Super Charged Piston Pumps Variable Displacement For Open Circuits. PAVC Medium Pressure

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1 aerospace climate control electromechanical filtration fluid & gas handling hydraulics pneumatics process control sealing & shielding PAVC Medium Pressure Super Charged Piston Pumps Variable Displacement For Open Circuits Catalog: HY CD/US Effective: April 1, 212

2 WARNING - USER RESPONSIBILITY FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE. This document and other information from Parker-Hannifin Corporation, its subsidiaries and authorized distributors provide product or system options for further investigation by users having technical expertise. The user, through its own analysis and testing, is solely responsible for making the final selection of the system and components and assuring that all performance, endurance, maintenance, safety and warning requirements of the application are met. The user must analyze all aspects of the application, follow applicable industry standards, and follow the information concerning the product in the current product catalog and in any other materials provided from Parker or its subsidiaries or authorized distributors. To the extent that Parker or its subsidiaries or authorized distributors provide component or system options based upon data or specifications provided by the user, the user is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses of the components or systems. OFFER OF SALE The items described in this document are hereby offered for sale by Parker-Hannifin Corporation, its subsidiaries or its authorized distributor. This offer and its acceptance are governed by the provisions stated in the detailed "Offer of Sale" elsewhere in this document. Copyright 212,. All Rights Reserved.

3 Contents Series PAVC Contents Introduction...4 Ordering Information...7 Control Options 33/38/65/1...8 Technical Information...13 PAVC 33/38 Technical Information 33/ Performance Data 33/ Dimensional Data 33/ PAVC 65 Technical Information Performance Data Dimensional Data PAVC 1 Technical Information Performance Data Dimensional Data Installation Information 33/38/65/ Offer of Sale

4 Introduction Series PAVC Quick Reference Data Chart Pump Model Displacement CM 3 /REV (IN 3 /REV) Pump 21 bar (3 ) in LPM (GPM) *Approx. Noise Levels Full 18 RPM (12 RPM) Input Power At 18 RPM, Maximum Displacement & 27 bar (3 ) Operating Speed RPM (Maximum) Pressure bar () Continuous (Maximum) 34 bar 69 bar 138 bar 27 bar 12 RPM 18 RPM (5 ) (1 ) (2 ) (3 ) PAVC33 33 (2.) 39.4 (1.4) 59. (15.6) 75 (69) 76 (72) 78 (75) 79 (77) 21.3 kw (28.5 hp) 3 27 (3) PAVC38 38 (2.3) 45. (11.9) 67.8 (17.9) 75 (69) 76 (72) 78 (75) 79 (77) 24.6 kw (33. hp) 3 27 (3) PAVC65 65 (4.) 78.7 (2.8) (31.2) 77 (75) 78 (76) 8 (78) 81 (79) 43.1 kw (57.8 hp) 3 27 (3) PAVC1 1 (6.1) (31.6) (47.5) 83 (77) 82 (78) 82 (79) 85 (8) 71.2 kw (95.5 hp) (3) * Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed that the above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump. Noise levels are A-weighted, mean sound pressure levels at 1 meter from the pump, measured and recorded in accordance with applicable ISO and NFPA standards. 4

5 Introduction Series PAVC PUMP HOUSING REPLACEABLE PORT PLATE HYDRODYNAMIC BEARING REAR COVER SEALED BEARING SHAFT SEAL CYLINDER BARREL SERVO PISTON Features Capability - 3 RPM (26 RPM PAVC1) to Inlet Pressure Only 7 bar (1 ) Maximum Controls 5

6 Introduction Series PAVC 33/38/65/1 General Description All control is achieved by the proper positioning of the swash plate. This is achieved by a servo piston acting on one end of the swash plate working against the combined effect of the off-setting forces of the pistons and centering spring on the other end. The control spool acts as a metering valve which varies the pressure behind the servo piston. As shown in Figure 1, the amount of flow produced by the Parker Piston Pump is dependent upon the length of stroke of the pumping pistons. This length of stroke, in turn, is determined by the position of the swash plate. Maximum flow is achieved at an angle of 17. The rotating piston barrel, driven by the prime mover, moves the pistons in a circular path and the piston slippers are supported hydrostatically against the face of position, perpendicular to the centerline of the piston barrel, there is no piston stroke and consequently no at an angle, the pistons are forced in and out of the barrel and fluid displacement takes place. The greater the angle of the swash plate, the greater the piston stroke. The centerline of the pumping piston assembly is offset from the centerline of the swash plate. Therefore, as shown on the accompanying Figure 1A, the pistons effective summation force tends to destroke the swash plate to a vertical (neutral) position. This destroking force is balanced as the swash plate is angled by the force of the servo piston. ROTATING PISTON BARREL PUMPING PISTON OUTPUT SUMMATION OF PISTON FORCES DRIVE SHAFT INPUT OIL FLOW SWASH PLATE SERVO PISTON FIGURE 1. Pumping Action FIGURE 1A. 6

7 Ordering Information Series PAVC PAVC 4 Omit Multiple Pumps Pump Axial Piston Variable Controllable Displacement Bearing Option Shaft Option Outlet Port Inlet Port Rotation Volume Stop Adjustable Option Differential Thru- Thru- Control Shaft Shaft Options Nitrile Threads Variations (Standard) Seals Paint Multiple Pumps Code Omit Single Pump Multiple Pumps Factory Mounted to Rear of Another Pump Code Inlet Port 33/38 Inlet 65 Inlet 1 Inlet Type Omit Str. Thd., Rear Str. Thd., Rear Flange, Rear 2 Flange, Side Flange, Top Code Displacement in 3 /rev (cm 3 /rev) (33) (38) (65) (1) Code Bearing Option Omit Single Piece Shaft 9* * For applications where side loading may be experienced. Max. side load = kg (25 lbs). Typical Applications: Massive couplings Foot mount installations Code Shaft Option Size 33/38 Size 65/1 Omit B C* D* Code Outlet Port Outlet Location Type Omit Str. Thread Top 3* Flange Top Chart #1 Item Setting RPM HP GPM Code Rotation* R L * Viewed from shaft end. Code Volume Stop Options Omit Volume Stop Plugged 2 Maximum Volume Stop 5* Max. Volume Stop with O-ring * Not available with Thru- Code Thru-Shaft Threads* Omit No Thru-Shaft 6 Thru-Shaft, UNC Code Omit A3 A4 *B3 *B4 *C3 Ordering Notes Unless otherwise specified, pump is shipped at shown in Chart #1 must be included with order. Thru-Shaft Variations No Thru-Shaft Option Pitch Spline Coupling, PAVC 1 Only Pitch Spline Coupling, PAVC 1 Only Pitch Spline Coupling, PAVC 1 Only Pitch Spline Coupling, PAVC 1 Only Pitch Spline Coupling, PAVC 1 Only Inlet port option 2 or 8 (top/bottom) must be used with all Thru-Shaft pumps. when combined input torque of front and rear Code Control Option Standard Pressure Compensated Omit Setting Pressure bar (6-3 ) A *C Pressure, & Power *H Pressure Comp. & Power ** M Remote Pressure ** ME Remote Pressure AM Remote Pressure & * CM Remote Pressure, & Power * HM Remote Pressure & Power * Power controlled pumps (H, C, HM or CM) must have maximum input power limit specifications at a particular drive speed (RPM) and compensator pressure setting () included with order. Power controlled pumps that do not have input power limit specifications, will be set at default setting ( RPM and 3 ) H & C (6 18 RPM and 3 ) HM & CM ** M may be remotely controlled; set to compensate at 27 bar (3 ) unless Chart #1 specifies otherwise. Code Omit P No Paint Paint Painting Code Multiple Pumps Omit Single Pump Pump Factory Mounted on Rear = Omit if not required or to select standard option coded omit. 7

8 Control Options Series PAVC 33/38/65/1 Pressure Compensated Control Swash plate angle controls the output flow of the pump. Swash plate angle is controlled by the force generated against the swash plate by the pumping pistons and by the force of the servo piston. The force of the servo piston is greater than the force of the pumping pistons when both are at the same pressure. the control spool via passage (D). Also pressure is applied to the control spool chamber thru orifice (F). As long as the pressures at both ends of the control spool remain equal, the spool will remain offset upward, due to the added force of the spring. control, the dart leaves its seat causing the pressure in the spool chamber to be reduced. The spool now moves downward causing pressure in the servo piston cavity to vent via port A. The reduced pressure at the servo piston allows the servo piston to move to the right. This movement reduces the angle of the swash plate and thereby reduces the pumps output flow. As pump pressure on the control spool drops below pressure and spring force in the spool chamber, the control spool moves upward to maintain an equilibrium on both sides of the spool. If pump pressure falls below compensator control setting, the control spool moves up, bringing the pump to maximum displacement. P Adjustment of PAVC Pumps a. Standard Pressure Compensated Pump Pumps are shipped from factory with a differential pressure of approximately 15 (1 bar) on PAVC 33/38/65, PAVC 1 is 3 (21 bar) at 5% of maximum swash angle. Differential pressure will not normally change through the life of the pump. If this control has been tampered with, a close approximation of the correct setting can be made as Dead head the pump (no flow) with a -27 bar (-3 ) gauge in the OUTLET (not the low signal out (full counterclockwise). The gauge should read between bar ( ) PAVC 33, 38 & 65, 34-4 bar (5-575 ) PAVC 1. If the gauge reads different (Differential Option 4) or add/remove shims (Omit Option) until correct pressure figure is reached. CONTROL OPTION - OMIT SWASHPLATE PISTON AIRBLEED VALVE ASSEMBLY OUTLET FLOW (AT CONSTANT SPEED) INLET BARREL D PRESSURE PISTON SERVO PISTON E CONTROL SPOOL AND SLEEVE CONTROL DRAIN PORT A F CONTROL SPOOL SPRING CHAMBER PRESSURE COMPENSATOR ADJUSTMENT DIFFERENTIAL ADJUSTMENT 8

9 Control Options Series PAVC 33/38/65/1 Remote Pressure Control Control Type (M) Remote control of the PAVC output pressure can be port when the pump is set up for Control Type (M). A manual, hydraulically piloted, electrical or electroproportionally controlled pressure control device is The pump will then maintain pressure approximately differential setting. Multiple Pressure Standby by a relief valve, as the desired pump outlet pressure is pump to standby at a preset pressure. Adding to this concept, multiple, remotely piloted relief valves plumbed pressure settings. Low Pressure Standby This option can be used as an alternative to the load sensing option (A) to achieve low pressure standby. Minimum standby pressure is somewhat higher than that achieved using option (A). In the compensating mode from the control drain port A. CONTROL OPTION - M SWASHPLATE PISTON AIRBLEED VALVE ASSEMBLY OUTLET FLOW (AT CONSTANT SPEED) PRESSURE INLET BARREL D PISTON SERVO PISTON E CONTROL SPOOL AND SLEEVE PORT B F CONTROL DRAIN PORT A CONTROL SPOOL SPRING CHAMBER PRESSURE COMPENSATOR ADJUSTMENT DIFFERENTIAL ADJUSTMENT 9

10 Control Options Series PAVC 33/38/65/1 Pressure & Control (Load Sensing) Control Type (A) control is achieved by placing an orifice (fixed or ( P) across this flow control is the governing signal that controls the pump s output, as explained below. (indicating an increase in output flow), the pump attempts to compensate by decreasing the output flow. It does this by sensing the lower pressure on the downstream side of the flow control via line (C), which is balanced against the pump pressure via passage (D), on the control spool. The control spool is forced down against the control spool spring by differential pressure. This vents the servo piston cavity, destroking the pump to a point where the set pressure drop across the orifice is maintained and the flow is obtained. The converse of this is also true whenever the pressure drop decreases (indicating a decrease in output flow). In this case, the control spool is forced up. This increases pump displacement in an attempt to maintain the predetermined pressure drop or constant flow. It should be noted that the pump is still pressure compensated and destrokes at the selected pressure setting. The pressure compensator control will override the flow control whenever the pressure compensator control setting is reached. Low Pressure Standby This arrangement can also be used to provide low pressure flow or pressure is required, this valve is closed allowing system pressure to build behind the control spool and bringing the pump on-stroke. Load Sensing If, instead of measuring the pressure drop across the orifice in the pump outlet port, it is measured downstream of a directional control valve, a constant pressure drop will be maintained across the valve spool. This results in a constant flow for any given opening of the directional control valve regardless of the work load downstream or the operating speed of the pump. The pump senses the amount of pressure necessary to opening selected and pressure to overcome the load plus the preset P across the valve spool. The benefits of this arrangement are that excellent, repeatable flow characteristics are achieved, and compared to using a straight pressure compensated system. CONTROL OPTION - A INLET SWASHPLATE BARREL PISTON AIRBLEED VALVE ASSEMBLY D FLOW CONTROL ADJUSTMENT SYSTEM PRESSURE FLOW (AT CONSTANT SPEED) PRESSURE PISTON SERVO PISTON E CONTROL SPOOL AND SLEEVE C SIGNAL LINE F PORT B CONTROL DRAIN PORT A CONTROL SPOOL SPRING CHAMBER PRESSURE COMPENSATOR ADJUSTMENT DIFFERENTIAL ADJUSTMENT 1

11 Control Options Series PAVC 33/38/65/1 Pressure & Power (Torque) Control Control Type (H) The power control is sensitive to the position of the swash plate causes low flow and the power control piston develops maximum spring pressure on its servo piston is left and the flow is high, the power control piston reduces spring pressure on the poppet. This allows it to open under less pressure in the control spool chamber, thereby venting some of the pressure in the control spool chamber. As with the operation of the pressure compensator control, this allows the control spool to move downward, venting the servo piston cavity and causing the servo piston to move to the right. This reduces output flow and thereby power. As indicated in the pictorial drawing, pressure in the control spool chamber is affected by both the pressure compensator control and the power control. The resultant pressure in this chamber is a function of the set points of CONTROL OPTION - H SWASHPLATE AIRBLEED VALVE ASSEMBLY FLOW (AT CONSTANT SPEED) PRESSURE PISTON OUTLET INLET BARREL D PISTON POWER CONTROL PISTON SERVO PISTON E CONTROL SPOOL AND SLEEVE CONTROL DRAIN PORT A F CONTROL SPOOL SPRING CHAMBER POWER (TORQUE) ADJUSTMENT PRESSURE COMPENSATOR ADJUSTMENT DIFFERENTIAL ADJUSTMENT 11

12 Control Options Series PAVC Pressure, Power & Control Control Type (C) discussed, it is possible to combine all three control devices in one pump. In this mode, the position of the control spool is a function of the actions of the and flow control. CONTROL OPTION - C FLOW (AT CONSTANT SPEED) PRESSURE SWASHPLATE AIRBLEED VALVE ASSEMBLY FLOW CONTROL ADJUSTMENT PISTON SYSTEM PRESSURE INLET BARREL D PISTON POWER CONTROL PISTON SERVO PISTON CONTROL DRAIN PORT A E CONTROL SPOOL AND SLEEVE SIGNAL LINE F CONTROL SPOOL SPRING CHAMBER C PORT B POWER (TORQUE) ADJUSTMENT PRESSURE COMPENSATOR ADJUSTMENT DIFFERENTIAL ADJUSTMENT 12

13 Technical Information Series PAVC 33/38/65/1 How to read input power control curve data. FLOW LPM GPM 6.6 (16) 18 RPM KW HP 18.6 (25) 14.9 (2) N m In-Lbs 9.4 (8) (14) (12) (1) (8) (6) (4) (15) (1) (5) Input Power (6) (4) (2) Input Torque 7.6 (2) () Bar () (1) (2) Pressure POWER 27 (3) () () 1. Power A curve corresponds to flow A curve. This represents a particular setting of the power (torque) control. at the apex (maximum point) of the power curve. 3. The flow at this setting will follow the flow vs. pressure curve shown. C A. will follow curve C and pump will deadhead at 19 bar (275 ). 5. Torque values are shown to correspond to powers at speed shown. 13

14 Technical Information Series PAVC 33/38 Performance Information Series PAVC 33/38 Pressure Compensated, Variable Volume, Piston Pumps Features 7 bar (1 ) Maximum Controls Schematic Symbol Weight and Package Size Model Quick Reference Data Chart Pump Model Weight In Kg (Lb) Length From Mounting Face in CM (Inches) Displacement CM 3 /REV (IN 3 /REV) Height in CM (Inches) Pump 21 bar (3 ) in LPM (GPM) Height in CM (Inches) PAVC 33/38 18 (4) (7.25) 16. (6.3) (6.62) Specifications 248 bar (36 ) Peak (P3).17 bar (5 In. Hg.) 18 RPM (See Inlet Chart for other speeds) ISO 18/15 Maximum Recommended specific recommendations pertaining to system cleanliness, fluids, start-up, inlet conditions, shaft alignment, drain line restrictions and other important factors relative to the proper installation and use of these pumps. *Approx. Noise Levels Full 18 RPM (12 RPM) 34 bar (5 ) 69 bar (1 ) 138 bar (2 ) 27 bar (3 ) Input Power At 18 RPM, Max. Displacement & 27 bar (3 ) 12 RPM 18 RPM PAVC33 33 (2.) 39.4 (1.4) 59. (15.6) 75 (69) 76 (72) 78 (75) 79 (77) 21.3 kw (28.5 hp) PAVC38 38 (2.3) 45. (11.9) 67.8 (17.9) 75 (69) 76 (72) 78 (75) 79 (77) 24.6 kw (33. hp) * Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed that the above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump. Noise levels are A-weighted, mean sound pressure levels at 1 meter from the pump, measured and recorded in accordance with applicable ISO and NFPA standards. 14

15 Performance Data Series PAVC 33/38 Typical Performance Data - Fluid: Standard Hydraulic Oil 1 49 C (12 F) Efficiency - % LPM GPM (3) 12.2 (27) 9.9 (24) 79.5 (21) 18 RPM Volumetric Efficiency Overall Efficiency KW 26.1 HP (35.) Efficiency - % LPM GPM (3) 12.2 (27) 9.9 (24) 79.5 (21) 18 RPM Volumetric Efficiency Overall Efficiency KW HP 26.1 (35.) (18) (15) 22.4 (3.) 18.6 (25.) (18) (15) 22.4 (3.) 18.6 (25.) (12) Bar (9) (6) (3) () () Input Power at Full Compensated Power 69 (1) Pressure 138 (2) (3) (2.) (15.) (1.) (5.) () Power (12) (9) (6) (3) () Bar () Input Power at Full Compensated Power 69 (1) Pressure 138 (2) 27 (3) 14.9 (2.) 11.2 (15.) (1.) (5.) () Power for pumps running at 18 RPM and stroked to maximum. To calculate approximate input power for the other conditions, use Inlet Pressure Vacuum Inlet Characteristics at Full Displacement bar (6) (4) (2) bar In-Hg () (5) (1) (15) [ ] HP = Q x () 1714 (Graph only valid at sea level) Recommended Operating Condition + (CHp) maximum volume setting. loss, however, is a function of pressure only. DO NOT OPERATE IN THIS REGION = Pressure At Pump Outlet CHp = Input Full 18 RPM (from graph read at operating pressure) Drain LPM GPM 5.7 (1.5) (1.2) (.9) (.6) (.3) Compensated Control 18 RPM.68 (2) Shaft Speed - RPM Bar () () 69 (1) 138 (2) System Pressure 27 (3) 15

16 Performance Data Series PAVC 33/38 Typical Performance Data - Minimum Power Settings Attainable With Control Options C, H, CM & HM Power KW HP (3) (24) (18) (12) (6) PAVC33 () Shaft Speed - RPM 27 bar (3 ) 172 bar (25 ) 138 bar (2 ) Full Boundary 13 bar (15 ) 69 bar (1 ) Max. Displacement LPM GPM (4.) (3.) (2.) (1.) PAVC33 vs. Shaft Speed () Shaft Speed - RPM power will not exceed the indicated setting at the indicated RPM and that the pump will achieve full compensator pressure selected. If setting input power limiter below full flow boundary, full flow may not be obtained at low operating pressure. Determine maximum input power limitation at desired RPM. All points above desired compensator setting curve can be achieved. Power (Torque) Limiting Curves LPM GPM (16) (14) (12) (1) (8) (6) (4) (2) 12 RPM KW HP 14.9 (2) 11.2 (15) 7.5 (1) 3.7 (5) Input Power N m In-Lbs (8) (6) (4) (2) Input Torque LPM GPM (2) (18) (16) (14) (12) (1) (8) (6) (4) (2) 18 RPM KW HP 18.6 (25) 14.9 (2) 7.5 Input Power 11.2 (15) (1) 3.7 (5) N m In-Lbs (8) (6) (4) (2) Input Torque () Bar () 69 (1) 138 (2) Pressure 27 (3) () () () Bar () 69 (1) 138 (2) Pressure 27 (3) () () See page 12 for How to Read Curves information. 16

17 Performance Data Series PAVC 33/38 Typical Performance Data - Minimum Power Settings Attainable With Control Options C, H, CM & HM Power KW HP (3) (24) (18) (12) (6) PAVC38 () Shaft Speed - RPM 27 bar (3 ) 172 bar (25 ) 138 bar (2 ) Full Boundary 13 bar (15 ) 69 bar (1 ) Max. Displacement LPM GPM (4) (3) (2) (1) () PAVC38 vs. Shaft Speed Shaft Speed - RPM horsepower will not exceed the indicated setting at the indicated RPM and that the pump will achieve full compensator pressure selected. If setting input power limiter below full flow boundary, full flow may not be obtained at low operating pressure. Determine maximum input power limitation at desired RPM. All points above desired compensator setting curve can be achieved. Power (Torque) Limiting Curves LPM GPM (16) (14) 12 RPM KW HP 14.9 (2) N m In-Lbs 9.4 (8) LPM 75.7 GPM (2) 18 RPM KW HP 29.8 (4) 26.1 (35) N m In-Lbs (12) (12) (1) (8) (6) (4) 11.2 (15) 7.5 (1) 3.7 (5) Input Power (6) (4) (2) Input Torque (15) (1) (5) 22.4 (3) 18.6 (25) 14.9 (2) 11.2 (15) 7.5 (1) Input Power 113. (1) 9.4 (8) 67.8 (6) 45.2 (4) Input Torque 7.6 (2) 3.7 (5) 22.6 (2) () Bar () 69 (1) 138 (2) Pressure 27 (3) () () () Bar () 69 (1) 138 (2) Pressure 27 (3) () () See page 12 for How to Read Curves information. 17

18 VARIABLE VOLUME PUMP CC/REV MAX INITIAL FACTORY SETTINGS BELOW HP GPM HYDRAULIC PUMP/MOTOR DIVISION OTSEGO,MICH USA ROTATION RPM Catalog HY CD/US Dimensional Data Series PAVC 33/38 Rear Ported Pump Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTE: 1. Pump shown and dimensioned is a clockwise rotation pump. Outlet counterclockwise rotation pump. INLET PORT 1-5/8-12UN-2B ST. THREAD O-RING SAE (1.25) (2.94) 63.5 (2.5) SHAFT OPTION OMIT SAE B SHAFT 7/8" KEYED MAX. TORQUE = 29 N m (1,85 IN-LBS) OUTLET PORT 1-1/16-12UN-2B ST. THREAD O-RING SAE (1.) (1.25) 25.4 (1.) 63.5 (2.5) VENT & FILL PLUG (.56) (.59) (2.94) (3.88) 84.7 (3.31) (2.87) 63.5 (2.5) (2.57) AIRBLEED DRAIN PORT 7/16-2UNF-2B ST. THREAD O-RING SAE-4 Rear View 84.7 (3.31) (2.87) 63.5 (2.5) (4.53) Front View (.74) (3.81) CLEARANCE FOR.5 DIA. MOUNTING BOLTS. SAE B 2-BOLT PATTERN CLEARANCE FOR.5 DIA. BOLTS MOUNTED DIAGONALLY ON SAE B 4-BOLT PATTERN NON-ADJUSTABLE DIFFERENTIAL OPTION OMIT ADJUSTABLE DIFFERENTIAL OPTION 4 SENSITIVITY: 13.8 BAR (2 ) PER TURN 6.35 (.25) WIDE KEY 25.9 (.988) (.974) 11.6 (4.) Ø (3.998) (.875) Ø22.19 (.874) LOW SIGNAL PORT B 7/16-2UNF-2B ST. THREAD O-RING SAE (1.75) CONTROL DRAIN PORT A 7/16-2UNF-2B ST. THREAD O-RING SAE-4 SHAFT OPTION S SAE B SHORT SHAFT 7/8" KEYED MAX. TORQUE = 29 N m (1,85 IN-LBS) 12.7 (.5) 2.57 (.81) Top View (2.31) 9.39 (.37) 25.4 (1.) (1.62) A OPTIONAL LOW SIGNAL PORT (PORT B ) B (2.6) (2.94) TORQUE CONTROL ADJUSTMENT: 56 N m (5 IN-LB) PER TURN PRESSURE COMPENSATOR ADJUSTMENT: 55 BAR (8 ) PER TURN Side View (7.25) ROTATION ARROW (1.9) MAX 41.4 (1.63) MAX.VOLUME STOP OPTION CC/REV/TURN (PAVC33) 2.5 CC/REV/TURN (PAVC38) SHAFT OPTION B SAE B SPLINED SHAFT 13 TOOTH 16/32 PITCH MAX. TORQUE = 29 N m (1,85 IN-LBS) (2.44) MAX MAX.VOLUME STOP OPTION CC/REV/TURN (PAVC33) 2.8 CC/REV/TURN (PAVC38) 18

19 VARIABLE VOLUME PUMP CC/REV MAX INITIAL FACTORY SETTINGS BELOW HP GPM HYDRAULIC PUMP/MOTOR DIVISION OTSEGO,MICH USA ROTATION RPM Catalog HY CD/US Dimensional Data Series PAVC 33/38 Side Ported Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTE: 1. Shown and dimensioned is a clockwise pump controls will be on the opposite side for a counterclockwise pump (4.17) (3.53) Port Location Option Outlet Port Inlet Port Control Drain Signal Port 2 Straight Thread (1-1/16-12UNC) OUTLET PORT SEE CHART FOR SIZE 7/16-14UNC Threads Standard Pressure Series (Code 61) 25.4 (1.) 63.5 (2.5) Straight Thread (7/16-2UNF) VENT & FILL PLUG Straight Thread (7/16-2UNF) (4.12) 63.5 (2.5) (2.94) (3.52) (2.87) 63.5 (2.5) Rear View (3.53) (2.87) 63.5 (2.5) SHAFT OPTION OMIT SAE B SHAFT 7/8" KEYED MAX. TORQUE = 29 N m (1,85 IN-LBS) CLEARANCE FOR.5 DIA. MOUNTING BOLTS. SAE B 2-BOLT PATTERN CLEARANCE FOR.5 DIA. BOLTS MOUNTED DIAGONALLY ON SAE B 4-BOLT PATTERN 6.35 (.25) WIDE KEY 25.4 (1.) (1.25) LOW SIGNAL PORT B SEE CHART FOR SIZE 12.7 (.5) 2.57 (.81) (2.31) 9.37 (.37) TORQUE CONTROL ADJUSTMENT: 56 N m (5 IN-LB) PER TURN PRESSURE COMPENSATOR ADJUSTMENT: 55 BAR (8 ) PER TURN Top View (7.32) (3.53) INLET PORT SAME BOTH SIDES SEE CHART FOR SIZE (.56) (.59) (2.94) 11.6 (4.) Ø (3.998) 25.9 (.988) (.974) (.875) Ø (.874) 63.5 (2.5) NON-ADJUSTABLE DIFFERENTIAL OPTION OMIT (2.32) AIRBLEED DRAIN PORT 7/16-2 UNF-2B ST. THREAD O-RING SAE-4 OPTION 8 ISO ADAPTER FITTING ON OPTION (2.57) Front View (4.53) (.74) CONTROL DRAIN PORT A SEE CHART FOR SIZE ADJUSTABLE DIFFERENTIAL OPTION 4 SENSITIVITY: 13.8 BAR (2 ) PER TURN 25.4 (1.) (1.62) (2.6) (2.94) (5.69) Side View 3.23 (1.19) (1.9) MAX SHAFT OPTION S MAX.VOLUME STOP OPTION 2 SAE B SHORT SHAFT 2.2 CC/REV/TURN (PAVC33) 7/8" KEYED 2.5 CC/REV/TURN (PAVC38) MAX. TORQUE = 29 N m (1,85 IN-LBS) SHAFT OPTION B SAE B SPLINED SHAFT 13 TOOTH 16/32 PITCH MAX. TORQUE = 29 N m (1,85 IN-LBS) (2.44) MAX MAX.VOLUME STOP OPTION CC/REV/TURN (PAVC33) 2.8 CC/REV/TURN (PAVC38) 19

20 Technical Information Series PAVC 65 Performance Information Series PAVC65 Pressure Compensated, Variable Volume, Piston Pump Features 7 bar (1 ) Maximum Controls Schematic Symbol (Basic Pump) Weight and Package Size Model Quick Reference Data Chart Pump Model Weight In Kg (Lb) Length From Mounting Face in CM (Inches) Displacement CM 3 /REV (IN 3 /REV) Height in CM (Inches) Pump 21 bar (3 ) in LPM (GPM) Height in CM (Inches) PAVC65 28 (62) 22.4 (8.82) (7.42) 2.32 (8.) Specifications 248 bar (36 ) Peak (P3).17 bar (5 In. Hg.) 18 RPM (See Inlet Chart for other speeds) * See Inlet Characteristics Chart on page A155 and consider using Dual Inlet Port configuration on page A178 for applications above 27 RPM. ISO 18/15 Maximum Recommended specific recommendations pertaining to system cleanliness, fluids, start-up, inlet conditions, shaft alignment, drain line restrictions and other important factors relative to the proper installation and use of these pumps. *Approx. Noise Levels Full 18 RPM (12 RPM) 34 bar (5 ) 69 bar (1 ) 138 bar (2 ) 27 bar (3 ) Input Power At 18 RPM, Max. Displacement & 27 bar (3 ) 12 RPM 18 RPM PAVC65 65 (4.) 78.7 (2.8) (31.2) 77 (75) 78 (76) 8 (78) 81 (79) 43.1 kw (57.8 hp) * Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed that the above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump. Noise levels are A-weighted, mean sound pressure levels at 1 meter from the pump, measured and recorded in accordance with applicable ISO and NFPA standards. 2

21 Performance Data Series PAVC 65 Typical Performance Data - Fluid: Standard Hydraulic Oil 1 49 C (12 F) Efficiency - % LPM GPM (3) (27) (24) (21) 12 RPM Volumetric Efficiency Overall Efficiency KW HP 29.8 (4) 26.1 (35) Efficiency - % LPM GPM (4) (36) (32) 16. (28) 18 RPM Volumetric Efficiency Overall Efficiency KW HP 59.7 (8) 52.2 (7) (18) 22.4 (3) (24) 44.7 (6) (15) (12) (9) (6) Input Power at Full 18.6 (25) 14.9 (2) 11.2 (15) 7.5 (1) Input Power (2) (16) (12) (8) Input Power at Full 37.1 (5) 29.8 (4) 22.4 (3) 14.9 (2) Input Power 11.4 (3) () Bar () Compensated Power 69 (1) Pressure 138 (2) 27 (3) 3.7 (5) () 15.1 (4) () Bar () Compensated Power 69 (1) Pressure 138 (2) (3) (1) () for pumps running at 18 RPM and stroked to maximum. To calculate approximate input power for the other conditions, use [ ] HP = Q x () (CHp) maximum volume setting. loss, however, is a function of pressure only. = Pressure At Pump Outlet CHp = Input Full 18 RPM (from graph read at operating pressure) Inlet Pressure Vacuum Inlet Characteristics at Full Displacement bar (6) (4) (2) bar In-Hg () (5) (1) (15) (Graph only valid at sea level) Recommended Operating Condition DO NOT OPERATE IN THIS REGION Drain LPM GPM 7.6 (2.) 5.7 (1.5) 3.8 (1.) 1.9 (.5) Compensated Control 18 RPM.68 (2) Shaft Speed - RPM Bar () () 69 (1) 138 (2) System Pressure 27 (3) 21

22 Performance Data Series PAVC 65 Typical Performance Data - Minimum Power Settings Attainable With Control Options C, H, CM & HM Power KW HP (6) (48) (36) (24) (12) PAVC65 () Shaft Speed - RPM 27 bar (3 ) 172 bar (25 ) 138 bar (2 ) 13 bar (15 ) 69 bar (1 ) Max. Displacement LPM GPM (6) (45) (3) (15) () PAVC65 vs. Shaft Speed Shaft Speed - RPM power will not exceed the indicated setting at the indicated RPM and that the pump will achieve full compensator pressure selected. If setting input power limiter below full flow boundary, full flow may not be obtained at low operating pressure. Determine maximum input power limitation at desired RPM. All points above desired compensator setting curve can be achieved. LPM GPM (2) (15) (1) (5) 12 RPM PAVC65 Power (Torque) Limiting 18 RPM KW HP 33.6 (45) 29.8 (4) 26.1 (35) 22.4 (3) 18.6 (25) 14.9 (2) 11.2 (15) 7.5 (1) 3.7 (5) Input Power N m In-Lbs 226. (2) 226. (16) 113. (8) 56.5 (4) Input Torque (12) LPM GPM (35) (3) (25) (2) (15) (1) (5) KW HP 52.2 (7) 44.7 (6) 37.3 (5) 29.8 (4) Input Power 22.4 (3) 14.9 (2) 7.5 (1) N m In-Lbs 226. (2) (15) 113. (1) 56.5 (5) Input Torque () Bar () 69 (1) 138 (2) Pressure 27 (3) () () () Bar () 69 (1) 138 (2) Pressure 27 (3) () () See page 12 for How to Read Curves information. 22

23 HP RPM Catalog HY CD/US Dimensional Data Series PAVC 65 Dimensions Rear Port * Inch equivalents for millimeter dimensions are shown in (**). NOTES: will be on opposite side for a counterclockwise rotation pump (3.19) INLET PORT 1-7/8-12UN-2B ST. THREAD O-RING SAE-24 OUTLET PORT 1-5/16-12UN-2B ST. THREAD O-RING SAE (1.25) 88.9 (3.5) (4.56) 38.1 (1.5) 88.9 (3.5) SHAFT OPTION OMIT SAE C SHAFT 1-1/4" KEYED MAX. TORQUE = 641 N m (5,68 IN-LBS) 25.4 (1.) (1.25) PORT B LOW SIGNAL 7/16-2UNF-2B ST. THREAD O-RING SAE-4 VARIABLE VOLUME PUMP ROTATION CC/REV MAX INITIAL FACTORY SETTINGS BELOW HYDRAULIC PUMP/MOTOR DIVISION Otsego, MI 4978 MADE IN USA VENT/FILL PLUG 11.6 (4.) 9.42 (3.56) 81.3 (3.19) Rear View 11.6 (4.) 9.42 (3.56) 81.3 (3.19) CLEARANCE FOR.625 DIA. MOUNTING BOLTS. SAE C 2-BOLT PATTERN CLEARANCE FOR.5 DIA. BOLTS MOUNTED DIAGONALLY ON SAE C 4-BOLT PATTERN (.49) (.62) Top View (2.19) TORQUE CONTROL ADJUSTMENT SENSITIVITY: 9 N m (8 IN-LB) PER TURN PRESSURE COMPENSATOR ADJUSTMENT SENSITIVITY: 55 BAR (8 ) PER TURN (1.25) (8.82) (.312) WIDE KEY 7.61 (2.78) (2.6) 127. (5.) ø (4.998) (1.391) 35.7 (1.381) ø (1.25) (1.248) B 5.8 (2.) A (2.57) AIRBLEED DRAIN PORT 7/16-2UNF-2B ST. THREAD O-RING SAE-4 35 Front View (4.53) (.92) PORT A CONTROL DRAIN 9/16-18UNF-2B ST. THREAD O-RING SAE (1.25) ADJUSTABLE DIFFERENTIAL OPTION 4 SENSITVITY: 13.8 BAR (2 ) PER TURN 63.5 (2.5) (3.75) Side View (8.63) SHAFT OPTION B 14 TOOTH SAE C SPLINE 12/24 PITCH MAX TORQUE = 641 N m (5,68 IN-LBS) (2.19) (3.3) MAX OPTION 5 VOLUME STOP SENSITIVITY: 4.2 CC/REV/TURN (1.9) MAX OPTION 2 VOLUME STOP SENSITIVITY: 3.8 CC/REV/TURN 23

24 HP RPM Catalog HY CD/US Dimensional Data Series PAVC 65 Dimensions Top Port * Inch equivalents for millimeter dimensions are shown in (**). NOTES: 1. Pump shown and dimensioned is a clockwise rotation pump. Outlet port, opposite side for a counterclockwise pump. 2. Pump mounting and shaft comply with Port Location Option Outlet Port Inlet Port Control Drain Signal Port 2 Straight Thread (1-5/16-12UNC) OUTLET PORT SEE CHART FOR SIZE 1/2-13UNC Threads Standard Pressure Series (Code 61) 81.3 (3.19) (1.25) (7.56) Straight Thread (9/16-18UNF) (1.41) Straight Thread (7/16-2UNF) INLET PORT SEE CHART FOR SIZE (3.38) (4.56) 88.9 (3.5) 25.4 (1.) SHAFT OPTION OMIT SAE C SHAFT 1-1/4" KEYED MAX. TORQUE = 641 N m (5,68 IN-LBS) (1.25) VARIABLE VOLUME PUMP ROTATION CC/REV MAX INITIAL FACTORY SETTINGS BELOW HYDRAULIC PUMP/MOTOR DIVISION Otsego, MI 4978 MADE IN USA (2.75) 11.6 (4.) 9.42 (3.56) 81.2 (3.19) Rear View 11.6 (4.) 9.42 (3.56) 81.2 (3.19) CLEARANCE FOR.625 DIA. MOUNTING BOLTS. SAE C 2-BOLT PATTERN SIGNAL PORT PORT B SEE CHART FOR SIZE CLEARANCE FOR.5 DIA. BOLTS MOUNTED DIAGONALLY ON SAE C 4-BOLT PATTERN (.312) WIDE KEY (.62) Top View (2.19) (.49) VENT/FILL PLUG TORQUE CONTROL ADJUSTMENT SENSITIVITY: 9 N m (8 IN-LB) PER TURN PRESSURE COMPENSATOR ADJUSTMENT SENSITIVITY: 55 BAR (8 ) PER TURN (1.25) (8.82) 7.61 (2.78) (1.391) 35.7 (1.381) B 5.8 (2.) (2.6) (1.25) Ø (1.248) (2.57) AIRBLEED DRAIN PORT 7/16-2UNF-2B ST. THREAD O-RING SAE-4 OPTION 8 ISO ADAPTER FITTING ON OPTION 8 35 Front View (4.53) SHAFT OPTION B 14 TOOTH SAE C SPLINE 12/24 PITCH MAX. TORQUE = 641 N m (5,68 IN-LBS) (.92) Ø 127. (5.) (4.998) CONTROL DRAIN PORT SEE CHART FOR SIZE ADJUSTABLE DIFFERENTIAL OPTION 4 SENSITIVITY: 13.8 BAR (2 ) PER TURN (2.19) (1.25) (3.3) MAX A 63.5 (2.5) (3.75) Side View OPTION 5 VOLUME STOP SENSITIVITY: 4.2 CC/REV/TURN (8.63) SECONDARY VENT/FILL (1.9) MAX OPTION 2 VOLUME STOP SENSITIVITY: 3.8 CC/REV/TURN 24

25 Notes Series PAVC 25

26 Technical Information Series PAVC 1 Performance Information Series PAVC1 Pressure Compensated, Variable Volume, Piston Pump Features Capable 7 bar (1 ) Maximum Controls Schematic Symbol (Basic Pump) Weight and Package Size Model Quick Reference Data Chart Pump Model Weight In Kg (Lb) Length From Mounting Face in CM (Inches) Displacement CM 3 /REV (IN 3 /REV) Height in CM (Inches) Pump 21 bar (3 ) in LPM (GPM) Height in CM (Inches) PAVC1 5 (11) 3.73 (12.1) 24.9 (9.82) (8.5) Specifications 248 bar (36 ) Peak (P3).17 bar (5 In. Hg.) 18 RPM (See Inlet Chart for other speeds) ISO 18/15 Maximum Recommended specific recommendations pertaining to system cleanliness, fluids, start-up, inlet conditions, shaft alignment, drain line restrictions and other important factors relative to the proper installation and use of these pumps. *Approx. Noise Levels Full 18 RPM (12 RPM) 69 bar (1 ) 138 bar (2 ) 27 bar (3 ) Input Power At 18 RPM, Max. Displacement & 27 bar (3 ) 12 RPM 18 RPM PAVC1 1 (6.1) (31.6) (47.5) 82 (78) 82 (79) 85 (8) 71.2 kw (95.5 hp) * Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed that the above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump. Noise levels are A-weighted, mean sound pressure levels at 1 meter from the pump, measured and recorded in accordance with applicable ISO and NFPA standards. 26

27 Performance Data Series PAVC 1 Typical Performance Data - Fluid: Standard Hydraulic Oil 1 49 C (12 F) Efficiency - % LPM Bar GPM (5) (45) (4) (35) (3) (25) (2) (15) (1) (5) () () 12 RPM 69 (1) Volumetric Efficiency Input Power at Full Overall Efficiency Compensated Power Pressure 138 (2) KW HP 74.6 (1) 27 (3) 67.1 (9) 59.7 (8) 52.2 (7) 44.7 (6) 37.3 (5) (4) (3) (2) (1) () Power Efficiency - % LPM GPM (5) (45) (4) (35) (3) (25) (2) (15) (1) (5) () Bar () 18 RPM Overall Efficiency Input Power at Full 69 (1) Volumetric Efficiency Compensated Power Pressure 138 (2) KW HP 74.6 (1) (3) 67.1 (9) 59.7 (8) 52.2 (7) 44.7 (6) 37.3 (5) (4) (3) (2) (1) () Power for pumps running at 18 RPM and stroked to maximum. To calculate approximate input power for the other conditions, use [ ] HP = Q x () (CHp) maximum volume setting. loss, however, is a function of pressure only. PAVC1 Inlet Characteristics at Full Displacement Inlet Pressure Vacuum bar (6) (4) (2) bar In-Hg () (5) (1) (15) (Graph only valid at sea level) Recommended Operating Condition DO NOT OPERATE IN THIS REGION = Pressure At Pump Outlet CHp = Input Full 18 RPM (from graph read at operating pressure) Drain LPM GPM 15.1 (4) (3) (2) (1) Compensated Control 18 RPM.68 (2) Shaft Speed - RPM () Bar () 69 (1) 138 (2) System Pressure 27 (3) 27

28 Performance Data Series PAVC 1 Typical Performance Data - Minimum Power Settings Attainable With Control Options C, H, CM & HM KW (HP) 55.9 (75) PAVC1 27 bar (3 ) Power (6) (45) (3) (15) 172 bar (25 ) 138 bar (2 ) Full Boundary 13 bar (15 ) 69 bar (1 ) 34 bar (5 ) will not exceed the indicated setting at the indicated RPM and that the pump will achieve full compensator pressure selected. If setting input power limiter below full flow boundary, full flow may not be obtained at low operating pressure. Determine maximum input power limitation at desired RPM. All points above desired compensator setting curve can be achieved Shaft Speed - RPM Power (Torque) Limiting Curves LPM GPM (35) 12 RPM KW HP 52.2 (7) LPM GPM (5) 18 RPM KW HP 74.6 (1) (3) 44.7 (6) N m In-Lbs 339. (3) (45) (4) 67.1 (9) 59.7 (8) N m In-Lbs 339. (3) (25) (2) (15) (1) (5) 37.3 (5) 29.8 (4) (2) 7.5 (1) Input Power (25) 226. (2) (15) 113. (1) 56.5 (5) Input Torque (35) (3) (25) (2) (15) (1) (5) 52.2 (7) 44.7 (6) 37.3 (5) 29.8 (4) Input Power (25) 226. (2) (15) 22.4 (3) 113. (1) 14.9 (2) 56.5 (5) 7.5 (1) Input Torque () Bar () 69 (1) 138 (2) Pressure 27 (3) () () () Bar () 69 (1) 138 (2) Pressure 27 (3) () () See page 12 for How to Read Curves information. 28

29 HP RPM Catalog HY CD/US Dimensional Data Series PAVC 1 Rear Ported Pump Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTE: Pump shown and dimensioned is a clockwise rotation pump. For a counterclockwise rotation pump the outlet port, control drain, signal port and pump controls will be on other side. Outlet Option Omit Inlet Option Omit 3 Omit Port Location Outlet Port Inlet Port Control Drain Signal Port (1-5/8-12UNC) 7/16-14UNC Thread Standard Pressure Series (Code 61) 1/2-13UNC Threads Standard Pressure Series (Code 61) 1/2-13UNC Threads Standard Pressure Series (Code 61) Straight Thread (9/16-18UNF) Straight Thread (9/16-18UNF) Straight Thread (7/16-2UNF) Straight Thread (7/16-2UNF) Ø 38.1 (1.5) (1.498) (2.19) SHAFT OPTION B SAE C SPLINE 14 TOOTH 12/24 DP MAX. TORQUE = 639 N m (5,68 IN-LBS) (1.669) (1.659) (2.44) SHAFT OPTION C SAE C-C SHAFT MAX. TORQUE = 1,218 N m (1,78 IN-LBS) SHAFT OPTION D SAE C-C SPLINE 17 TOOTH 12/24 DP MAX. TORQUE = 1,218 N m (1,78 IN-LBS) (4.25) (4.25) (3.6) VENT-FILL/INLET GAUGE PORT 7/16-2UNF-2B STRAIGHT THREAD O-RING OUTLET PORT OPTION OMIT SEE CHART FOR PORT SIZE (5.5) 41.4 (1.63) (4.62) (5.57) (3.67) 11.6 (4.) (1.69) Ø 5.8 (2.) 28.7 (1.13) (1.25) SHAFT OPTION OMIT SAE C SHAFT MAX. TORQUE = 639 N m (5,68 IN-LBS) VARIABLE VOLUME PUMP Rotation cc/rev max INITIAL FACTORY SETTINGS BELOW Fluidpower Pump Division Otsego, Mich USA REAR INLET PORT (INLET PORT OPTION OMIT ) SEE CHART FOR PORT SIZE PRESSURE COMPENSATOR ADJUSTMENT SENSITIVITY: 55 BAR (8 ) PER REV TORQUE CONTROL ADJUSTMENT (CONTROL OPTIONS C,H,CM & HM) SENSITIVITY: 13 N m (1,15 IN-LBS) PER REV. Rear View Top View 29

30 Dimensional Data Series PAVC 1 Rear Ported Pump Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTE: Pump shown and dimensioned is a clockwise rotation pump. For a counterclockwise rotation pump the outlet port, control drain, signal port and pump controls will be on other side. Ø31.75 (1.25) 28.7 (1.13) 41.4 (1.63) OPTION 3 OUTLET PORT (SEE CHART ON PAGE A166 FOR PORT SIZE) (2.31) 3.22 (1.19) Option 3 Outlet Port ADAPTABLE TO SAE C 2-BOLT MOUNTING OR DIAGONALLY ON SAE C 4-BOLT MOUNTING OUTLET PRESSURE GAUGE PORT 7/16-2UNF-2B STRAIGHT THREAD O-RING (3.62) (2.94) 7.11 R (.28) 9.42 (3.56) 81.2 (3.19) 9.42 (3.56) 81.2 (3.19) PORT B SIGNAL STRAIGHT THREAD O-RING SEE CHART ON A166 FOR PORT SIZE (.312) WIDE KEY (1.391) 35.7 (1.381) 127. (5.) Ø (4.998) (1.25) Ø31.69 (1.248) (2.19) (.49) (11.95) ROTATION ARROW (6.24) (4.44) AIRBLEED DRAIN PORT 7/16-2UNF-2B ST. THREAD O-RING SAE (1.43) Front View (4.5) MAX PORT A CONTROL STRAIGHT THREAD O-RING SEE CHART ON A166 FOR PORT SIZE OPTION 4 DIFFERENTIAL PRESSURE ADJUSTMENT 28 BAR (4 ) PER REV (2.88) 14.9 (4.13) 41.4 (1.63) OPTION 2 MAX. VOLUME ADJUSTMENT SENSITIVITY: 5CC/REV/REV OPTION 5 MAX. VOLUME ADJUSTMENT SENSITIVITY: 5.6CC/REV/REV Side View 2.54 (.1) MAX (2.2) MAX 3

31 Dimensional Data Series PAVC (4.5) (6.27) (3.67) 11.6 (4.) (5.45) ADAPTABLE TO SAE C 2-BOLT MOUNTING OR DIAGONALLY ON SAE C 4-BOLT MOUNTING OUTLET PRESSURE GAUGE PORT 7/16-2UNF-2B ST. THREAD O-RING R7.11 (.28) (3.62) (4.25) 9.42 (3.56) 81.2 (3.19) (4.25) 9.42 (3.56) 81.2 (3.19) VENT-FILL/INLET GAUGE PORT 7/16-2UNF-2B STRAIGHT THREAD O-RING SIGNAL PORTS PORT B SEE CHART, A169 FOR PORT SIZE (2.19) (.312) WIDE KEY (1.391) 35.7 (1.381) (.49) VARIABLE VOLUME PUMP cc/rev HP Rotation RPM Top/Bottom Ported Pump Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTES: 1. Pump shown and dimensioned is a clockwise rotation top/ bottom inlet option pump. For a counterclockwise rotation pump the outlet port, control drain, signal port, and pump controls will be on other side. 2. For other available shafts see page A34. Rear View THREADED OURTLET PORT OUTLET PORT OPTION OMIT SEE CHART A169 FOR PORT SIZE 28.7 (1.13) SHAFT OPTION OMIT SAE C SHAFT MAX. TORQUE = 639 N m (5,68 IN-LBS) (1.25) PRESSURE COMPENSATOR ADJUSTMENT SENSITIVITY: 55 BAR (8 ) PER REV Top View (9.62) (TOP PORT) (5.5) 41.4 (1.63) max INITIAL FACTORY SETTINGS BELOW Hydraulics Pump Division Otsego, Mich USA (12.21) (3.6) ROTATION ARROW OPTION 2 INLET PORT FLANGE INLET PORT SEE CHART A169 FOR PORT SIZE BOTTOM PORT OPPOSITE SIDE SAME PATTERN ROTATED (6.24) (1.69) ø5.8 (2.) TORQUE CONTROL ADJUSTMENT (CONTROL OPTIONS C,H,CM & HM) SENSITIVITY: 13 N m (1,15 IN-LB) PER REV (2.94) ø (1.25) (1.248) (4.44) AIRBLEED DRAIN PORT 7/16-2UNF-2B ST. THREAD O-RING SAE-4 OPTION 8 ISO ADAPTER FITTING ON OPTION 8 Front View (4.5) MAX ø 127. (5.) (4.998) (1.43) CONTROL DRAIN PORT A SEE CHART, A169 FOR PORT SIZE OPTION 4 DIFFERENTIAL PRESSURE ADJUSTMENT 28 BAR (4 ) PER REV 41.4 (1.63) (2.88) 14.9 (4.13) BOTTOM INLET PORT (9.37) (BOTTOM PORT) Side View OPTION 2 MAX. VOLUME ADJUSTMENT 5CC/REV/REV (1.95) MAX. OPTION 5 MAX. VOLUME ADJUSTMENT 5.6CC/REV/REV 31

32 Dimensional Data Series PAVC 1 Top/Bottom Ported Pump Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTE: Pump shown and dimensioned is a clockwise rotation pump. For a counterclockwise rotation pump the outlet port, control drain, signal port and pump controls will be on other side. Outlet Option Inlet Option Omit Port Location Outlet Port Inlet Port Control Drain Signal Port (1-5/8-12UN) 7/16-14UNC Thread Standard Pressure Series (Code 61) 1/2-13UNC Threads Standard Pressure Series (Code 61) 1/2-13UNC Threads Standard Pressure Series (Code 61) Straight Thread (9/16-18UNF) Straight Thread (9/16-18UNF) Straight Thread (7/16-2UNF) Straight Thread (7/16-2UNF) Dimensions Thru-Shaft Options * Inch equivalents for millimeter dimensions are shown in (**). Variation 6A4 Ø 82.58/82.6 (3.251/3.252) (4.188) N/A N/A 9 Tooth 16/32 Pitch N/A 6B (2.125) Ø 11.63/11.65 (4.1/4.2) (5.75) (3.536) 13 Tooth 16/32 Pitch N/A 6B (2.125) Ø 11.63/11.65 (4.1/4.2) (5.75) (3.536) 15 Tooth 16/32 Pitch N/A 6C (2.125) Ø 127.3/127.5 (5.1/5.2) (7.125) (4.58) 14 Tooth 12/24 Pitch N/A 32

33 Dimensional Data Series PAVC 1 Thru-Shaft Options Dimensions * Inch equivalents for millimeter dimensions are shown in (**). NOTES: 1. Rear adapters may be rotated Pump shown is a clockwise rotation pump. For a counterclockwise pump the outlet port, control drain and control 3. Maximum torque transmitting capacity for rear mounting of apply based on pump mounted on rear (11.8) A C 2 C E G Side View Rear View Variations 6A* & 9A* C 2 C H B D 2 D G E F D 2 D Rear View Variations 6B* & 6C* 9B* & 9C* 33

34 Installation Information Series PAVC 33/38/65/1 Generic Pump Assembly MAX VOL. STOP VARIATION N m (7 FT. LBS.) TORQUE MAX VOL. STOP VARIATION N m (17 FT. LBS.) TORQUE 4 1 TRUNNION CAP ASSEMBLY 4 RETAINER DETAIL 7 AIR BLEED ASSEMBLY THRUST WASHER (Not on PAVC1) SNAP RING O-RING TRUNNION CAP ROLLER BEARING 2 SLEEVE ASSEMBLY 5 BEARING SHAFT ASSEMBLY BODY SPRING BALL 8 STAKE BALL IN PLACE ADJUSTING STEM ASSEMBLY SLEEVE O-RING 1 BACK-UP RING PLUG STEM O-RING 1 BACK-UP RING 2 9 PORT PLATE 3 PLUG ASSEMBLY SLEEVE 1 2 O-RING 1 BACK-UP RING 2 6 PISTON - DIFFERENTIAL CONTROL PISTON BODY O-RING 1 BACK-UP RING LEFT HAND (CCW) PORT PLATE SHOWN IN ASSEMBLY (ABOVE). RIGHT HAND (CW) PORT PLATE SHOWN BELOW. 34

35 Installation Information Series PAVC 33/38/65/1 169 N m (125 FT. LBS.) TORQUE 13.5 N m (1 FT. LBS.) TORQUE 76 THESE ITEMS ARE SHOWN IN POSITION FOR CONTROL OPTION OMIT. SEE SEPARATE DIAGRAM FOR OTHER CONTROL OPTIONS N m (8 FT. LBS.) TORQUE 6 ADJUSTABLE DIFFERENTIAL VARIATION POSITION POSITION 1 TORQUE (HP) CONTROL (See next page) Part Number Description 12 x 1 Solid Pipe Plug (1/16") 18 x Orifice Plug (1/16") Orifice Plug (1/16") Orifice Fitting Upstroke Spring PAVC 33, 38, N m (2 FT. LBS.) TORQUE 68 N m (5 FT. LBS.) TORQUE NON-ADJUSTABLE DIFFERENTIAL VARIATION - OMIT Position Control Option Omit Open x 4 18 x 4 Omit A 12 x Open 18 x * C 12 x Open 18 x * H Open x 4 18 x 4 Omit M 8599 Open Open 18 x 4 Omit 12 x Open 18 x * S 8599 Open Open 18 x 4 Omit 12 x Open 18 x 4 Omit AM 12 x Open * CM 12 x Open * HM 8599 Open Open 18 x 4 Omit * Available Only on PAVC65. PAVC 1 Position Control Option Omit Open x 4 18 x A 12 x Open 18 x C 12 x Open 18 x H Open x 4 18 x M 6987 Open Open 18 x x Open 18 x S 6987 Open Open 18 x x Open 18 x AM 12 x Open CM 12 x Open HM 6987 Open Open 18 x is always included with the PAVC1. 35

36 Installation Information Series PAVC 33/38/65/1 1 CONTROL OPTION C & H PRESSURE, POWER & FLOW 1-32UNF-2B OMIT 27 N m (2 FT.-LBS.) TORQUE 14 N m (1 FT.-LBS.) TORQUE MAX. PRESSURE PER TEST SPEC. THEN INSTALL JAM NUT, LOCKING NUT AND LOCKING TAB. ADD 36

37 Installation Information Series PAVC 33/38/65/1 Use Of A Relief Valve The use of a relief valve, while not mandatory is recommended in the main circuit to suppress hydraulic shock loads and additional system protection. If a minimum volume stop is used, the use of a relief valve is mandatory. Fluid Recommendations Premium quality hydraulic oil with a viscosity range between SSU (3-5 cst.) at 38 C (1 F). Normal operating viscosity range between 8-1 SSU (17-18 cst.). Maximum start-up viscosity is 4 SSU (1 cst.). Consult Parker when exceeding 71 C (16 F) operation. Oil should have maximum anti-wear properties, rust and oxidation treatment. Filtration For maximum pump and system component life, the system should be protected from contamination at a level not to exceed 125 particles greater than 16/13). Due to the nature of variable displacement pumps, variations in pump inlet conditions, fluid acceleration losses, system aeration, and duty cycle strainer. Contact your Parker representative for assistance. Start-Up On initial start-up, the case should be filled with oil, pressure should be reduced and the circuit should be open or the air bled from the pump outlet to permit priming. Use of the airbleed is recommended on initial start-up. See Installation and Mounting Section to connect airbleed. Inlet Conditions Not to exceed.17 bar (5 In. Hg.). Vacuum at 18 RPM on petroleum base fluids. See recommended speed spectrum for specific inlet conditions. Shaft Rotation and Line Up Pump and motor shaft alignment must be within.1 TIR maximum, using a standard floating coupling. Please follow coupling manufacturer s recommended installation instructions to prevent end thrust on pump shaft. Turn pump to assure freedom of rotation. Pump and motor must be on a rigid base. horsepower developed. Installation and Mounting level, the position of the control drain is not restricted but the inlet port should not be on the bottom (PAVC1) below the fluid level the position of all ports are not restricted. The control drain should be a separate line to the reservoir and extend below the oil level as far from the inlet line as possible. The control drain line can be filtered and/or cooled (must not exceed 7 bar (1 ) back pressure). Suggested maximum line length is 1 feet. A built in airbleed is standard on all PAVC 33, 38, 65 and 1 Pumps. To connect, remove airbleed drain plug and connect a line unrestricted to reservoir in this line must not exceed.28 bar (4 ). Special Installations Consult your Parker representative for any application Pressure above rated, drive speed above maximum, indirect drive, fluid other than petroleum oil, oil temperature above 71 C (16 F). Inlet Pressure Not to exceed 1.72 bar (25 ). 37

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