Catalogue HY30-3243/UK
April 2006
Axial Piston Pump
Series PV
Variable Displacement
Axial Piston Pump
Series PV
2
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Axial Piston Pump
Series PV
3
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Table of contents
Contents Page
Introduction.....................................................................................................4
Characteristics................................................................................................5
Ordering Code................................................................................................6
Noise Levels ...................................................................................................8
Efficiency and Case Drain Flows....................................................................9
Dimensions...................................................................................................12
Mountingkits .................................................................................................20
Pump combinations
Thru Drive, Shaft Load Limitations.....................................................21
Compensators
Compensators Dimensions................................................................22
Pressure Compensators ....................................................................23
Load-Sensing Compensators.............................................................24
Power Compensators.........................................................................25
Power Compensators, Diagrams........................................................26
Electrohydraulic p-Q Control ..............................................................27
Electronic Module PQDXXA (digital)..................................................28
General Installation Information....................................................................29
Axial Piston Pump
Series PV
4
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Pump with Standard Pressure Compensator, code F*S Pump with Load-Sensing Compensator, code FFC
Pump with Power Compensator, code *LB Pump with Electrohydr. Displacement Control, code FPV
With thru drive for single and multiple pumps
Swash plate type for open circuit
p
Q
PL
S
L
A
P
1
P
M
L
A
P
1
= included
p
Q
PL
S
L
A
P
1
P
M
L
A
P
1
P
F
Ø0,8
= included
p
Q
P
L
S
L
A
P
1
P
L
P
M
L
A
P
1
P
P
= included
P
L
S
L
A
P
1
P
M
s
U
L
A
P
1
U
Q
p
Q
U
Q
= included
Technical Features
• Mounting interface according to VDMA-standards
sheet 24560 part 1
• Standard: 4-hole flange ISO 3019/2 (metric)
• Large servo piston with strong bias spring achieves
fast response; e.g. for PV042
upstroke < 75 ms
downstroke < 45 ms
Note: Follow installation instructions.
• Reduced pressure peaks due to active decompression
of system at downstroke
• Also at low system pressure reliable compensator
operation. Lowest compensating pressure 12-15 bar
• 9 piston and precompression technology (precom-
pression volume) result in unbeaten low outlet flow
pulsation.
• Rigid and FEM-optimized body design for lowest noise
level
• Complete compensator program
• Thru drive for 100% nominal torque
Introduction
Axial Piston Pump
Series PV
5
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Displacement [cm
3
/rev] from 16 to 270
Operating pressures
Outlet
[bar] nominal pressure p
N
350
[bar] max. pressure p
max.
420
1)
[bar] drain port 2
2)
Inlet min. [bar] 0.8 (absolute)
max.
[bar] 16
Minimum speed [min
-1
] 300 min
-1
Mounting interface 4-hole flange ISO 3019/2
Installation drain port as high as possible
Pump with Standard Pressure Comp.
Pump with Power Comp.
Combination PV/PV Combination PV/PGP
Selection table
Model Max. displacement Output flow Input power at Max speed * Moment of Weight
[cm
3
/rev] at 1500 min
-1
[l/min] 1500 min
-1
and 350 bar [kW] [min
-1
] inertia [kgm²] [kg]
* The maximum speed ratings are shown for an inlet pressure of 1 bar (absolute) and for a fluid viscosity of N = 30 mm²/s.
Technical data
1)
max. 20% of working cycle
2)
peak pressure only
PV016 16 24 15.5
PV020 20 30 19.5 3000 0.0017 19
PV023 23 34.5 22.5
PV063 63 94.5 61.5 2800
PV080 80 120 78 2500 0.018 60
PV092 92 138 89.5 2300
PV140 140 210 136 2400
PV180 180 270 175 2200
0.030 90
PV270 270 405 263 1800 0.098 172
Characteristics
Axial Piston Pump
Series PV
6
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Code 2nd pump option
7)
1 Single pump, no 2nd pump
and coupling
2 PV140 or PV180 mounted
3 PV or PVM pump mounted
4 Gear pump series PGP mounted
Code Variation
1 Standard
9 Reduced displace-
ment adjusted
2)
Code Displacement
016 1
6 cm³/rev
020 20 cm³/rev
023 23 cm³/rev
063 63 cm³/rev
080 80 cm³/rev
092 92 cm³/rev
140 140 cm³/rev
180 180 cm³/rev
270 270 cm³/rev
PV
Code Rotation
1)
R Clockwise
L Counter clockwise
1)
When looked on shaft
7)
Specify 2nd pump with full model
code
8)
Only for PV016 - PV023
9)
Only for PV032 and larger
10)
Only for PV063 and larger
11)
Only for PV270
12)
Only for PV016 - PV092
2)
For order specify displace-
ment.
Code Port
4)
Threads
5)
1 BSPP Metric
3 UNF UNC
4
6)
BSPP Metr. M14
7 ISO 6149 UNC
8 ISO 6149 Metric
1)
Code Mounting interface Shaft
D 4-hole flange Cylindric, key
E 4-hole flange Splined, SAE
F
3)
4-hole flange Cylindric, key
G
3)
4-hole flange Splined, SAE
K 4-hole flange Cylindric, key
L 4-hole flange Splined, DIN 5480
SAE
ISO
3019/1
metr. ISO
3019/2
3)
Codes F and G only for PV140/180, see dimension sheet
Code Thru drive option
no adaptor for 2nd pump
T Single pump
prepared for thru drive
With adaptor for 2nd pump
Y
8)
SAE AA, Ø 50.8mm
A SAE A, Ø 82.55mm
B SAE B, Ø 101.6mm
C
9)
SAE C, Ø 127mm
D
10)
SAE D, Ø 152.4mm
E
11)
SAE E, Ø 165.1mm
G
12)
Metric, Ø 63mm
H Metric, Ø 80mm
J Metric, Ø 100mm
K
9)
Metric, Ø 125mm
L
10)
Metric, Ø 160mm
M
11)
Metric, Ø 200mm
Seals
Axial piston
pump
variable
displacement
high
pressure
version
Size
and
displacement
2nd
pump
Compensator
see opposite page
Variation
Threads
Design
series:
Mounting
code
Thru drive
Rotation
4)
Drain, gauge and flushing ports
5)
All mounting and connecting threads
6)
For PV063-PV180 only: pressure port 1 1/4” with 4 x M14 instead of 4 x M12
Code Seals
N NBR
V FPM
E EPDM
W NBR with PTFE shaft seal
P FPM with PTFE shaft seal
S EPDM with PTFE shaft seal
Compensator
Pump
(not required
for order)
Ordering Code
Axial Piston Pump
Series PV
7
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Function
L x x x x x Power compensator
C x x x x x Power compensator
and load-sensing
Variation
A x x x x x NG6 interface top side
B x x x x x No pressure compensation
C x x x x x Adjustable
pressure compensation
D x x x x x Proportional pilot valve
PVACPP* mounted
Z x x x x x Accessories mounted
14)
13)
Not for two-valve-compensator
14)
Accessories not included, please
specify on order with full model
code.
15)
Only for Codes *FR* and *FT*
PV
CompensatorPump
Compensator
Power compensator
Code Displacement Compensator option
016 063 140 180 270 Nom. power [kW] Nom. torque
023 092 at 1500 min
-1
[Nm]
B x 3 19.5
C x 4 26
D x 5.5 36
E x 7.5 49
G x x 11 71
H x x 15 97
K x x x 18.5 120
M x x x 22 142
S x x x 30 195
T x x x x 37 240
U x x x x 45 290
W x x x x 55 355
Y x x x 75 485
Z x x x 90 585
2 x x 110 715
3 x 132 850
Standard Pressure Compensator
Code Compensator options
0 0 1 No compensator
1 0 0 With coverplate, no control function
F D S 10 - 140 bar, spindle + lock nut
F H S 40 - 210 bar, spindle + lock nut
F W S 70 - 350 bar, spindle + lock nut
Remote Compensator options
F R Remote pressure compensator
F S Variation R, for quick unload valve
F F Load-Sensing compensator
F T Two valve load-sensing compensator
Variations for Remote Compensator
C External pressure pilot
13)
1 NG6/D03 interface top side
2 Like 1 but with ext. pilot port
15)
P Pilot valve PVAC1P* mounted
D Proportional pilot valve type
PVACPP* mounted
L Pilot valve with DIN lock mounted
Z Accessory mounted
14)
Design series:
not required
for order
16)
not for *UPV
Note
Compensator differential $p is to be adjusted:
Remote pressure comp., power comp. 15 ± 1 bar
(Codes FR*, FT*, *L*, *C*, FPR, FPD, FPZ, FPG)
With quick unload manifold 12 ± 1 bar
(Codes FS*, FPS, FPT, FPP, FPE)
Load-Sensing comp. (not power comp.) 10 ± 1 bar
(Codes FF*)
The ordering code PVACPP* correspond to the
DSAE1007P07*
Electrohydraulic compensator
Code Compensator option
Pilot pressure supply
F Standard (internal), no shuttle valve
U Elbow manifold, compensator horizontal
16)
Function
P Proportional displacement control
Variation
V Standard, no pressure compensation
R Remote pressure comp. NG6 interface
Variation R, Pressure sensor and
G proportional pilot valve mounted for
pressure resp. power control
D Variation R, Proportional pilot valve
PVACPP* mounted
Z Variation R, accessories mounted
14)
S Remote pressure comp., NG6 interface
top side, for quick unload valve
Variation S, pressure sensor and
T proportional pilot valve mounted for
pressure resp. power control
Remote pressure comp., NG6 interface top
P
side, for preload and quick unload manifold
Variation P, pressure sensor and
E proportional pilot valve mounted for
pressure resp. power control
Ordering Code
Axial Piston Pump
Series PV
8
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
PV016 - PV023
PV140
PV180
PV063 - PV092 PV270
Typical sound level for single pumps, measured in unechoic chamber
according to DIN 45 635, part 1 and 26. Microphone distance 1m;
speed: n = 1500 min-1.
All data measured with mineral oil viscosity 30 mm²/s (cSt) at 50°C.
Noise Levels
Axial Piston Pump
Series PV
9
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
4
0
8
12
16
20
0
100 200 300
0
20
40
60
80
100
0
5
10
15
20
25
Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
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PV020
5
0
10
15
20
25
0
100 200 300
0
20
40
60
80
100
0
6
12
18
24
30
Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
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PV023
5
0
10
15
20
25
0
100 200 300
0
20
40
60
80
100
0
8
16
24
32
40
Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
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Efficiency and case drain flows PV016, PV020, PV023
The efficiency and power graphs are measured at an
input speed of n = 1500 min
-1
, a temperature of 50 °C
and a fluid viscosity of 30 mm
2
/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/Q-con-
trol) 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 flows PV016-023
Efficiency, power consumption
PV016
Efficiency and Case Drain Flows
Axial Piston Pump
Series PV
10
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Case drain flows PV063-092
Efficiency, power consumption
PV063
Efficiency and case drain flows PV063, PV080, PV092
The efficiency and power graphs are measured at an
input speed of n = 1500 min
-1
, a temperature of 50 °C
and a fluid viscosity of 30 mm
2
/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-Q-con-
trol) 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.
14
0
28
42
56
70
0 100 200 300
0
20
40
60
80
100
0
20
40
60
80
100
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
16
0
32
48
64
80
0 100 200 300
0
20
40
60
80
100
0
24
48
72
96
120
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
20
0
40
60
80
100
0 100 200 300
0
20
40
60
80
100
0
30
60
90
120
150
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
PV080
PV092
Efficiency and Case Drain Flows
Axial Piston Pump
Series PV
11
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Efficiency and case drain flows PV140, PV180, PV270
The efficiency and power graphs are measured at an
input speed of n = 1500 min
-1
, a temperature of 50 °C
and a fluid viscosity of 30 mm
2
/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-Q-con-
trol) 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, power consumption
PV140
Case drain flows PV140-180
30
0
60
90
120
150
0 100 200 300
0
20
40
60
80
100
0
50
100
150
200
250
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
35
0
70
105
140
175
0 100 200 300
0
20
40
60
80
100
0
60
120
180
240
300
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
50
0
100
150
200
250
0 100 200 300
0
20
40
60
80
100
0
100
200
300
400
500
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Pressure [bar]
Efficiency [%] (overall, volumetric)
Input power [kW]
Output flow [l/min]
PV180
PV270
Case drain flows PV270
Efficiency and Case Drain Flows
Axial Piston Pump
Series PV
12
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
PV016 - 023, metric version
10
9
9
52
13
32
197.5
max. 212
Ø 25
k6
16.5
16.5
132
max. 133
80
140
125
12
22
170.5
162
89
28
-0.25
48
55
15
58.7
30.2
32
19
23.8
50.8
Ø 100
h8
43
127
Ø 100
h8
120
94
key 8 x 7 x 40
DIN 6885
thread M10 - 22 deep
X
View X
flushing port L3; G 3/8
optional M 18 x 1.5; ISO 6149-1
(threads options 7 and 8)
oder 3/4 - 16 UNF
(3)threads option
mounting option L
splined shaft W 25 x 1.5 x 15 x 8f DIN 5480
The pump shown above has
and (prepared for thru drive).
mounting option K
thru drive option T
4 x M10, 18 deep
optional 3/8 - 16 UNC - 2B
( 3 and 7)threads options
Outlet:
flange according ISO 6162
DN 19; PN 400 bar
4 x M10, 18 deep
optional 7/16 - 14 UNC - 2B
( 3 and 7)threads options
Inlet:
flange according ISO 6162
DN 32; PN 250 bar
gage port M; G1/4
optional M 12 x 1.5; ISO 6149-1
( 7 and 8)
oder 7/16 - 20 UNF
(3)
threads options
threads option
drain port L2; G1/2
optional M 22 x 1.5; ISO 6149-1
(threads options 7 and 8)
or 7/8 - 14 UNF
(3)threads option
drain port L1,
dimensions see L2
Shown with standard pressure compensator
mounting hole for
horse power compensator pilot
or displacement feedback LVDT
Shown is a clockwise rotating pump. Counter clockwise rotating pumps have inlet, outlet and gauge ports reversed.
For further information about flanges see catalogue No. 4039/UK „Pressure Hydraulic Flanges“ (on request).
Dimensions
Axial Piston Pump
Series PV
13
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Dimension H and available couplings see page 24.
At threads options 3 and 7 the dimensions E and G are UNC - 2B
threads.
Thru shaft adaptors are available with the following dimensions:
AB C D E F G
63 10 85 - M8 100 M8
80 10 103 - M8 109 M10
100 10.5 125 - M10 - -
50.8 10 - - - 82 M8
82.55 10 - - - 106 M10
101.6 10.5 - 89.8 M12 - -
Variation with thru drive
C
E
D
F
G
A
B
197.5
225
47.5
H
drive output: splined shaft
13T-16/32 DP, flat root, side fit
ANSI B92.1
Dimensions
PV016 - 023, SAE version and thru drive
Ø 25.4
-0.05
28.17±0.13
Ø 101.6
-0.05
9.4
8
42
50
44.9
89.8
89.8
44.9
46
Ø 101.6
-0.05
thread
3/8-16 UNC-2B
22 deep
mounting option E
splined shaft 15T 16/32 DP, flat root, side fit
ANSI B92.1
Shown above is mounting option D
key
6.35 x 6.35
40 long
13.5
Axial Piston Pump
Series PV
14
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
PV063 - 092, metric version
Shown is a clockwise rotating pump. Counter clockwise rotating pumps have inlet, outlet and gauge ports reversed.
For further information about flanges see catalogue No. 4039/UK „Pressure Hydraulic Flanges“ (on request).
Dimensions
Axial Piston Pump
Series PV
15
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Thru shaft adaptors are available with the following dimensions:
ABC D E F G K L
63 10 85 - M8 100 M8 58 326
80 10 103 - M8 109 M10 58 326
100 12 125 - M10 140 M12 58 326
125 12 160 - M12 180 M16 58 326
160 12 200 - M16 - - 58 326
82.55 10 - - - 106 M10 58 326
101.6 12 - 89.8 M12 146 M12 58 326
127 14 - 114.5 M12 181 M16 58 326
152.4 14 - 161.6 M16 - - 78 346
287
C
D
E
F
G
A
B
L
K
H
drive output: splined shaft
W 32 x 1.5 x 20 x 8f DIN5480
Dimension H and available couplings see page 24.
At threads options 3 and 7 the dimensions E and G are UNC - 2B
threads.
Variation with thru drive
Dimensions
PV063 - 092, SAE version and thru drive version
Axial Piston Pump
Series PV
16
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
9
10
204
158
145
200
max. 133
View X
200
flushing port L3; G 3/4
optional M 27 x 2; ISO 6149-1
(threads options 7 and 8)
oder 1 1/16 - 12 UNF
(3)threads option
Ø 160
h8
78
mounting option L
splined shaft W 50 x 2 x 24 x 9g DIN 5480
The pump shown above has
and
mounting option K
thru drive option T (prepared for thru drive).
31.8
66.6
4 x M12, 20 deep
optional 1/2 - 13 UNC - 2B
( 3 and 7)
or
M14, 22 deep)
threads options
(
threads option 4
32
Outlet:
flange according ISO 6162
DN 32; PN 400 bar
4 x M12, 20 deep
optional 1/2 - 13 UNC - 2B
( 3 and 7)threads options
64
Inlet:
flange according ISO 6162
DN 64; PN 160 bar
88.9
50.8
gage port M; G1/4
optional M 12 x 1.5; ISO 6149-1
( 7 and 8)
oder 7/16 - 20 UNF
(3)
threads options
threads option
283
233
pressure port: 295
suction port: 305
105
106
53.5
-0.25
147
Key 14 x 9 x 75
DIN 6885
Thread M16 - 36 deep
X
9
92
Ø 50
k6
Ø 160
h8
200
35
35
350
max. 385
48
drain port L2; G1
optional M 33 x 2; ISO 6149-1
(threads options 7 and 8)
or 1 5/16 - 12 UNF
(3)threads option
drain port L1
dimensions see L2
40
Shown with standard pressure compensator
mounting hole for
horse power compensator
pilot or LVDT for
displacement feedback
20
18
PV140 - 180, metric version
Shown is a clockwise rotating pump. Counter clockwise rotating pumps have inlet, outlet and gauge ports reversed.
For further information about flanges see catalogue No. 4039/UK „Pressure Hydraulic Flanges“ (on request).
Dimensions
Axial Piston Pump
Series PV
17
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Variation with thru drive
Thru shaft adaptors are available with the following dimensions:
AB C D E F G
80 10 103 - M8 109 M10
100 12 125 - M10 140 M12
125 12 160 - M12 180 M16
160 12 200 - M16 - -
82.55 10 - - - 106 M10
101.6 12 - 89.8 M12 146 M12
127 14 - 114.5 M12 181 M16
152.4 14 - 161.6 M16 - -
350
415
97
B
A
F
D
C
E
G
drive output: splined shaft
W 40 x 1.5 x 25 x 8f DIN5480
H
Dimension H and available couplings see page 24.
At threads options 3 and 7 the dimensions E and G are UNC - 2B
threads.
Dimensions
PV140 - 180, SAE version and thru drive version
Axial Piston Pump
Series PV
18
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
PV 270, metric version
Shown is a clockwise rotating pump. Counter clockwise rotating pumps have inlet, outlet and gauge ports reversed.
For further information about flanges see catalogue No. 4039/UK „Pressure Hydraulic Flanges“ (on request).
Dimensions
Axial Piston Pump
Series PV
19
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Dimension H and available couplings see page 24.
At threads options 3 and 7 the dimensions E and G are UNC - 2B
threads.
Thru shaft adaptors are available with the following dimensions:
ABCDE F G
80 8.5 103 - M8 109 M10
100 10.5 125 - M10 140 M12
125 10.5 160 - M12 180 M16
160 13.5 200 - M16 224 M20
200 13.5 250 - M20 - -
82.55 8 - - - 106 M10
101.6 11 - 89.8 M12 146 M12
127 13.5 - 114.5 M12 181 M16
152.4 13.5 - 161.6 M16 229 M20
165.1 17 - 224.5 M20 - -
H
A
B
531.5
97
D
F
E
G
C
output: splined shaft
W 50 x 2 x 24 x 9g DIN 5480
472.5
Variation with thru drive
Dimensions
PV 270, SAE version and thru drive version
Axial Piston Pump
Series PV
20
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Code Second pump, SAE
T Prepared for thru drive option (plugged)
Y SAE AA, diameter 50.8 mm
A SAE A, diameter 82.55 mm
B SAE B, diameter 101.6 mm
C SAE C, diameter 127
,mm
D SAE D, diameter 152.4 mm
E SAE E, diameter 165.1 mm
Second pump, metric
G Diameter 63 mm
H Diameter 80 mm
J Diameter 100 mm
K Diameter 125 mm
L Diameter 160 mm
M Diameter 200 mm
Design
series
(see name
plate)
SealsSecond pump
Thread
PV
MK
Axial
piston
pump
series PV
BG
Size
Code Seals
N NBR
V FPM
E EPR
front pump
second pump
metric,
splined
keyed shaft,
(only up to Ø 18,
metric)
SAE,
splined
30
84
69
91
85
87
92
Mounting
kit
Code Thread
M Metric
S SAE
PV
MK
Axial
piston
pump
series PV
BG
SizeMounting
kit
Coupling
Mounting kits for multiple pumps, for second pump option
Mounting kits for multiple pumps, couplings
Code Pump size
1 Pump size 1: PV016 - PV023
2 Pump size 2: PV032 - PV046
3 Pump size 3: PV063 - PV092
4 Pump size 4: PV140 - PV180
5 Pump size 5: PV270
Kit contains positions 30, 69, 84,
85 and 87, see drawing below.
Code Pump size
1 Pump size 1: PV016 - PV023
2 Pump size 2: PV032 - PV046
3 Pump size 3: PV063 - PV092
4 Pump size 4: PV140 - PV180
5 Pump size 5: PV270
Code Coupling for metric,
splined shaft DIN 5480
01 N25 x 1.5 x 15
02 N32 x 1.5 x 20
03 N40 x 1.5 x 25
04 N50 x 2 x 24
05 N60 x 2 x 28
Coupling for SAE splined shaft
flat root, side fit
11 9T 16/32
12 11T 16/32
13 13T 16/32
14 15T 16/32
15 14T 12/24
16 17T 12/24
17 13T 8/16
18 15T 8/16
Coupling + adaptor
for keyed shaft
20 Diameter 12 mm
21 Diameter 16 mm
22 Diameter 18 mm
Kit contains positions 91 (and 92 for
keyed shaft).
Design
series
(see name
plate)
K
Kits
Axial Piston Pump
Series PV
21
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Pump Shaft Torque limit factor
D 17700
PV016-023 E 17700
K 17700
L 20130
D 77280
PV063-092 E 72450
K 67620
L 83720
D 118400
E 158760
PV140-180 F 78750
G 97650
K 113400
L 157500
D 119000
PV270 E 159700
K 170100
L 236250
Shaft code
D 300 1320 2000 2000
E 300 1218 2680 2680
F -- -- 1320 --
G -- -- 1640 --
K 300 1150 1900 2850
L 405 1400 2650 3980
Max. torque transmission
140 560 1100 1650
cap. for rear mounted pump
PV016-023 PV063-092 PV140-180 PV270
Important notice
The max. allowable torque of the individual shaft must
not be exceeded. For 2-pump combinations there is no
problem because PV series offers 100% thru torque. For
3-pump combinations (and more) the limit torque could
be reached or exceeded.
Therefore it is necessary to calculate the torque factor
and compare it with the allowed torque limit factor in the
table.
Required: calculated torque factor
< torque limit factor
To make the necessary calculations easier and more
user friendly it is not required to calculate actual torque
requirements in Nm and compare them with the shaft
limitations. The table on the right shows limit factors that
include material specification, safety factors and conver-
sion factors.
Max. transferable torque in [Nm] for different shafts options
Total torque factor of the combination
= sum of individual torque factors of all pumps
Torque factor of any pump
= p x Vg
The total torque factor is represented by the sum of
the individual torque factors of all pumps in the complete
pump combination.
The torque factor of each individual pump is calculated
by multiplying the max. operating pressure p of the pump
(in bar) with the max. displacement Vg of the pump (in
cm³/rev).
Thru Drive, Shaft Load Limitations
Axial Piston Pump
Series PV
22
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Remote pressure compensator, code FRC
Load-Sensing compensator, code FFC
Remote pressure comp. with interface NG6, code FR1
Load-Sensing comp. with interface NG6, code FF1
Proportional p-Q-compensator, code FPR
(for code FPV lower valve only without interface)
2-valve compensator, code FT1
LVDT for proportional compensator Pilot valve for power compensator
24
74.5
42.5
pressure pilot port P (code FRC)
load-sensing
P
-port P (code FFC)
F
All control ports G1/4 optional M 12 x 1.5; ISO 6149-1
(threads options 7 and 8) or 7/16-20 UNF (threads option 3)
T
P
40
32,5
31
31.5
load-sensing-port P (code FF1)
(plugged for code FR1 )
F
2 x M5 - 10deep in
pump body (see note above)
Interface NG6, CETOP 03
2 x M5 - 10 deep optional 10-32 UNC
(threads option 3 and 7)
T
P
80
interface NG6, CETOP 03
load sensing port P
F
40
50
40
49
interface NG6, CETOP 03
pump body
round connector
M 12 x 1
5 pins
69
pump body
34
Compensators Dimensions
Axial Piston Pump
Series PV
23
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
p
Q
PL
S
L
A
P
1
P
M
L
A
P
1
= included
PL
S
L
A
P
1
P
M
L
T
A
P
P
1
T
P
p
Q
= included
PL
S
L
A
P
1
P
M
L
A
P
1
P
P
p
Q
= included
Standard pressure
compensator
code F*S
* = pressure rating
Remote pressure
compensator with
interface NG6 for
accessories code
FR1
Remote pres-
sure compensa-
tor code FRC
Standard pressure compensator, code F*S
The standard pressure compensator adjusts the pump
displacement according to the actual need of the system
in order to keep the pressure constant.
As long as the system pressure at outlet port P is lower
than the set pressure (set as spring preload of the com-
pensator spring) the working port A of the compensator
valve is connected to the case drain and the piston area
is unloaded. Bias spring and system pressure on the an-
nulus area keep the pump at full displacement.
When the system pressure reaches the set pressure
the compensator valve spool connects port P
1
to A and
builds up a pressure at the servo piston resulting in a
downstroking of the pump. The displacement of the pump
is controlled in order to match the flow requirement of
the system.
Remote pressure compensator, code FRC
While at the standard pressure compensator the pressure
is set directly at the compensator spring, the setting of the
remote pressure compensator can be achieved by any
suitable pilot pressure valve connected to pilot port P
P
.
The pilot flow supply is internal through the valve spool.
The pilot flow is 1 - 1.5 l/min. The pilot valve can be installed
remote from the pump in some distance. That allows pres-
sure setting e. g. from the control panel of the machine.
The remote pressure compensator typically responds
faster and more precisely than the standard pressure
compensator and is able to solve instability problems
that may occur with a standard pressure compensator
in critical applications.
The pressure pilot valve can also be electronically
controlled (proportional pressure valve) or combined
with a directional control valve for low pressure standby
operation.
Remote pressure compensator, code FR1
Version FR1 of the remote pressure compensator provides
on its top side an interface NG6, DIN 24340 (CETOP 03
at RP35H, NFPA D03).
This interface allows a direct mounting of a pilot valve.
Beside manual or electrohydraulic operated valves it is
also possible to mount complete multiple pressure circuits
directly on the compensator body. Parker offers a variety
of these compensator accessories ready to install.
All remote pressure compensators have a factory set-
ting of 15 bar differential pressure. With this setting, the
controlled pressure at the pump outlet is higher than the
pressure controlled by the pilot valve.
Pressure Compensators
Axial Piston Pump
Series PV
24
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
p
Q
T
P
PL
S
L
A
P
1
P
M
L
T
A
P
P
1
P
F
= included
p
Q
PL
S
L
A
P
1
P
M
L
A
P
1
P
F
= included
Load-Sensing
compensator
code FFC
external orifice and
pressure pilot valve
Load-Sensing
compensator
code FFC
Load-Sensing
compensator with
interface NG6 for
accessories
code FF1
PL
S
L
A
P
1
P
M
L
Ø0.8
A
P
1
P
F
p
Q
PL
S
L
A
P
1
P
M
L
T
A
P
P
1
P
F
T
P
= included
Shown above is load-sensing compensator, code FF1
with an NG6 interface on top of the control valve. That
allows direct mounting of a pilot valve for pressure com-
pensation. This version includes the pilot orifice.
Due to the interaction of flow and pressure compensation
this package has not the ”ideal” control characteristic. The
deviation is caused by the pilot valves characteristic.
Load-Sensing compensator, code FFC
The load-sensing compensator has an external pilot pres-
sure supply. Factory setting for the differential pressure
is 10 bar. The input signal to the compensator is the dif-
ferential pressure at a main stream resistor. A load-sens-
ing compensator represents mainly a flow control for the
pump output flow, because the compensator keeps the
pressure drop at the main stream resistor constant.
A variable input speed or a varying load(-pressure) has
consequently no influence on the output flow of the pump
and the speed of the actuator.
By adding a pilot orifice (Ø 0.8 mm) and a pressure pilot
valve pressure compensation can be added to the flow
control function. See the circuit diagram below, left.
Load-Sensing Compensators
Axial Piston Pump
Series PV
25
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Hydraulic-mechanical power compensator
The hydraulic-mechanical power compensator consists of
a modified remote pressure compensator (Code *L*) or
of a modified load-sensing compensator (Code *C*) and
a pilot valve. This pilot valve is integrated into the pump
and is adjusted by a cam sleeve. The cam sleeve has a
contour that is designed and machined for the individual
displacement and the nominal power setting.
At a large displacement the opening pressure (given by the
cam sleeve diameter) is lower than at small displacements.
This makes the pump compensate along a constant power
(torque) curve (see diagrams on opposite page).
For all nominal powers of standard electrical motors Parker
offers a dedicated cam sleeve. The exchange of this cam
sleeve (e. g.: to change power setting) can easily be done
without disassembly of the pump.
On top of that an adjustment of the power setting can be
done within certain limits by adjusting the preload of the
pilot control cartridge spring . That allows an adjustment
of a constant power setting for other than the nominal
speeds (1500 min
-1
) or for other powers.
Power comp., pilot
flow internal
interface on top
code *LA
Power compen-
sator, pilot flow
internal
code *LB
Power comp., pilot
flow internal
pressure pilot valve
included
code *LC
Power compen-
sator, pilot flow
external for load-
sensing
code *CB
Power comp.,
pilot flow external
for load-sensing,
pilot valve included
code *CC
Ordering code for the power option
The first digit designates the power setting:
Code B = 3.0 kW etc. up to
Code 3 = 132.0 kW
The second digit designates the pilot flow source:
Code L internal pilot pressure, remote pressure func-
tion.
Code C external pilot pressure, combines power com-
pensation with load-sensing compensation.
The third digit designates the possibility to adjust the
overriding pressure compensation:
Code A comes with a top side NG6/D03 interface on
the control valve to mount any suitable pilot
valve or Parker pump accessories.
Code B has a threaded pilot port P
p
(G1/4) to connect
a remote pilot valve with piping.
Code C includes a pilot valve for manual pressure
adjustment. Max. setting: 350 bar.
Power Compensators
Axial Piston Pump
Series PV
26
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Characteristic curves, power compensators
The diagrams shown are only valid for the following working conditions:
Speed : n = 1500 rev/min
Temperature : t = 50°C
Fluid : HLP, ISO VG46
Viscosity : N = 46 mm
2
/s at 40°C
Power Compensators, Diagrams
Axial Piston Pump
Series PV
27
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Proportional displacement control, code 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 PQ0*-F00 (see opposite side).
The command is given as an electrical input signal (0 - 10 V
or 0 resp. 4 - 20 mA) from the supervising machine control.
The command can also be provided by a potentiometer. The
electronic control module offers a stabilized 10 V source to
supply the potentiometer.
The electronic module compares permanently the input
command and the actual displacement by powering the
proportional solenoid of the control valve. A deviation from
the commanded displacement leads to a modulation of the
input current to the solenoid. The control valve then changes
the control pressure (port A) until the correct displacement
is adjusted.
Version FPV of the proportional control does not provide
a pressure compensation. The hydraulic circuit must be
protected by a pressure relief valve.
p
Q
U
P
U
Q
T
P
P
L
S
L
A
P
1
P
M
s
U
L
T
A
P
P
1
U
P
U
Q
= included
P
L
S
L
A
P
1
P
M
s
p
U
U
L
T
A
P
P
1
T
P
D
B1
D
B2
D
P
p
1
p
P
U
P
U
Q
U
P
U
Q
Q
p
= included
P
L
S
L
A
P
1
P
M
s
U
L
A
P
1
U
Q
p
Q
U
Q
= included
Proportional-
displacement
control
code FPV
Proportional-
displacement
control
code FPR
Proportional-
displacement
control
code FPG
Proportional displacement control with overriding pres-
sure control, codes FPR, FPZ and FPG
In version FPR an additional pressure compensator valve
can override the electrohydraulic displacement control. That
adds pressure compensation to this control.
The compensator valve has an NG6/D03 interface on top
to mount a pressure pilot valve. When using a proportional
pressure pilot valve an electro-hydraulic p/Q control can be
realized. The electronic driver modules are tuned for the
valve type PVACPP* to get the best performance.
The electronic control module PQ*-P00 (see page p-Q
control analogue) contains, beside the displacement control
unit, also the driver electronics for the a. m. proportional
pressure valves.
Using ordering code FPZ and specifying the desired pilot
valve/compensator accessory, a complete multiple pressure
adjustment can be mounted in our factory (see compensa-
tor accessories, pages 44-46) and the complete unit will be
tested and shipped together with the pump.
With ordering code FPG the proportional pressure pilot
valve and a pressure transducer (Parker SCP 8181 CE)
are included with the pump control. In combination with
control module PQ0*-Q00 a closed loop pressure control
of the pump outlet pressure is available. Module PQ*-L00
offers an electronic power limiter in addition to the closed
loop pressure control.
Parker variable displacement pumps have a large servo
piston. That leads to a extremely robust and stable pump
control. On the other hand that requires high control flows (up
to > 100 l/min). Parker has therefore chosen the 2-valve p-Q
control concept, because in this case a hydraulic-mechanical
compensator valve takes care of the pressure compensation
of the pump. That allows a very fast pressure compensation
and makes this the control unsensitive to fluid contamination.
We see the 2-valve concept as a contribution to system and
pressure control safety.
Electrohydraulic p-Q Control
Axial Piston Pump
Series PV
28
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Electronic Module PQDXXA (digital)
The digital control module code PQDXXA-Z00 is designed
for rail mounting.
Ordering code
Option
For all frame
sizes series PV
Digital control
module for p/Q
control
Version A
Features
• Digital control circuit
• Parameter setting via RS-232 interface
• All settings (ramps, MIN/MAX, control parameters) can
be stored digitally and recalled from a PC to duplicate
settings to other modules
• Ramp time up to 60 seconds
• Compatible to the relevant european EMC specificati-
ons
• Easy to use PC based setup software
• Covers all displacements from 16 to 270 cm³/rev
• Covers all functions: displacement control, displace
-
ment control with open loop pressure control, displace-
ment control with closed loop pressure control and
displacement control with closed loop pressure control
and electronic power limitation.
Technical data
Mounting style Snap-on mounting for EN50022 rail
Body material Polycarbonate
Inflammation class V2...V0 acc. UL 94
Mounting position any
Env. temperature range [°C] -20...+55
Protection class IP 20 acc. DIN 40 050
Weight [g] 160
Duty ratio [%] 100
Supply voltage [V] 18...30VDC, ripple <5% eff.
Rush in current [A] 22 for 0.2 ms
Current consumption [A] < 4 for p/Q control ; < 2 for Q-control
Resolution [%] 0.025 (power 0.1)
Interface RS232C, 9600 baud, 3.5 mm cinch
EMC EN 50 081-2, EN 50 082-2
Connctors Screw terminals 0.2...2.5 mm², plug in style
Cables [mm²] 1.5 (AWG 16) overall braid shield, for supply and solenoid connection 0.5 mm²
(AWG 20) overall braid shield, for sensor and command signal connections
Max. cable length [m] 50
PQD
XX A
For programming the module via PC, an interface cable is needed, please order separately.
Please order the
“interface cable to PC“
separately.
Ordering code: PQDX-
XA-KABEL
Z00
Axial Piston Pump
Series PV
29
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
General Installation Information
Programming software
The programming of the p/Q control module is done in an
easy to learn mode. To select the pump model and size
and to set the control paramters the program ProPVplus
must be started. This program runs under WINDOWS® 95
and higher.
The latest version of this software can be downloaded at the
following internet address:
http://www.parker.com/euro_hcd
The software offers the following features:
A TERMINAL window to set or read out the control param-
eters of the module. Settings as well as comments entered
in the terminal window can be stored also in RTFformat
(opens e. g. under WORD or other text editors)
A MONITOR window allows to display process variables
in numerical format.
Diagrams
Response times
Size TA [ms] TR [ms]
PV046 70 70
An OSZILLOSKOP window displays process variables as
curves. The oscilloscope offers a start - stop function. The
images can be saved and stored e. g. for import into other
programs.
Features
• Display and documentation of parameter sets
• Save ond reload of optimized parameter sets
• Offers oscilloscope function for easy performance evalu
-
ation and optimization
• Pre-optimized parameter sets for all PVplus piston pump
• Sizes already in E
2
PROM memory
Axial Piston Pump
Series PV
30
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Notes
Axial Piston Pump
Series PV
31
Parker Hannifin
Pump and Motor Division
Chemnitz, Germany
Catalogue HY30-3243/UK
Offer of Sale
Please contact your Parker representation for a detailed ”Offer of Sale”.
FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND/OR SYSTEMS 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 and/or system options for further investigation by users having technical expertise. It is important that you analyze all
aspects of your application, including consequences of any failure, and review the information concerning the product or sys-
tem in the current product catalogue. Due to the variety of operating conditions and applications for these products or systems,
the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems
and assuring that all performance, safety and warning requirements of the application are met.
The products described herein, including without limitation, product features, specifications, designs, availability and pricing, are
subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.
WARNING
!
Hydraulics Group
Sales Offices
Catalogue HY30-3243/UK
PDF 04/06
© Copyright 2006
Parker Hannifin Corporation
All rights reserved.
International
Europe
Parker Hannifin is the world’s premier supplier of motion and control systems and
solutions, with sales and manufacturing facilities throughout the world. For product
information and details of your nearest Parker sales office, visit us at www.parker.com
or call free on 00800 2727 5374.
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