Axial Piston Pump PV016 - PV360 Variable Displacement

Catalogue HY30-3245/UK

Contents

Axial Piston Pump PV 016 to 360

Contents

Page

Introduction and general Information...............................................................4 Technical Data.................................................................................................5 Ordering Code.................................................................................................6 Pressure Controls..........................................................................................18 Remote Pressure Controls............................................................................20 Load Sensing Controls..................................................................................22 Horse Power/Torque Controls........................................................................26 Performance Curves......................................................................................30 Electronic P/Q Controls.................................................................................32 Proportional Displacement Control................................................................32 Electronic P/Q Controls.................................................................................33 Efficiency and Case Drain Flows...................................................................34 Performance Curves and Case Drain Flows PV 360.....................................39 Accessories Control......................................................................................40 Proportional pressure relief valve PVACRE*.................................................42 Accessories Control......................................................................................43 Dimensions....................................................................................................44 Control Dimensions.......................................................................................56 Electronic Module PQDXXA..........................................................................60 Through Drive, Mounting Kits........................................................................61 Through Drive, Flange Load Limitation.........................................................62 Multiple Pump Combinations - Maximum Moment........................................62 Through Drive, Shaft Load Limitations..........................................................63 PV360 shaft options......................................................................................64

3

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Introduction

Axial Piston Pump PV 016 to 360 Technical Features

With thru drive for single and multiple pumps Swash plate type for open circuit

• • • • • •

Low noise level Fast response Service-friendly High self-priming speed Compact design Thru drive for 100% nominal torque

General Information Fluid recommendations Premium quality hydraulic mineral fluid is recomended, like HLP oils to DIN 51524, part 2. Brugger- value has to be 30 N/mm2 minimum for general application and 50 N/mm2 for heavily loaded hydraulic equipment and fast cycling machines and/or high dynamic loads, measured in accordance with DIN 51 347-2. See also Document HY30-3248/UK Parker Hydraulic Fluids.

Fluid cleanliness should be in accordance with ISO classification ISO 4406:1999. The quality of filter elements should be in accordance with ISO standards. General hydraulic systems for satisfactory operation: Class 20/18/15, according to ISO 4406:1999 Recommended cleanliness for maximum component life and functionality: Class 18/16/13, according to ISO 4406:1999

Viscosity The normal operating viscosity should range between 16 and 100 mm2/s (cSt). Max. start-up viscosity is 800 mm2/s (cSt).

Seals Check hydraulic fluid specification for chemical resistance of seal material. Check temperature range of seal material and compare with max. system and ambient temperature. N - Nitrile -40 ... +90 °C Note: The highest fluid temperature will be at the drain port of the pump, up to 25 °C higher than in the reservoir.

Filtration For maximum pump and system component functionality and life, the system should be protected from contamination by effective filtration.

4

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Technical Data

Axial Piston Pump PV 016 to 360

PV016 PV020 PV023 PV028 PV032 PV040 PV046 Frame size 1 1 1 1 2 2 2 Max. Displacement [cm3/rev.] 16 20 23 28 32 40 46 Output flow at 1500 rpm [l/min] 24 30 34,5 42 48 60 69 Nominal pressure pN [bar] 350 350 350 350 350 350 350 Max. pressure pmax at 20% working cycle1) [bar] 420 420 420 420 420 420 420 Case drain pressure, continuous [bar] 0.5 0.5 0.5 0.5 0.5 0.5 0.55 Case drain pressure, max. peak [bar] 2.0 2.0 2.0 2.0 2.0 2.0 2.0 Min. Inlet pressure, abs. [bar] 0.8 0.8 0.8 0.8 0.8 0.8 0.8 Max. Inlet pressure [bar] 16 16 16 16 16 16 16 Input power at 1500 rpm and 350 bar [kW] 15.5 19.5 22.5 27.5 31 39 45 Max speed at 1 bar, abs, inlet pressure [rpm] 3000 3000 3000 3000 2800 2800 2800 Moment of inertia [kgm2] 0.0017 0.0017 0.0017 0.0017 0.0043 0.0043 0.0043 Weight [kg] 19 19 19 19 30 30 30

PV063 PV080 PV092 PV140 PV180 PV270 PV360 Frame size 3 3 3 4 4 5 5 Max. Displacement [cm3/rev.] 63 80 92 140 180 270 360 Output flow at 1500 rpm [l/min] 94.5 120 138 270 405 405 540 Nominal pressure pN [bar] 350 350 350 350 350 350 350 420 420 420 420 420 420 Max. pressure pmax at 20% working cycle1) [bar] 420 Case drain pressure, continuous [bar] 0.5 0.5 0.5 0.5 0.5 0.5 0.5 Case drain pressure, max. peak [bar] 2.0 2.0 2.0 2.0 2.0 2.0 2.0 Min. Inlet pressure, abs. [bar] 0.8 0.8 0.8 0.8 0.8 0.8 0.8 Max. Inlet pressure [bar] 16 16 16 16 16 16 16 Input power at 1500 rpm and 350 bar [kW] 61.5 78 89.5 136 175 263 350 Max speed at 1 bar, abs, inlet pressure [rpm] 2800 2500 2300 2400 2200 1800 1750 Moment of inertia [kgm2] 0.018 0.018 0.018 0.030 0.030 0.098 0.103 Weight [kg] 59 59 59 90 90 172 180 1) Special control options required.

5

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 028

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement

rotation size and displacement

mounting interface

variation

seals

thru drive code

control

see next page

coupling code

threads code

Code Displacement   Size

Code





016 020 023 028

16 cm³/rev 20 cm³/rev 23 cm³/rev 28 cm³/rev

Rotation 1)

R

Clockwise

L

Counter clockwise

1)

Code Coupling for thru drive

as single part 6)

1 H Y A B C

When looked on shaft

Code

Variation

1

Standard

9

Special adjustment 2)

2)

NBR FPM NBR with PTFE shaft seal FPM with PTFE shaft seal

1 1 1 1

Code

Seals

N V W P

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14

requires Kxxxx number Code Thru drive option

Code K L D E

Code

Mounting interface

No adaptor for 2nd pump

Shaft

T

metr. ISO 4-hole flange Ø100 mm Cylindric, key 3019/2 4-hole flange Ø100 mm Splined, DIN 5480 SAE ISO 3019/1

Port3)

1 BSPP 3 UNF 7 ISO 6149 85) ISO 6149

4-hole flange SAE B 4-hole flange SAE B-B

Cylindric, key Splined, SAE

Threads4) metric UNC UNC metric

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 6)

Y A B G H J

MK-PVBGxYMN MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxGMN MK-PVBGxHMN MK-PVBGxJMN

SAE AA, Ø 50.8 mm SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm metric, Ø 63 mm metric, Ø 80 mm metric, Ø 100 mm

See dimensions for details 6) to be ordered separately as single part x= Frame size, see displacement.

3)

Drain, gauge and flushing ports All mounting and connecting threads 5) Mounting interface, code K and L only 4)

6

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 028

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)



1) not for MT 2) only for MT

Horse power / Torque control Displacem. Code

016 028

Nominal HP at 1.500 rpm

Nominal torque



B

3 kW

20 Nm



C

4 kW

25 Nm



D E G H K

5.5 kW 7.5 kW 11 kW 15 kW 18.5 kW

35 Nm 50 Nm 71 Nm 97 Nm 120 Nm

Function

L C

Control variation



Code

Horse power control with pressure control Horse power control with load sensing (single spool)

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

7

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 032 to 046

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement

rotation size and displacement

mounting interface

variation

seals

thru drive code

control

see next page

coupling code

threads code

Code Displacement   Size

Code

032 32 cm³/rev 040 40 cm³/rev 046 46 cm³/rev



Code R

Clockwise

L

Counter clockwise

1)

Code Coupling for thru drive

as single part 6)

1 H J Y A B C D

When looked on shaft

Code

Variation

1

Standard

9

Special adjustment 2)

2)

NBR FPM NBR with PTFE shaft seal FPM with PTFE shaft seal

2 2 2

Rotation 1)

Seals

N V W P

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling 32 x 1.5 x 20, DIN 5480 MK-PVBGxK02 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14 with coupling SAE C 14T-12/24 DP MK-PVBGxK15

requires Kxxxx number Code Thru drive option

Code K L D E

Code

Mounting interface

No adaptor for 2nd pump

Shaft

T

metr. ISO 4-hole flange Ø125 mm Cylindric, key 3019/2 4-hole flange Ø125 mm Splined, DIN 5480 SAE ISO 3019/1

Port3)

1 BSPP 3 UNF 7 ISO 6149 85) ISO 6149

4-hole flange SAE C 4-hole flange SAE C

Cylindric, key Splined, SAE

Threads4) metric UNC UNC metric

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 6)

A B C G H J K

MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxCMN MK-PVBGxGMN MK-PVBGxHMN MK-PVBGxJMN MK-PVBGxKMN

SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm SAE C, Ø 127 mm metric, Ø 63 mm metric, Ø 80 mm metric, Ø 100 mm metric, Ø 125 mm

3)

Drain, gauge and flushing ports All mounting and connecting threads 5) Mounting interface, code K and L only 4)

See dimensions for details 6) to be ordered separately as single part x= Frame size, see displacement.

8

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 032 to 046

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)



1) not for MT 2) only for MT

Horse power / Torque control Displacem. Code

032 046

Nominal HP at 1.500 rpm

Nominal torque



D

5.5 kW

35 Nm



E

7.5 kW

50 Nm



G H K M S

11 kW 15 kW 18.5 kW 22 kW 30 kW

71 Nm 97 Nm 120 Nm 142 Nm 195 Nm

Function L Horse power control with pressure control C Horse power control with load sensing (single spool)

Control variation



Code

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

9

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 063 to 092

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement high pressure version

mounting interface

rotation size and displacement

variation

seals

thru drive code

compensator

see next page

coupling code

threads code

Code Displacement   Size 063   63 cm³/rev 3 080   80 cm³/rev 092   92 cm³/rev

Code

Rotation 1)

R

Clockwise

L

Counter clockwise

1)

Variation

1

Standard

9

special adjustment 2)

Seals

N V W P

NBR FPM NBR with PTFE shaft seal FPM with PTFE shaft seal

Code Coupling for thru drive

as single part 6)

3 3

1 H J K Y A B C D E F

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling 32 x 1.5 x 20, DIN 5480 MK-PVBGxK02 with coupling 40 x 1.5 x 25, DIN 5480 MK-PVBGxK03 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14 with coupling SAE C 14T-12/24 DP MK-PVBGxK15 with coupling SAE C - C MK-PVBGxK16 with coupling SAE D, E MK-PVBGxK17

requires Kxxxx number

Code K L D E

Code



When looked on shaft

Code

2)

Code

Mounting interface

Shaft

metr. ISO 4-hole flange Ø160 mm Cylindric, key 3019/2 4-hole flange Ø160 mm Splined, DIN 5480 SAE ISO 3019/1

Port3)

4-hole flange SAE D 4-hole flange SAE D

Code Thru drive option No adaptor for 2nd pump

Cylindric, key Splined, SAE

T

Threads4)

1 BSPP metric 3 UNF UNC 4 5) BSPP metr. M14 7 ISO 6149 UNC 8 ISO 6149 metric

3)

Drain, gauge and flushing ports All mounting and connecting threads 5) For PV063-PV092 only: pressure port 1 1/4" with 4 x M14 instead of 4 x M12 4)

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 6)



MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxCMN MK-PVBGxDMN MK-PVBGxGMN MK-PVBGxHMN MK-PVBGxJMN MK-PVBGxKMN MK-PVBGxLMN

A B C D G H J K L

SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm SAE C, Ø 127 mm SAE D, Ø 152,4 mm metric, Ø 63 mm metric, Ø 80 mm metric, Ø 100 mm metric, Ø 125 mm metric, Ø 160 mm

See dimensions for details 6) to be ordered separately as single part x= Frame size, see displacement.

10

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 063 to 092

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)

1) not for MT 2) only for MT



Horse power / Torque control Displacem. Code

063 092

Nominal HP at 1.500 rpm

Nominal torque



G

11 kW



H

15 kW

97 Nm

K M S T U W Function

18.5 kW 22kW 30 kW 37 kW 45 kW 55 kW

120 Nm 142 Nm 195 Nm 240 Nm 290 Nm 355 Nm



L C

Horse power control with pressure control Horse power control with load sensing (single spool)

Control variation



Code

71 Nm

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

11

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 140 to 180

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement

rotation size and displacement

mounting interface

variation

seals

thru drive code

control

see next page

coupling code

threads code

Code

Code Displacement   Size 140 140 cm³/rev 180 180 cm³/rev

Rotation

Code

Clockwise

L

Counter clockwise

When looked on shaft

Code

Variation

1

Standard

9

Special adjustment 2)

2)

requires Kxxxx number

Code K L

Code Coupling for thru drive

as single part 7)

Mounting interface

1 H J K L Y A B C D E F G

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling 32 x 1.5 x 20, DIN 5480 MK-PVBGxK02 with coupling 40 x 1.5 x 25, DIN 5480 MK-PVBGxK03 with coupling 50 x 2 x 24, DIN 5480 MK-PVBGxK04 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14 with coupling SAE C 14T-12/24 DP MK-PVBGxK15 with coupling SAE C - C MK-PVBGxK16 with coupling SAE D, E MK-PVBGxK17 with coupling SAE F MK-PVBGxK18

Shaft

metr. ISO 4-hole flange Ø160 mm Cylindric, key 3019/2 4-hole flange Ø160 mm Splined, DIN 5480

D SAE E ISO 3019/1 F G Code

NBR FPM NBR with PTFE shaft seal FPM with PTFE shaft seal



1)

Seals

N V W P

4 4

R 1)



Port3)

4-hole flange SAE D 4-hole flange SAE D-F

Cylindric, key Splined, SAE

4-hole flange SAE D 4-hole flange SAE D

Cylindric, key Splined, SAE

Code Thru drive option No adaptor for 2nd pump T

Threads4)

1 BSPP metric 3 UNF UNC 4 5) BSPP metr. M14 7 ISO 6149 UNC 8 6) ISO 6149 metric

3) Drain,

gauge and flushing ports mounting and connecting threads 5) Pressure port 1 1/4" with 4 x M14 instead of 4 x M12

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 7)

A B C D H J K L

MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxCMN MK-PVBGxDMN MK-PVBGxHMN MK-PVBGxJMN MK-PVBGxKMN MK-PVBGxLMN

SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm SAE C, Ø 127 mm SAE D, Ø 152.4 mm metric, Ø 80 mm metric, Ø 100 mm metric, Ø 125 mm metric, Ø 160 mm

4) All

6) Mounting

See dimensions for details 7) to be ordered separately as single part x= Frame size, see displacement.

interface, code K and L only

12

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 140 to 180

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)



1) not for MT 2) only for MT

Horse power / Torque control Displacem. Code

140 180

Nominal HP at 1.500 rpm

Nominal torque



K

18.5 kW

120 Nm



M

22 kW

142 Nm



S T U W Y Z 2

30 kW 37 kW 45 kW 55 kW 75 kW 90 kW 110 kW

195 Nm 240 Nm 290 Nm 355 Nm 485 Nm 585 Nm 715 Nm

Function

L C

Control variation



Code

Horse power control with pressure control Horse power control with load sensing (single spool)

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

13

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 270

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement high pressure version

rotation size and displacement

mounting interface

variation

seals

thru drive code

compensator

see next page

coupling code

threads code

Code

Seals

N V W P

NBR FPM NBR with PTFE shaft seal FPM with PTFE shaft seal

Rotation 1)

Code Coupling for thru drive

as single part 6)

R

Clockwise

L

Counter clockwise



Code Displacement   Size 270 270 cm³/rev

Code

1)

When looked on shaft

Code

Variation

1

Standard

9

special adjustment 2)

2)

5

requires Kxxxx number

Code K L D E

Mounting interface

4-hole flange SAE E 4-hole flange SAE E-F

Code

Port4)

Threads5)



1 3 7 8

BSPP UNF ISO 6149 ISO 6149

metric UNC UNC metric

4)

Drain, gauge and flushing ports All mounting and connecting threads

5)

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling 32 x 1.5 x 20, DIN 5480 MK-PVBGxK02 with coupling 40 x 1.5 x 25, DIN 5480 MK-PVBGxK03 with coupling 50 x 2 x 24, DIN 5480 MK-PVBGxK04 with coupling 60 x 2 x 28, DIN 5480 MK-PVBGxK05 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14 with coupling SAE C 14T-12/24 DP MK-PVBGxK15 with coupling SAE C - C MK-PVBGxK16 with coupling SAE D, E MK-PVBGxK17

Shaft

metr. ISO 4-hole flange Ø200 mm Cylindric, key 3019/2 4-hole flange Ø200 mm Splined, DIN 5480 SAE ISO 3019/1

1 H J K L M Y A B C D E F

Code Thru drive option No adaptor for 2nd pump

Cylindric, key Splined, SAE

T

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 6)



MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxCMN MK-PVBGxDMN MK-PVBGxEMN MK-PVBGxHMN MK-PVBGxJMN MK-PVBGxKMN MK-PVBGxLMN MK-PVBGxMMN

A B C D E H J K L M

SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm SAE C, Ø 127 mm SAE D, Ø 152,4 mm SAE E, Ø 165,1 mm metric, Ø 80 mm metric, Ø 100 mm metric, Ø 125 mm metric, Ø 160 mm metric, Ø 200 mm

See dimensions for details 6) to be ordered separately as single part x= Frame size, see displacement.

14

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 270

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)

1) not for MT 2) only for MT



Horse power / Torque control Displacem. Code

270

Nominal HP at 1.500 rpm

Nominal torque



T

37 kW

240 Nm



U

45 kW

290 Nm



W

55 kW

350 Nm



Y Z 2 3

75 kW 90 kW 110 kW 132 kW

480 Nm 580 Nm 700 Nm 840 Nm

Function

L C

Control variation



Code

Horse power control with pressure control Horse power control with load sensing (single spool)

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

15

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 360

Catalogue HY30-3245/UK

Ordering Code

PV

R 1 K 1 T 1 N

axial piston pump variable displacement

rotation size and displacement

mounting interface

variation

seals

thru drive code

control

see next page

coupling code

threads code

Code Displacement   Size

Code

Seals

360 360 cm³/rev

N V

NBR FPM

5

as single part 6)

Code Coupling for thru drive

Code

Rotation 1)

R

Clockwise

1)

When looked on shaft

Code

Variation

1

Standard

9

Special adjustment 2)

2)



Mounting interface

Shaft

K 4-hole flange Ø250 mm Cylindric, key L metr. ISO 4-hole flange Ø250 mm Splined, DIN 5480

Code Thru drive option

R 3019/2 4-hole flange Ø224 mm Cylindric, key T 4-hole flange Ø224 mm Splined, DIN 5480 D E

SAE ISO 3019/1

4-hole flange SAE E 4-hole flange SAE E

Code

Port3)

Threads4)

1 3

BSPP UNF

metric UNC

4)

Single pump, no coupling with coupling 25 x 1.5 x 15, DIN 5480 MK-PVBGxK01 with coupling 32 x 1.5 x 20, DIN 5480 MK-PVBGxK02 with coupling 40 x 1.5 x 25, DIN 5480 MK-PVBGxK03 with coupling 50 x 2 x 24, DIN 5480 MK-PVBGxK04 with coupling 60 x 2 x 28, DIN 5480 MK-PVBGxK05 with coupling 70 x 3 x 22, DIN 5480 MK-PVBGxK06 with coupling SAE A 9T-16/32 DP MK-PVBGxK11 with coupling SAE - 11T-16/32 DP MK-PVBGxK12 with coupling SAE B 13T-16/32 DP MK-PVBGxK13 with coupling SAE B-B 15T-16/32 DP MK-PVBGxK14 with coupling SAE C 14T-12/24 DP MK-PVBGxK15 with coupling SAE C - C MK-PVBGxK16 with coupling SAE D, E MK-PVBGxK17 with coupling SAE F MK-PVBGxK18

requires Kxxxx number

Code

3)

1 H J K L M P Y A B C D E F G

No adaptor for 2nd pump T

Cylindric, key Splined, SAE

Drain, gauge and flushing ports All mounting and connecting threads

Single pump prepared for thru drive

with adaptor for 2nd pump

as single part 6)



MK-PVBGxAMN MK-PVBGxBMN MK-PVBGxCMN MK-PVBGxDMN MK-PVBGxEMN MK-PVBGxHMN MK-PVBGxJMN MK-PVBGxKMN MK-PVBGxLMN MK-PVBGxMMN

A B C D E H J K L M

SAE A, Ø 82.55 mm SAE B, Ø 101.6 mm SAE C, Ø 127 mm SAE D, Ø 152.4 mm SAE E, Ø 165.1 mm metric, Ø 80 mm metric, Ø 100 mm metric, Ø 125 mm metric, Ø 160 mm metric, Ø 200 mm

See dimensions for details 6) to be ordered separately as single part x= Frame size, see displacement.

16

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 360

Catalogue HY30-3245/UK

Ordering Code

Code 0 0 1 1 0 0 M M M R M F M T C 1

Control options No control With cover plate, no control function Standard pressure control, integrated pilot valve Remote pressure control, integrated pilot valve Load Sensing (flow) control, integrated pilot valve Two spool LS control Control variation Standard version 1) NG6 interface top side for pilot valves

W

With unloading function, 24VDC solenoid 1)

K

Prop.-pilot valve type PVACRE..35 mounted

Z P



Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC* MT1 with mounted pilot valve PVAC1P 2)

1) not for MT 2) only for MT



Horse power / Torque control Displacem. Code

360

Nominal HP at 1.500 rpm

Nominal torque



U

45 kW

290 Nm



W

55 kW

350 Nm



Y Z 2 3 4 5 6

75 kW 90 kW 110 kW 132 kW 160 kW 180 kW 200 kW

480 Nm 580 Nm 700 Nm 840 Nm 1020 Nm 1150 Nm 1280 Nm

Function

L C

Control variation



Code

Horse power control with pressure control Horse power control with load sensing (single spool)

C 1 W K Z

Standard version NG 6 interface top side With unloading function, 24 VDC solenoid Prop.-pilot valve type PVACRE..35 mounted Without integrated pilot valve, NG6 interface, for mounting of accessory code PVAC*

Control option

electro hydraulic control F P V U P

Proportional displacement control, no pressure compensation Proportional displacement control, with pressure compensation

Control variation R pilot operated pressure control, open NG6 interface K pilot operated pressure control, proportional pilot valve type PVACRE..35 mounted M pilot operated pressure control, pressure sensor and proportional pilot valve type PVACRE..35 mounted for pressure control and/or power control

17

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Pressure Controls

Standard Pressure Control Control option MMC The standard pressure control adjusts the pump displacement according to the actual need of flow in the system in order to keep the pressure constant. Control schematics

P

S

P

A

T

P

A

T

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

MP1

On/Off valve

100 75 50 25 0

PV360

Time on-stroke [ms] against against 50 bar 350 bar 520 180

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure Control oil consumption

t on stroke

* Curve shown exaggerated

Time de-stroke [ms] zero stroke zero stroke 50 bar 350 bar 120 82

t de-stroke Response time

15 to 350 bar 50 bar 10 to 40 bar 15 bar Max 8.0 l/min

18

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Pressure Controls

Axial Piston Pump PV 016 to 360

Standard Pressure Control with NG6 Interface Control option MM1 With code MM1 the standard pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

P MP1

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

P

S

P

A

T

P

A

T

T

T

Standard Pressure Control with Electrical Unloading Control option MMW With code MMW a solenoid operated directional control valve (D1VW002KNJW) for electrical unloading is mounted on the control top side.

P

When the solenoid is de-energised, the pump compensates at a stand-by pressure of typically 15 bar. When the solenoid is energised, the pump compensates at the pressure adjusted on the integrated pilot valve.

MP1

P

S

P

A

T

P

A

T

T

T

Standard Pressure Control with Proportional Pilot Valve Control option MMK With code MMK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

P

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

MP1

P

S

P

A

T

P

A

T

T

T

Standard Pressure Control with Accessory Control option MMZ Control MMZ has no integrated pilot valve but a valve interface NG6 DIN 24340 on the top.

P

This version is recommended for valve accessories.

MP1

P

S

19

P

A

T

P

A

T

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Remote Pressure Controls Remote Pressure Control

Control option MRC The remote pressure control adjusts the pump displacement according to the actual need of flow in the system in order to keep the pressure constant at a level given by a remotely installed pilot valve. Control schematics PR

P

S

P

A

T

P

A

T

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

MP1

On/Off valve

100 75 50 25 0

PV360

Time on-stroke [ms] against against 50 bar 350 bar 520 180

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure Control oil consumption

t on stroke

* Curve shown exaggerated

Time de-stroke [ms] zero stroke zero stroke 50 bar 350 bar 120 82

t de-stroke Response time

15 to 350 bar 50 bar 10 to 40 bar 15 bar Max 8.0 l/min

20

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Remote Pressure Controls

Axial Piston Pump PV 016 to 360

Remote Pressure Control with NG6 Interface Control option MR1 With code MR1 the remote pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

PR

P

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

MP1

P

S

P

A

T

P

A

T

T

T

Remote Pressure Control with Electrical Unloading Control option MRW With code MRW a solenoid operated directional control valve (D1VW002KNJW) for electrical unloading is mounted on the control top side.

PR

P

When the solenoid is de-energised, the pump compensates at a stand-by pressure of typically 15 bar. When the solenoid is energised, the pump compensates at the pressure adjusted on the integrated pilot valve.

MP1

T

P

S

P

A

T

P

A

T

T

Remote Pressure Control with Proportional Pilot Valve Control option MRK With code MRK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

PR

P MP1

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

P

S

P

A

T

P

A

T

T

T

Remote Pressure Control with Accessory Control option MRZ Control MRZ has no integrated pilot valve but a valve interface NG6 DIN 24340 on the top.

PR

P

This version is recommended for valve accessories.

MP1

P

S

21

P

A

T

P

A

T

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Load Sensing Controls Load Sensing Control

Control option MFC The pilot pressure of the load sensing control is taken from a load sensing port in the hydraulic system. It is used to match pump flow to system demands. Control schematics PF

P

S

P

A

T

P

A

T

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

MP1

Load valve

100 75 50 25 0

PV360

Time on-stroke [ms] stand-by stand-by to 50 bar to 350 bar 500 690

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure Control oil consumption

t on stroke

t de-stroke Response time

* Curve shown exaggerated

Time de-stroke [ms] 50 bar to 350 bar to stand-by stand-by 830 50 15 to 350 bar 50 bar 10 to 40 bar 10 bar Max 8.0 l/min

22

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Load Sensing Controls

Axial Piston Pump PV 016 to 360

Load Sensing Control with NG6 Interface Control option MF1 With code MF1 the remote pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

PF

P

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

MP1

P

S

P

A

T

P

A

T

T

T

Load Sensing Control with Electrical Unloading Control option MFW With code MFW a solenoid operated directional control valve (D1VW002KNJW) for electrical unloading is mounted on the control top side.

PF

P

When the solenoid is de-energised, the pump compensates at a stand-by pressure of typically 15 bar. When the solenoid is energised, the pump compensates at the pressure adjusted on the integrated pilot valve.

MP1

P

S

P

A

T

P

A

T

T

T

Load Sensing Control with Proportional Pilot Valve Control option MFK With code MFK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

PF

P

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

MP1

P

S

P

A

T

P

A

T

T

T

Load Sensing Control with Accessory Control option MFZ Control MFZ has no integrated pilot valve but a valve interface NG6 DIN 24340 on the top.

PF

P

This version is recommended for valve accessories.

MP1

P

S

23

P

A

T

P

A

T

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Load Sensing Controls 2 Spool Load Sensing Control

Control option MTP The pilot pressure of the load sensing control is taken from a load sensing port in the hydraulic system. It is used to match pump flow to system demands. With the 2 spool control the interaction of the two control functions is avoided by using two separate control valves for flow and pressure compensation. Control schematics PF

P

Q

MP1 P

A

T

A

T

p

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

S

P P

T

Load valve

100 75 50 25 0

PV360

Time on-stroke [ms] stand-by stand-by to 50 bar to 350 bar 920 670

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure load sensing Factory setting differential pressure, pressure control Control oil consumption

Time de-stroke [ms] 50 bar to 350 bar to stand-by stand-by 1000 170

t on stroke

* Curve shown exaggerated

t de-stroke Response time

15 to 350 bar 50 bar 10 to 40 bar 10 bar 15 bar Max 8.0 l/min

24

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Load Sensing Controls

Axial Piston Pump PV 016 to 360

2 Spool Load Sensing Control with NG6 Interface Control option MT1 With code MT1 the remote pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

PF

P

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

MP1 P

S

P

A

T

P

A

T

T

T

2 Spool Load Sensing Control with Proportional Pilot Valve Control option MTK With code MTK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

PF

P

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

MP1 P

S

P

A

T

P

A

T

T

T

2 Spool Load Sensing Control with Accessory Control option MTZ Control MTZ has a valve accessory factory mounted on the NG6 interface.

PF

P

Available valve accessory can be seen on page 33. Specify the accessory with full ordering code. MP1 P

S

25

P

A

T

P

A

T

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Horse Power/Torque Controls

Horse Power/Torque Controls with Pressure Control

Control option *LC The horse power control type *L* provides the benefit of the pressure control, plus the ability to limit the input power the pump will draw. These controls are beneficial when the power available from the prime mover for the hydraulics is limited or the application power demand has both high flow/low pressure and low flow/high pressure duty cycles. Control schematics

P

S

P

A

L

T

P

A

L

T

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

MP1

Load valve

100 75 50 25 0

PV360

Time on-stroke [ms] against against 50 bar 350 bar 90 90

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure Control oil consumption

t de-stroke Response time

* Curve shown exaggerated

Time de-stroke [ms] zero stroke zero stroke 50 bar 350 bar 100 100 15 to 350 bar 350 bar 10 to 40 bar 15 bar Max 8.0 l/min

t on stroke

See Horse Power characteristic curves on page 24

26

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Horse Power/Torque Controls

Axial Piston Pump PV 016 to 360

Horse Power/Torque Control with NG6 Interface Control option *L1 With code *L1 the remote pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

P MP1

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

T

P

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Electrical Unloading Control option *LW With code *LW a solenoid operated directional control valve (D1VW002KNJW) for electrical unloading is mounted on the control top side.

P MP1

When the solenoid is de-energised, the pump compensates at a stand-by pressure of typically 15 bar. When the solenoid is energised, the pump compensates at the pressure adjusted on the integrated pilot valve.

T

P

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Proportional Pilot Valve Control option *LK With code *LK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

P MP1

T

P

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Accessory Control option *LZ Control *LZ has no integrated pilot valve but a valve interface NG6 DIN 24340 on the top.

P

This version is recommended for valve accessories.

MP1

S

27

T

P

P

A

L

T

P

A

L

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Horse Power/Torque Controls

Horse Power/Torque Controls with Load Sensing Control option *CC The horse power control type *C* provides the benefit of the load sensing control, plus the ability to limit the input power the pump will draw. These controls are beneficial when the power available from the prime mover for the hydraulics is limited or the application power demand has both high flow/low pressure and low flow/high pressure duty cycles. Control schematics PF

P

S

P

A

L

T

P

A

L

T

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

MP1

Load valve

100 75 50 25 0

PV360

Time on-stroke [ms] stand-by stand-by to 50 bar to 350 bar 90 90

Pressure adjustment range Factory setting pressure Differential pressure adjustment range Factory setting differential pressure Control oil consumption

t de-stroke Response time

* Curve shown exaggerated

Time de-stroke [ms] 50 bar to 350 bar to stand-by stand-by 100 100 15 to 350 bar 350 bar 10 to 40 bar 15 bar Max 8.0 l/min

t on stroke

See Horse Power characteristic curves on page 24

28

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Horse Power/Torque Controls

Axial Piston Pump PV 016 to 360

Horse Power/Torque Control with NG6 Interface Control option *C1 With code *C1 the remote pressure control has a valve interface size NG 6 DIN 24340 (CETOP 03 acc. RP35H, NFPA D03) on the top side.

PF

P

This interface allows the mounting of accessories like multiple pressure selectors without the need of external piping and valve mounting.

MP1

T

P

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Electrical Unloading Control option *CW With code *CW a solenoid operated directional control valve (D1VW002KNJW) for electrical unloading is mounted on the control top side.

PF

P

When the solenoid is de-energised, the pump compensates at a stand-by pressure of typically 15 bar. When the solenoid is energised, the pump compensates at the pressure adjusted on the integrated pilot valve.

MP1

T

P

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Proportional Pilot Valve Control option *CK With code *CK a proportional pilot valve of type PVACRE..35 (see page 35) is mounted on the top side interface.

PF

P

This allows a variation of the pump compensating pressure between 20 and 350 bar by an electrical signal.

MP1

T

P

S

P

A

L

T

P

A

L

T

T

Horse Power/Torque Control with Accessory PF

Control option *CZ Control *CZ has no integrated pilot valve but a valve interface NG6 DIN 24340 on the top.

P

This version is recommended for valve accessories.

MP1

S

29

T

P

P

A

L

T

P

A

L

T

T

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 140

Catalogue HY30-3245/UK

Performance Curves

45

PV028 PV023 PV020 PV016

40 35

Flow rate Q [l/min]

Flow rate Q [l/min]

Typical Horse Power/Torque Control Characteristics 70

PV046 PV040 PV032

60

50 3 S= 0

30

kW

15

30

kW

kW

150

200

300

250

Pressure p [bar]

120

W

=5

100

5

Z=

160 140

90

kW

37

kW M kW K= =22 18 k ,5 W kW 30

80 60 40

kW

T=

S=

kW

100

20 0 0

PV140

180

120

kW

350

Pressure p [bar]

kW

45

300

250

210 200

45

kW KK== M=2 1188 2 H= .,55 k kW 15 kW W G= 11 kW kW

kW

200

5

37

150

75

T=

100

kW

U=

30

50

W

=5

S=

U=

kW

0

2k

kW

kW

W

80

0

350

PV092 PV080 PV063

40

kW

W

140

60

5.5

10

Flow rate Q [l/min]

100

D=

kW

7.5

Y=

Flow rate Q [l/min]

50

5.5

kW

0

kW

11

E=

5

4

3k

5 0

C=

B=

7.

E=

10

D=

G=

20

.5

kW

11

15

=2

18

15 H=

G=

M

K=

kW

H=

20

40

.5 18 K=

25

20 50

100

150

200

250

300

0

350

Pressure p [bar]

0

50

100

150

200

250

300

350

Pressure p [bar]

30

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 180 to 360

Catalogue HY30-3245/UK

Performance Curves

300

425

270 240

2=

Z=

210 180

U=

150

45

=5

5

S= T=3 kW 30 7 k M kW W =2 2 kW

120 90 60

11

0

kW

kW

kW

350 300

50

100

150

75

150

250

300

350

0

Pressure p [bar]

90

kW

13

11 0

kW

2

kW kW

W= U= 55 k T= 45 k W 37 W kW

100

200

Z=

Y=

50 0

3=

2=

200

30 0

PV270

250

kW

W

90

Flow rate Q [l/min]

PV180

75 Y=

Flow rate Q [l/min]

Typical Horse Power/Torque Control Characteristics

0

50

100

150

200

250

300

350

Flow rate Q [l/min

Pressure p [bar]

550 PV360

500 450

6= 2 5= 00 4= 18 kW 0 16 0 k kW 3= W 13 2k 2= 11 W 0k Z= W 90 kW Y= 75 kW W= 55 U= 45 kW kW

400 350 300 250 200 150 100 50 0

0

50

100

150

200

250

300 350 Pressure p [bar]

Speed Temperature Fluid Viscosity Pressure

31

: n = 1500 rev/min : t = 50 °C : HLP, ISO VG46 : ν = 46 mm2/s at 40 °C : Maximum 350 bar, depending on HP level

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Electronic P/Q Controls Proportional Displacement Control

Control option FPV The proportional displacement control allows the adjustment of the pumps output flow with an electrical input signal. The actual displacement of the pump is monitored by an LVDT and compared with the commanded displacement in an electronic control module PQDXXA-Z00. The command is given as an electrical input signal (0 - 10 V) from the supervising machine control or a potentiometer. Version FPV of the proportional control does not provide a pressure compensation. The hydraulic circuit must be protected by a pressure relief valve. Control schematics

Q

MP1 P

8

P

A

T

P

A

T

UQ

6

p

= FPV included

T

Response times of the pump are collected from a circuit as below by measuring the pumps swash angle movement at different pressures.

Dynamic characteristic of flow control * Displacement [%]

S

Load valve

100 75 50 25 0

PV360

Time on-stroke [ms] stand-by stand-by to 50 bar to 350 bar 180 100

Pressure adjustment range * Factory setting pressure * Differential pressure adjustment range * Factory setting differential pressure * Control oil consumption

t on stroke

* Curve shown exaggerated

Time de-stroke [ms] 50 bar to 350 bar to stand-by stand-by 330 240 25 to 350 bar 50 bar 10 to 40 bar 15 bar Max 8.0 l/min

t de-stroke Response time

Internal pilot pressure required to control the pump FPV UPR UPK UPM

15 bar 25 bar 25 bar 25 bar

* Data valid for UP* version 32

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Electronic P/Q Controls

Axial Piston Pump PV 016 to 360

Proportional Displacement Control with Overriding Pressure Control Control option UPR Control version UPR provides electro- hydraulic displacement control and pressure stage mounted on an elbow manifold.

P

T

The elbow manifold provides NG6/D03 interface on top to mount a pressure pilot valve (not included in UPR).

MP1 P

8

S

P

A

T

P

A

T

6

T

Proportional Displacement Control with Proportional Pressure Control Control option UPK When using a proportional pressure pilot valve an electro-hydraulic p/Q control can be realized. The proportional pressure pilot valve PVACRE..35 is included in control version UPK.

P

T MP1 P

By using the digital module PQDXXA-Z00 it is possible to control the displacement proportionally with overriding open loop proportional pressure control.

8

S

P

A

T

P

A

T

6

T

Proportional Displacement Control with Closed Loop Pressure Control Control option UPM Control version UPM is completed by a pressure transducer Parker SCP 8181 CE. In combination with control module PQDXXA-Z00 a closed loop pressure control of pump outlet pressure is available.

P 3 8

T MP1 P

The control module also offers an electronic power limiter in addition to closed loop pressure control with this control option.

8

S

P

A

T

P

A

T

6

T

Q

UQ UP

p = UPM included

33

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 028

Catalogue HY30-3245/UK

Efficiency and Case Drain Flows

100

vol. efficiency

output flow

overall efficiency

16

80

12

15

60

8

10

ull

tf

ra we po

ut

inp

w flo 40

4

5

20

dhead

er at dea input pow 0

0

0

100

200

0

300 Pressure [bar]

Efficiency and case drain flows PV016, PV020, PV023 and PV028 The efficiency and power graphs are measured at an input speed of n = 1500 rpm, a temperature of 50 °C and a fluid viscosity of 30 mm2/s. Case drain flow and compensator control flow leave via the drain port of the pump. To the values shown are to be added 1 to 1.2 l/min , if at pilot operated compensators the control flow of the pressure pilot valve also goes through the pump. Please note: The values shown below are only valid for static operation. Under dynamic conditions and at rapid compensation of the pump the volume displaced by the servo piston also leaves the case drain port. This dynamic control flow can reach up to 40 l/min! Therefore the case drain line is to lead to the reservoir at full size and without restrictions as short and direct as possible. Case drain flow PV016-028 with pressure ­compensator (MMC)

overall efficiency 20

80

15

60

ull

er ow

10

12

f at

w flo 40

p ut

inp

0

0

100

200

full flow

0

0

300 Pressure [bar]

300

200

100

Pressure [bar]

5

0

20

0

100

20

10

10

5

at deadhead 200

300 Pressure [bar]

Efficiency [%] (overall, volymetric)

40

60

ow

f

15

80

40

l fl

t

u np

at

output flow

20

30

100

vol. efficiency

ul

10

r we o p

60

l fl ul

40

25

fficienc y

ow

15

50

ra tf

overall efficiency output flow 80

20

input power 0

0

overall e

100

25 vol. efficiency

i 8

dead head

0

0

34

0 0

in pu tp ow e

16

6

2

Efficiency [%] (overall, volymetric)

24

8

PV028 Input power [kW]

Output flow [l/min]

32

10

at deadhead

PV023 40

12

20

input power 0

14

4

5

6

Drain flow [l/min]

18

ficiency

Output flow [l/min]

24

100

25 outp ut flow, vol. ef

Efficiency [%] (overall, volymetric)

30

Input power [kW]

Output flow [l/min]

PV020

Input power [kW]

20

20

Efficiency [%] (overall, volymetric)

25

Input power [kW]

Output flow [l/min]

Efficiency, power consumption PV016

20

ad

at deadhe input power 100

200

320 Pressure [bar]

Parker Hannifin Pump and Motor Division Chemnitz, Germany

0

Axial Piston Pump PV 032 to 046

Catalogue HY30-3245/UK

Efficiency and Case Drain Flows

30

output flow

overall efficiency

32

24

20

ow ll fl

u

tf

ut

inp

ra we o p

40

8

20

r at

input powe 0

0 0

80

60

16

10

100

100

deadhead 0 300 350 Pressure [bar]

200

Case drain flow PV032-046 with pressure ­compensator (MMC)

48

36

40

100

output flow, vol. effi

ciency overall efficiency

32

24

60

ll fl

24

80

u tf

ow

ra

e ow

16

40

p ut

inp 12

8

0 0

200

12 10

6

dead head

4 full flow

2

at deadhead

100

14

8

20

input power 0

Efficiency [%] (overall, volymetric)

60

Input power [kW]

Output flow [l/min]

PV040

Drain flow [l/min]

40

vol. efficiency

40

Efficiency and case drain flows PV032 to PV046 The efficiency and power graphs are measured at an input speed of n = 1500 rpm, a temperature of 50 °C and a fluid viscosity of 30 mm2/s. Case drain flow and compensator control flow leave via the drain port of the pump. To the values shown are to be added 1 to 1.2 l/min , if at pilot operated compensators the control flow of the pressure pilot valve also goes through the pump. Please note: The values shown below are only valid for static operation. Under dynamic conditions and at rapid compensation of the pump the volume displaced by the servo piston also leaves the case drain port. This dynamic control flow can reach up to 60 l/min! Therefore the case drain line is to lead to the reservoir at full size and without restrictions as short and direct as possible.

Efficiency [%] (overall, volymetric)

50

Input power [kW]

Output flow [l/min]

Efficiency, power consumption PV032

300 350 Pressure [bar]

0

0 0

100

200

300

Pressure [bar]

64

48

32

50

0

overall efficiency

output flow

40

30

20

er ow

at

80

ow

60

l fl

l fu

40

tp

pu

in 16

100

vol. efficiency

10

0 0

Efficiency [%] (overall, volymetric)

80

Input power [kW]

Output flow [l/min]

PV046

20

input power 100

at deadhead 200

300 350 Pressure [bar]

0

35

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 063 to 092

Catalogue HY30-3245/UK

Efficiency and Case Drain Flows

overall efficiency

56

t

pu

in 20

14

0

0

60

ow

28

40

r we po

at

l fl ul

f

40

Input power [kW]

Output flow [l/min]

96

0

100

200

80

300 Pressure [bar]

l. efficiency

overall efficiency 64

80

ow

ll fl

60

u tf

32

48

t

pu

in

ra we o p

40

16

24

0

100

output flow, vo

48

72

20

eadhead wer at d input po

PV080 120

80

Case drain flows PV063-092 Drain flow [l/min]

output flow

42

60

100

vol. efficiency

Efficiency [%] (overall, volymetric)

80

70

Efficiency and case drain flows PV063, PV080, PV092 The efficiency and power graphs are measured at an input speed of n = 1500 rpm, a temperature of 50 °C and a fluid viscosity of 30 mm2/s. Case drain flow and compensator control flow leave via the drain port of the pump. To the values shown are to be added 1 to 1.2 l/min , if at pilot operated compensators (codes FR*, FF*, FT*, power compensator and p-Qcontrol) the control flow of the pressure pilot valve also goes through the pump. Please note: The values shown below are only valid for static operation. Under dynamic conditions and at rapid compensation of the pump the volume displaced by the servo piston also leaves the case drain port. This dynamic control flow can reach up to 80 l/min! Therefore the case drain line is to lead to the reservoir at full size and without restrictions as short and direct as possible.

Efficiency [%] (overall, volymetric)

100

Input power [kW]

Output flow [l/min]

Efficiency, power consumption PV063

12

8 dead head

20

d

eadhea wer at d input po 0

0

100

200

300 Pressure [bar]

150

120

90

Input power [kW]

Output flow [l/min]

PV092 100

overall efficiency

80

60

60

40

30

20

er ow p t

at

0

ow

40

u

p in

80

60

l fl

l fu

full flow

0 0

100

200

300

Pressure [bar]

20

er input pow 0

100

vol. efficiency

output flow

4

0

Efficiency [%] (overall, volymetric)

0

0

100

ad at deadhe

200

300 Pressure [bar]

0

36

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 140 to 180

Catalogue HY30-3245/UK

Efficiency and Case Drain Flows

200

150

100

vol. efficiency

overall efficiency 120

output flow

80

ow

60

90

150

ll fl

60

100

t

pu

in

r we po

u tf

a

40

30

50

Efficiency and case drain flows PV140, PV180 The efficiency and power graphs are measured at an input speed of n = 1500 rpm, a temperature of 50 °C and a fluid viscosity of 30 mm2/s. Case drain flow and compensator control flow leave via the drain port of the pump. To the values shown are to be added 1 to 1.2 l/min, if at pilot operated compensators the control flow of the pressure pilot valve also goes through the pump. Please note: The values shown below are only valid for static operation. Under dynamic conditions and at rapid compensation of the pump the volume displaced by the servo piston also leaves the case drain port. This dynamic control flow can reach up to 120 l/min! Therefore the case drain line is to lead to the reservoir at full size and without restrictions as short and direct as possible.

Efficiency [%] (overall, volymetric)

250

Input power [kW]

Output flow [l/min]

Efficiency, power consumption PV140

20

at deadhead input power 100

200

180

120

60

output flow

140

105

l ul

er ow p t

f at

w flo

Case drain flows PV140-180

80

60

pu

70

0

100

vol. efficiency

fficienc y

240

175

overall e

300

Input power [kW]

Output flow [l/min]

PV180

300 Pressure [bar]

Drain flow [l/min]

0

Efficiency [%] (overall, volymetric)

0

0

18

12

dead head

40

in

35

6

20

ad

deadhe input power at 0

0

0

100

200

300 Pressure [bar]

full flow

0

0 0

37

100

200

300

Pressure [bar]

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 270

Catalogue HY30-3245/UK

Efficiency and Case Drain Flows

ow

80

150

200

100

100

50

60

0

0

tp

ow er

at

300

in

pu

40

Drain flow [l/min]

output flow

200

Efficiency [%] (overall, volymetric)

100

vol. efficiency fficiency overall e

l fl

400

250

Case drain flows PV270

fu l

500

Input power [kW]

Output flow [l/min]

Efficiency, power consumption PV270

24

16

dead head

8

20

input power at 0

100

full flow

0 0

deadhead

200

300 Pressure [bar]

0

100

200

300

Pressure [bar]

Efficiency and case drain flows PV270 The efficiency and power graphs are measured at an input speed of n = 1500 rpm, a temperature of 50 °C and a fluid viscosity of 30 mm2/s. Case drain flow and compensator control flow leave via the drain port of the pump. To the values shown are to be added 1 to 1.2 l/min , if at pilot operated compensators (codes FR*, FF*, FT*, power compensator and p-Qcontrol) the control flow of the pressure pilot valve also goes through the pump. Please note: The values shown below are only valid for static operation. Under dynamic conditions and at rapid compensation of the pump the volume displaced by the servo piston also leaves the case drain port. This dynamic control flow can reach up to 120 l/min! Therefore the case drain line is to lead to the reservoir at full size and without restrictions as short and direct as possible.

38

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 360

Catalogue HY30-3245/UK

Performance Curves

Typical drive power at full displacement Input power – full stroke

Typical inlet characteristics vs. speed at various percentage displacements Inlet characteristics

Displacement 95% 100%

400

Input power [kW]

Self priming speed [rpm]

1850 1800 1750 1700 1650

1750 rpm

300 250

1500 rpm

200 150

1600

100

1550

50

1500 0.8

0.9

1.0

Inlet pressure [bar]

100%

0

25

50

75 100 125 150 175 200 225 250 275 300 325 350

Pressure [bar]

Typical compensated power Input power – zero stroke 35

Input power [kW]

Volumetric

90%

0

1.1

Typical efficiency at full displacement and 1500 rpm Efficiency [%]

350

Overall

30

1750 rpm 25 20

80%

1500 rpm 15 10

70%

5

60%

0

0

25 50 75 100 125 150 175 200 225 250 275 300 325 350

0

Pressure [bar]

50

75 100 125 150 175 200 225 250 275 300 325 350

Pressure [bar]

Case drain flows Drain flow [l/min]

25

40

32

24

dead head 16

8

full flow 0

0

100

200

300

360

Pressure [bar]

The curves show typical characteristics measured under following conditions: Fluid: Mineral oil ISO VG 22 at 32 °C Inlet pressure 1,0 bar (absolute), measured at inlet port. 39

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Accessories Control

AC

PV

35

Accessories Function For for PV pump controls series Code 1P 1E 2P 2E 2M

Function Max. pressure relief 1 pressure, electrical unloading stand by default 2 pressures, electrical selection 2 pressures + stand by electrical selection low pressure default 2 pressures + stand by electrical selection stand by default

Threads

Mounting bolts

Code M S

Code

Adjustment Solenoid Solenoid Nominal acces- pressure sories 350 bar

Seals

Threads

Code Solenoid accessories

Metric SAE / UNC Code

Seals

N V

NBR FPM

Mounting bolts

C S M

For single controls Without bolts For code UP*/MT*

Dimensions PVAC1P*

omit

For function 1P

W

DIN plug socket without plug

Code

Solenoid voltage

omit

For function 1P

Code

Adjustment

Y

110V/50Hz - 120V/60Hz

S

Spindle with lock nut

T

220V/50Hz - 240V/60Hz

J

24V DC

PVAC1E* 48

DC solenoid 205 AC solenoid 190

133

Adjustment Code S

PVAC2P*

PVAC2M*/PVAC2E* 48

48

DC solenoid 241 AC solenoid 211

High pressure

133

133

DC solenoid 205 AC solenoid 190

High pressure

Low pressure

40

Low pressure

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Catalogue HY30-3245/UK

Accessories Control

Axial Piston Pump PV 016 to 360

Schematics PVAC1P*

Schematics PVAC1E*

Schematics PVAC2P*

Schematics PVAC2M*/PVAC2E*

*2M*

41

Parker Hannifin Pump and Motor Division Chemnitz, Germany

Axial Piston Pump PV 016 to 360

Catalogue HY30-3245/UK

Accessories Control Proportional pressure relief valve PVACRE* Function When the pressure in port P exeeds the pressure setting at the solenoid, the poppet opens to port T and limits the pressure in port P to the adjusted level. The optimum performance can be achieved in combination with the digital amplifier module PCD00A-400 (see catalogue HY11-3500 for reference).

Technical data General Nominal size Mounting position Ambient temperature Weight Hydraulic Max. operating pressure Pressure stages Fluid Viscosity, recommended permitted Fluid temperature Filtration Linearity Repeatability Hysteresis

DIN NG06 / CETOP03 / NFPA D03 as desired, horizontal mounting preferred [°C] -20 ... +70 [kg] 1.8 [bar] Ports P and A up to 420; port T depressurized [bar] 350, 420 Hydraulic oil as per DIN 51524 ... 525 [cSt] / [mm²/s] 30 ... 80 [cSt] / [mm²/s] 12 ... 380 [°C] -20 ... +60 ISO 4406 (1999), 18/16/13 [%] ±2.8 [%]