure to includepump type and serial number, bulletin number anditem number. Specify type of hydraulic fluid toassure seal and packing compatibility.
Parts drawings may not be identical toOilgear drawings referenced.
PARTS LIST drawings on pages 24 through 27.
Parts are common between pumps. Only the differences are shown.
NOTE
Item Qty. Description
HOUSING ASSEMBLY GROUP
001 1 Housing, Pump
003 1 Nameplate, Identification
004 1 Plug
005 2 Pin, Roll
006 2 Pin, Roll
007 1 Seal, Shaft
008 2 Screw
009 2 Pin, Swashblock Bearing
010 1 Seal, O-ring
ROTARY ASSEMBLY GROUP
101 1 Barrel, Cylinder
102 9 Assembly, Piston/Shoe
103 1 Ball, Fulcrum
104 1 Retainer, Shoe
105 1 Spring, Shoe Retainer
SWASHBLOCK ASSEMBLY GROUP
201 1 Swashblock
202 1 Bearing, Cylinder
203 1 Guide Plate
204 2 Bearing, Swashblock
205 1 Plug, Bearing Retainer
206 2 Screw
208 1 Ring, Retainer
209 1 Seal, O-ring
Bulletin 947022 THE OILGEAR COMPANY 19
O-ring SizesARP 568 Uniform Size Number with
Durometer
PARTS LIST drawings on pages 24 through 27.
Parts are common between pumps. Only the differences are shown.
Parts used in this assembly are per Oilgear specifications. Use only Oilgear parts to ensure the compatibility with the assembly requirements. When ordering replacement parts, be sure to include pump type and serial number, bulletin number and item number. To assure seal and packing compatibility, specify type of hydraulic fluid.
Item Number PVG Pump 100/130010 916 - 70404 013 - 90405 902 - 90406 903 - 90407 904 - 90411 257 - 70
Item Qty. DescriptionDRIVE SHAFT ASSEMBLY GROUP
301 1 Drive Shaft302 1 Retainer, Seal Side303 1 Key, Drive Shaft (keyed shafts only)304 1 Ring, Retainer, External305 1 Ring, Retainer, Internal306 1 Bearing, Front307 1 Bushing (used on thru-shaft w/ cover plate)308 1 Screw (used on thru-shaft w/ cover plate)309 1 Roll Pin (used on thru-shaft w/ cover plate)
VALVE PLATE ASSEMBLY GROUP401 1 Valve Plate w/bearing403 4 Screw, Hex Head Cap404 1 Seal, O-ring405 1 Seal, O-ring406 1 Seal, O-ring (not required for all versions)407 1 Seal, O-ring408 1 Plug, #2 HP409 1 Plug, #3 HP (not required for all versions)410 1 Plug, #4 HP411 1 Seal, O-ring
20 THE OILGEAR COMPANY Bulletin 947022
SERVICE KITSPVG C Pump Service Kits
SERVICE KIT Drawings on pages 24 through 27.
Document Number: 516246-SK
Revision: 1 (10-18-07)
Sheet 1 of 4
Description Kit No.Design Series Items Included (quantity is 1 unless noted)
Housing KitsViton Seals L516275-621 F1(D)
001, 003, 004, 005(2), 006(2), 007, 008(2), 009(2), 010Nitrile Seals L516275-622 F1(D)EPR Seals L516275-623 F1(D)
Shaft & Bearing KitsViton or Nitrile seals1.50" Dia. Keyed (Code Z) Short L516175-301 All(B) 301A, 302, 303, 304, 305, 3061.50" Dia. Keyed (Code Y) Std L516175-307 All(B) 301A, 302, 303, 304, 305, 30614T, 12/24 Spline (Code K) Std L516175-305 All 301B, 302, 304, 305, 30617T, 12/24 Spline (Code S) Std L516175-302 All 301C, 302, 304, 305, 3061.50" Dia. Keyed (Code Z) T-S Short L516175-303 All(B) 301D, 302, 303, 304, 305, 3061.50" Dia. Keyed (Code Y) T-S L516175-308 All(B) 301D, 302, 303, 304, 305, 30614T, 12/24 Spline (Code K) T-S L516175-306 All 301E, 302, 304, 305, 30617T, 12/24 Spline (Code S) T-S L516175-304 All 301F, 302, 304, 305, 306
EPR Seals1.50" Dia. Keyed (Code Z) Short L516175-328 All(B) 301A, 302, 303, 304, 305, 3061.50" Dia. Keyed (Code Y) Std L516175-322 All(B) 301A, 302, 303, 304, 305, 30614T, 12/24 Spline (Code K) Std L516175-324 All 301B, 302, 304, 305, 30617T, 12/24 Spline (Code S) Std L516175-326 All 301C, 302, 304, 305, 3061.50" Dia. Keyed (Code Z) T-S Short L516175-327 All(B) 301D, 302, 303, 304, 305, 3061.50" Dia. Keyed (Code Y) T-S L516175-321 All(B) 301D, 302, 303, 304, 305, 30614T, 12/24 Spline (Code K) T-S L516175-323 All 301E, 302, 304, 305, 30617T, 12/24 Spline (Code S) T-S L516175-325 All 301F, 302, 304, 305, 306
Std = Rear ported or Side ported w/o thru-shaft, T-S = Side ported w/ thru-shaft
Swashblock All 515794 All 201
Guide Plate AssemblyAll L516175-225 All 203, 206(2)
Saddle BearingStandard L516175-220 All
204A, 204BHigh Temp L516175-221 All
Hydrodynamic Bearing KitPVG-100
202, 205, 208, 209Viton Seals L516175-230 F1(D)Nitrile Seals L516175-231 F1(D)EPR Seals L516175-232 F1(D)
PVG-130
202, 205, 208, 209Viton Seals L516275-230 F1(D)Nitrile Seals L516275-231 F1(D)EPR Seals L516275-232 F1(D)
Rotating GroupPVG-100 L516175-101 All
101, 102(9), 103, 104, 105PVG-130 L516275-102 C2(C)
Bulletin 947022 THE OILGEAR COMPANY 21
PVG C Pump Service KitsReference: 516246-200 Ass’y Drwg
Document Number: 516246-SK
Revision: 1 (10-18-07)
Sheet 2 of 4
Description Kit No.Design Series Items Included (quantity is 1 unless noted)
Piston & Shoe Sub-AssemblyPVG-100 K407812-800 All
102(9)PVG-130 K407837-800 All
Shoe Retainer & Fulcrum BallPVG-100 L318925-001 All
103, 104PVG-130 L318926 All
Valve Plate KitsPVG-100 Rear Port LH
401D, 403(4), 404, 405, 407, 408, 410, 411Viton Seals L516175-401 AllNitrile Seals L516175-413 AllEPR Seals L516175-407 All
PVG-100 Rear Port RH
401D, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516175-402 AllNitrile Seals L516175-414 AllEPR Seals L516175-408 All
PVG-100 Side Port LH
401E, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516175-405 AllNitrile Seals L516175-417 AllEPR Seals L516175-411 All
PVG-100 Side Port RH
401E, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516175-406 AllNitrile Seals L516175-418 AllEPR Seals L516175-412 All
PVG-100 Side Port, Thru-Shaft LH
401A, 403(4), 404, 405(2), 406, 407, 408(2), 409, 410, 411Viton Seals L516175-403 AllNitrile Seals L516175-415 AllEPR Seals L516175-409 All
PVG-100 Side Port, Thru-Shaft RH
401A, 403(4), 404, 405(2), 406, 407, 408(2), 409, 410, 411Viton Seals L516175-404 AllNitrile Seals L516175-416 AllEPR Seals L516175-410 All
PVG-130 Rear Port LH
401D, 403(4), 404, 405, 407, 408, 410, 411Viton Seals L516275-401 C2(C)Nitrile Seals L516275-425 C2(C)EPR Seals L516275-407 C2(C)
PVG-130 Rear Port RH
401D, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516275-402 C2(C)Nitrile Seals L516275-428 C2(C)EPR Seals L516275-408 C2(C)
PVG-130 Side Port LH
401E, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516275-405 C2(C)Nitrile Seals L516275-417 C2(C)EPR Seals L516275-411 C2(C)
22 THE OILGEAR COMPANY Bulletin 947022
PVG C Pump Service KitsReference: 516246-200 Ass’y Drwg
Document Number: 516246-SK
Revision: 1 (10-18-07)
Sheet 3 of 4
Description Kit No.Design Series Items Included (quantity is 1 unless noted)
PVG-130 Side Port RH
401E, 403(4), 404, 405, 406, 407, 408, 409, 410, 411Viton Seals L516275-424 C2(C)Nitrile Seals L516275-418 C2(C)EPR Seals L516275-412 C2(C)
PVG-130 Side Port, Thru-Shaft LH
401A, 403(4), 404, 405(2), 406, 407, 408(2), 409, 410, 411Viton Seals L516275-403 C2(C)Nitrile Seals L516275-415 C2(C)EPR Seals L516275-409 C2(C)
PVG-130 Side Port, Thru-Shaft RH
401A, 403(4), 404, 405(2), 406, 407, 408(2), 409, 410, 411Viton Seals L516275-404 C2(C)Nitrile Seals L516275-416 C2(C)EPR Seals L516275-410 C2(C)
Basic Seal KitViton Seals K516175-C11 All
007, 010, 209, 404, 405(2), 406, 407, 411 Control 330, 313Nitrile Seals K516175-C12 AllEPR Seals K516175-C13 All
Seal Kits for OptionsStandard Cover Plate
505Viton Seals 238270-138 AllNitrile Seals 233370-138 AllEPR Seals 242080-138 All
SAE C Adapter
505Viton Seals 238270-049 AllNitrile Seals 233370-049 AllEPR Seals 242080-049 All
SAE B Adapter
505, 506Viton Seals L250667-017 AllNitrile Seals L250667-016 AllEPR Seals L250667-018 All
SAE A Adapter
505, 506Viton Seals L250667-014 AllNitrile Seals L250667-013 AllEPR Seals L250667-015 All
SAE A-A Adapter
505, 508Viton Seals L250667-019 AllNitrile Seals L250667-020 AllEPR Seals L250667-021 All
Shaft SealViton Seals 51156-5 All
007Nitrile Seals 51156-7 AllEPR Seals L51156-3RP All
Bulletin 947022 THE OILGEAR COMPANY 23
PVG C Pump Service KitsReference: 516246-200 Ass’y Drwg
Document Number: 516246-SK
Revision: 1 (10-18-07)
Sheet 4 of 4
Description Kit No.Design Series Items Included (quantity is 1 unless noted)
Cover Plate KitViton Seals L319076-001 All
307, 308, 309, 502, 503(4), 505Nitrile Seals L319076-013 AllEPR Seals L319076-301 All
Rear Shaft Cover KitAll L319066-006 All 307, 308, 309
SAE C Adapter/Coupling KitViton Seals L319076 All
501, 503(2), 504(2), 505Nitrile Seals L319076-008 AllEPR Seals L319076-300 All
SAE B-B Adapter/Coupling KitViton Seals L319076-005 All
501, 502, 503(2), 504(2), 505, 506Nitrile Seals L319076-012 AllEPR Seals L319076-014 All
SAE B Adapter/Coupling KitViton Seals L319076-002 All
501, 502, 503(2), 504(2), 505, 506Nitrile Seals L319076-007 AllEPR Seals L319076-302 All
SAE A Adapter/Coupling Kit 9 toothViton Seals L319076-003 All
501, 502, 503(2), 504(2), 505, 506, 507(4)Nitrile Seals L319076-011 AllEPR Seals L319076-303 AllSAE A Adapter/Coupling Kit 11 toothViton Seals L319076-006 All
501, 502, 503(2), 504(2), 505, 506, 507(4)Nitrile Seals L319076-015 AllEPR Seals L319076-016 All
SAE A-A Adapter/Coupling KitViton Seals L319076-004 All
501, 502, 503(2), 504(2), 505, 507(4), 508Nitrile Seals L319076-017 AllEPR Seals L319076-018 All
Name Tag & ScrewsAll L50921 All 003, 008(2)Footnotes for Design Series(A) Not used(B) Code "Y" shaft is length of Code "Z" shaft for Design Series "A1" Parts are interchangeable between Design Series(C) PVG130 Valve plate and Rotating group must be matched A1, B1, C1 parts can be intermixed between series C2, D3, D4, E1, F1 parts can be intermixed between series(D) F1 pump case and hydrobearing are not interchangeable with previous design series F1 pump requires F1 control Pump cases are interchangeable prior to F1 A1 series has #12 SAE threaded case drain connection B1, C1, C2, D3, D4, E1 have #16 SAE threaded case drain connection
24 THE OILGEAR COMPANY Bulletin 947022
Figure 8. Cross Section and Exploded Parts Drawing for PVG 100 and 130 (516246-200 sheet 1 of 8)
102
411
001
409
403
406
410
407
006
005
404
208
206
203
201
302
305
009
303
304
204A
009
204B
202
209
205
104
103
105
101
309
308
307
401
003
008
503
502
505
007
306
301
010
004
OIL
G03
21
Bulletin 947022 THE OILGEAR COMPANY 25
Figure 9. Exploded Parts Drawing for PVG 100 and 130 (516246-200 sheet 2 of 8)
OIL
G03
22
208
202
102
104
103
105
101
403
505
503
406
409
405
408
401A
502
407
410
201
411
401D
403
407
410
405
408
209
205
004
010
005
204B
009
006
404 00
500
8
003
204A
206
203
301E
301F
309
304
306
302
007
303
301D
301B
301C
305
406
409
407
410
301A
401E
403
307
308
001
26 THE OILGEAR COMPANY Bulletin 947022
Figure 10. Cross Section Drawing for PVG 100 and 130 (516246-200 sheet 6 and 8 of 8)
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
S 1
3-4
OR
16-
4 &
19-
4W
ITH
FLA
NG
ES
50
OR
82.
(SA
E C
TO
SA
E A
OR
SA
E A
-A)
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
S 2
2-4
& 2
5-4
WIT
H F
LAN
GE
101
(SA
E C
TO
SA
E B
OR
SA
E B
-B)
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
32-
4 W
ITH
FLA
NG
E 1
27.
(SA
E C
TO
SA
E C
)
CO
VE
R P
LAT
E A
SS
EM
BLY
AD
AP
TE
R M
OU
NT
ING
S
CR
EW
S B
EH
IND
P
UM
P H
OU
SIN
G
THR
U-S
HA
FT O
PTI
ON
S
OIL
G03
23
301
RE
F.30
1R
EF.
301
RE
F.
301
RE
F.
503 50
5
502
307
308
309
RE
F.
502
509
506
507
OR
504
503
505
506
504
503
505
502
501
501
505
503
504
501
Bulletin 947022 THE OILGEAR COMPANY 27
Figure 11. Cross Section and Exploded Parts Drawing for PVG 100 and 130 (516246-200 sheet 7 of 8)
OIL
G03
24
THR
U-S
HA
FT O
PTI
ON
S
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
S 1
3-4
OR
16-
4 &
19-
4W
ITH
FLA
NG
ES
50
OR
82.
(SA
E C
TO
SA
E A
OR
SA
E A
-A)
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
S 2
2-4
& 2
5-4
WIT
H F
LAN
GE
101
(SA
E C
TO
SA
E B
OR
SA
E B
-B)
RE
AR
PU
MP
MO
UN
TIN
G A
CC
EP
TS
SP
LIN
E S
HA
FT
32-
4 W
ITH
FLA
NG
E 1
27.
(SA
E C
TO
SA
E C
)C
OV
ER
PLA
TE
AS
SE
MB
LY
301
RE
F.
301
RE
F.30
1R
EF.
301
RE
F.
301
307
308
309
504
503
505
502
501
503
505
502
501
503
505
504
506
505
502
504
506
508
OR
507
503
501
304
306
305
302
302
302
SA
E D
DR
IVE
-SH
AF
T O
PT
ION
28 THE OILGEAR COMPANY Bulletin 947022
AFTER SALES SERVICESAt Oilgear we build products to last. It is the natureof this type of machinery to require propermaintenance regardless of the care we put intomanufacturing. Oilgear has several serviceprograms in place to help you.
STAY-ON-STREAM SERVICE
By signing up for Oilgear's Stay-On-Streamprogram, you can prepare for problems before theyhappen. Certain field tests such as fluid testing,slip testing and electronic profile recordingcomparisons can be performed by our field servicepeople or your own factory trained personnel.These tests can indicate problems before theybecome “down-time” difficulties.
SERVICE SCHOOLS
Oilgear conducts training to train your maintenancepersonnel. “General” hydraulic or electronictraining is conducted at our Milwaukee, Wisconsinplant on a regular basis. “Custom” training,specifically addressing your particular hydraulicand electro-hydraulic equipment can be conductedat your facilities.
SPARE PARTS AVAILABILITY
Prepare for your future needs by stocking Oilgearoriginal factory parts. Having the correct parts andnecessary skills “in-plant” enables you to minimize“down-time.” Oilgear has developed parts kits tocover likely future needs. Oilgear Field ServiceTechnicians are also ready to assist you and yourmaintenance people in troubleshooting andrepairing equipment.
THE OILGEAR COMPANY2300 South 51st Street
Milwaukee, Wisconsin 53219May 2008