103 E X.XXX.0/01.09 2 2.4 LIGHT MEDIUM PRESSURE SERIES CONTENT Ordering Code 2.4.1 Light Medium Pressure Series 2.4.2 Max Operating Pressure for Constant Power Control Technical Information 2.4.3 Specifications 2.4.4 Hydraulic Fluids 2.4.5 Viscosity Range 2.4.6 Temperature Range 2.4.7 Specification for Special Fluids 2.4.8 Seals 2.4.9 Filtration 2.4.10 Adjustments 2.4.11 Installation Notes Control Options 2.4.12 Pressure Compensator 2.4.13 Remote Pressure Compensator 2.4.14 Constant Power Control 2.4.15 Availability of Control Type Performance Data 2.4.16 PPV103-10 2.4.17 PPV103-16 2.4.18 PPV103-22 2.4.19 PPV103-37 2.4.20 PPV103-56 2.4.21 PPV103-70 2.4.22 PPV103-90 2.4.23 PPV103-145 Dimensions 2.4.24 PPV103-10 2.4.25 PPV103-16 / 22 2.4.26 PPV103-37 2.4.27 PPV103-56 2.4.28 PPV103-70 2.4.29 PPV103-90 2.4.30 PPV103-145
26
Embed
2.4 Light medium pressure seriesAxial piston pump Light medium pressure series size 10 10.0 cm³/rev (not for control type 09) 16 15.8 cm³/rev 22 22.2 cm³/rev (not for control type
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103
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2.4 Lightmediumpressureseries
contEnt
OrderingCode 2.4.1 Light Medium Pressure Series
2.4.2 Max operating Pressure for constant Power control
size 10 10.0 cm³/rev (not for control type 09) 16 15.8 cm³/rev 22 22.2 cm³/rev (not for control type 09) 37 36.9 cm³/rev 56 56.2 cm³/rev 70 70.0 cm³/rev (only control type 07) 90 91.0 cm³/rev (only control type 07) 145 145.0 cm³/rev (only control type 07)
mountingtypeF Flange Mounting
shaftrotationR Right Hand (clockwise) viewed from shaft end
Controltype01 Pressure compensator 07 Remote Pressure compensator 09 constant Power control
Leistungsstufen(onlyforcontroltype09)A 3.7 kW (size 16/37/56) B 5.5 kW (size 16/37/56) c 7.5 kW (size 37/56) D 11.0 kW (size 37/56) E 2.2 kW (only size 16) 15.0 kW (only size 56) F 1.5 kW (only size 16) 18.5 kW (only size 56) G 22.0 kW (only size 56)
pressuresettingrange(onlyforcontroltype09)7M 70 bar 10.5M 105 bar 14M 140 bar 16M 160 bar 17.5M 175 bar 21M 210 bar max operating Pressure depending on Input Power see 2.4.2
pressuresettingrange(onlyforcontroltype01)B 12 - 70 bar c 12 - 160 bar (size 16/22/37/56) 20 - 160 bar (size 10) H 12 - 210 bar (size 16/37/56) 20 - 210 bar (size 10)
portpositionS Side Port (not for size 10) Axial Port (only size 16/22/37/56) – Ports radial and axial (only size 10)
the pump series is equipped with Fluorocarbon (FKM) seals as standard.
Exception: Size 10 with nitrile (nBR)
If a special hydraulic fluid is used, the seal material may by changed.
2.4.9 Filtration
For maximum pump and system component life time, the system should be protected from contamination by effective filtration.
Maintain the degree of contamination within nAS 1638 Grade 10 (21/19/16 ISo 4406:1999) or better.
2.4.7 specificationforspecialFluids
typeofFluid size
Operatingpressure[bar]
shaftspeed[rpm]
temperaturerange[°C]
Viscosityrange[cst]
designnumber*2
rated intermittent rated max.
Water Glycols Water > 35 % Polymer dilution (HFc)
16-56 140 160 / 140*1
1200 1800*2 0 - 50
20 - 200
30
70-145 210 210 30
Phosphate Ester synthetic (HFD-R)
16-56 140 160 /140*1
1200 1800*2 0 - 6070-145 210 210
Polyol Ester synthetic (HFD-U)
16-56 160 1601800 1800 0 - 60
70-145 250 250
*1 – size 22*2 – As the specific gravities of water-glycol fluids and phosphate ester type fluids are higher than one, an overhead reservoir is required when pumps are operated at 1500 rpm or more
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2.4.10 Adjustments
the units are shipped with minimum discharge pressure and maximum delivery volume setting. Adjust pressure and volume setting to meet your system requirements.
pumpsize
Volume pressure
Volume Adjustment Screw Sensitivity
Minimal Adjustable Displacement
Pressure Adjustment Screw Sensitivity
[cm3 per turn] [cm3/rev] [bar per turn]
PPV103-10*01B 1.1 2.0 29
PPV103-10*01c/H 1.1 2.0 54
PPV103-16*01B 1.4 4.0 35
PPV103-16*01c 1.4 4.0 65
PPV103-16*01H 1.4 4.0 79
PPV103-22*01B 2.0 6.0 35
PPV103-22*01c 2.0 6.0 65
PPV103-37*01B 2.9 10 35
PPV103-37*01c 2.9 10 65
PPV103-37*01H 2.9 10 79
PPV103-56*01B 3.9 12 35
PPV103-56*01c 3.9 12 65
PPV103-56*01H 3.9 12 79
PPV103-70*07 4.4 30
PPV103-90*07 4.8 56
PPV103-145*07 7.2 83
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2.4.11 installationnotes
the pump should be mounted horizontally with the case drain piping initially rising above the level of the pump before continuing to the tank as shown in the illustration below. Do not connect the drain line to the suction line.
the uppermost drain port should be used and the drain piping should be equal or larger in size than the drain port to minimise pressure in the pump case. the pump case pressure should not exceed 1 bar as shown in the illustration below (peak pressure should never exceed 5 bar).
mountingthepumpabovethetank
mountingthepumpvertically
For applications requiring vertical installation (shaft up) please connect piping as shown in the illustration below.
the oil level in the tank should be higher than the pump-mounting flange as shown in illustration below.If the oil level in the tank is lower than the pump mounting flange, than the drain line should be installed as shown in illustration .
When installing the pump in the tank and submerged in the oil, open the drain ports to provide adequate lubrication to the internal components.
When installing the pump outside the tank run piping for the drain to the tank (see illustration ).If the drain line rises above the level of oil fill the lines with oil before operation.
suctionline
drainline
"Goose neck" configuration is required, this prevents direct drop of oil level in the pump case.
Cautions: zSuction and drain pipes must be immersed by 200 mm minimum from the lowest oil level under operating conditions. zHeight from the oil level to the centre of the shaft must be within 1 m. z the oil in the pump case must be refilled when the pump has not been operated for one month or longer.
pipe for draining
oil
oil
drain port
min. oil level
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COntrOLOptiOns2.4.12pressureCompensator
2.4.13remotepressureCompensator
2.4.14ConstantpowerControl
2.4.15AvailabilityofControltype
Controltype graphicsymbols
performanceCharacteristics explanation
01 Pressure compensator type
zWhen the system pressure increases and comes close to the preset cut-off pressure, the pump flow decreases automatically while maintaining the set pressure as it is.
Controltype graphicsymbols
performanceCharacteristics explanation
07 Remote Pressure compensator type
z the pump is used in combination with the pilot relief valve or multistage pressure control valve. By controlling the pilot pressure, the full cut-off pressure can be remote-controlled according to your requirements.
Controltype graphicsymbols
performanceCharacteristics explanation
09 constant Power control type
zPump input power can be controlled in accordance with the motor output. zWhen the discharge pressure rise, the output flow decreases corresponding to the preset input power. z the pump can act for function of two pumps, low-pressure large-flow and high-pressure small-flow. therefore, the motor capacity can be reduced.
znoise Level (one metre horizontally away from pump head cover)
zDrain
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0 40 80 120 160 200210 bar
Pressure
Input Power
Output Flow
Volumetric E�ciencyOverall E�ciency
0
3
6
9kW
Inpu
t Pow
er
E�ci
ency
60
80
100% N=1500 rpm
Out
put F
low
0
4
8
12
16
20
24
L /min
N=1800 rpm
Pressure
Out
put F
low
04
8
12
16
20
24
L /min
28
32
E�ci
ency
60
80
100%
Input Power
Output FlowOverall E�ciency
Volumetric E�ciency
Inpu
t Pow
er
0
3
6
9
12kW
P= bar P=P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
7
kW12
10
8
6
4
2
0
Inpu
t Pow
er
0 5 10 15 20 25 30 L /min
Output Flow
kW12
10
8
6
4
2
0
Inpu
t Pow
er
0 L /min5 10 15 20 25 30
N=1500 rpm N=1800 rpm
Output Flow
PPV103-16- * -R-01-H
1800 rpm
PPV103-16-* -R-01-CN=1500 rpm
PPV103-16- * -R-01-B
0 40 80 120 160 200210
Full Cut-o� Pressurebar
kW1.5
Full
Cut-
o� P
ower
1.0
0.5
0
1800 rpm
Full Cut-o�Full Flow PPV103-16-* -R-01-H
PPV103-16-* -R-01-C
PPV103-16-* -R-01-B1500,1800 rpm
N=1500 rpm
Pressure
3
Dra
in
2
1
0
L /min
Full Flow
Full Cut-o�
Pressure
Noi
se L
evel
80
70
60
50
40
dB(A) N=1500 rpm
Pressure
Noi
se L
evel
80
70
60
50
40
dB(A) N=1800 rpm
Full Flow
Full Cut-o�
Example: At a pressure of under 100 bar, a �ow 20 L/min, and rotation 1500 rpm, the axial input becomesabout 3.7 kW as shown the dotted line in the graph.
0 40 80 120 160 200210 bar
P= barP=P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
7
0 40 80 120 160 200210 bar
0 40 80 120 160 200210 bar
0 40 80 120 160 200210 bar
2.4.17ppV103-16
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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0 40 80 120 160 bar
Pressure
E�ci
ency
% N=1500 rpm
Out
put F
low
0
40L /min
N=1500 rpm
Pressure
N=1500 rpm
Input Power
Output FlowOverall E�ciency
Volumetric E�ciency
Inpu
t Pow
er
0
kW60
80
100
2468
1012 30
20
10Input Power
Overall E�ciency
Output Flow
Volumetric E�ciencyN=1800 rpm
E�ci
ency %
Inpu
t Pow
er
0
60
80
100
2468
1012
Out
put F
low
0
40L /min
30
20
10
0 10 20 30 L /min
Output Flow
kW10
8
6
4
2
0
Inpu
t Pow
er
40 50
Pressure
Inpu
t Pow
er
kW10
8
6
4
2
0
N=1800 rpm
0 10 20 30 L /min40 50
Output Flow
P= bar
P=
P=
P=
P=
P=
P=
P=
P=
PPV103-22-* -R-01-C
1800 rpm
N=1500 rpm
PPV103-22-* -R-01-B
kW1.5
Full
Cut-
o� P
ower
1.0
0.5
00 40 80 120 160 bar
Full Cut-o� Pressure
1800 rpm
Full Cut-o�
PPV103-22-* -R-01-C
PPV103-22-* -R-01-B
Full Flow
N=1500 rpm
1500,1800 rpm
3
Dra
in
2
1
0
L /min
Full Flow
Full Cut-o�
Noi
se L
evel
80
70
60
50
dB(A)
0 20 40 60 80 100 120 140 bar
Pressure
Full Cut-o�
Pressure
Full Flow
Noi
se L
evel
80
70
60
50
dB(A) N=1800 rpm
Example: At a pressure of under 100 bar, a �ow 30 L/min, and rotation 1500 rpm, the axial input becomesabout 5.4 kW as shown the dotted line in the graph.
P=
P=
P=
P=
P=
P=
P=
P=
140
120
100
80
60
40
20
10
P=bar
10
20
60
40
80
100
120
140
0 40 80 120 160 bar
0 40 80 120 160 bar
0 20 40 60 80 100 120 140 bar
2.4.18ppV103-22
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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2
3
Dra
in
2
1
0
L /min
N=1500 rpm
Volumetric E�ciency
Output Flow
Overall E�ciency
Input Power
E�ci
ency
60
80
100%
Inpu
t Pow
er
0
10
20
30kW
0 40 80 120 160 200210
bar
Pressure
0
20
L /min
40
60
Out
put F
low
N=1500 rpm
Volumetric E�ciencyOverall E�ciency
Output Flow
Input Power
N=1800 rpm
E�ci
ency
60
80
100%
Inpu
t Pow
er
0
10
20
30kW
Pressure
Out
put F
low
0
20
L /min
40
60
80
N=1500 rpmP= bar P=P=P=P=P=P=P=P=P=P=P=
200180160140120100
8060402010
kW25
20
15
10
5
0
Inpu
t Pow
er
0 L /min10 30 40 50 60 7020
Output Flow
N=1800 rpmkW25
20
15
10
5
0
Inpu
t Pow
er
0 L /min10 30 40 50 60 7020
Output Flow
PPV103-37-* -R-01-H
kW3
Full
Cut-
o� P
ower
2
1
0
PPV103-37-* -R-01-C
PPV103-37-* -R-01-B
N=1500 rpm
N=1800 rpm
0 40 80 120 160 200210
Full Cut-o� Pressure
bar
PPV103-37-* -R-01-C
PPV103-37-* -R-01-B
Full Flow
Full Cut-o�N=1800 rpm
N=1500 rpmPPV103-37-* -R-01-H
1500,1800 rpm
Pressure
Full Flow
Full Cut-o�Noi
se L
evel
80
70
60
50
40
dB(A)
Full Flow
Full Cut-o�
N=1800 rpm
Pressure
Noi
se L
evel
80
70
60
50
40
dB(A)
Pressure
Example: At a pressure of under 160 bar, a �ow 45 L/min, and rotation 1500 rpm, the axial input becomesabout 12.6 kW as shown the dotted line in the graph.
0 40 80 120 160 200210
bar
P= bar P=P=P=P=P=P=P=P=P=P=P=
200180160140120100
8060402010
0 40 80 120 160 200210
bar
0 40 80 120 160 200210
bar 0 40 80 120 160 200210
bar
2.4.19ppV103-37
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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Example: At a pressure of under 160 bar , a �ow 70 L/min, and rotation 1500 rpm, the axial input becomesabout 20.8 kW as shown the dotted line in the graph.
N=1500 rpm
Full Cut-o� Pressure
Volumetric E�ciency
Output Flow
Overall E�ciency
Input Power
E�ci
ency
%
Inpu
t Pow
er
0
kW
60
80
100
20
40
Pressure
020
L /min
40
60
Out
put F
low80
100
N=1800 rpmVolumetric E�ciency
Overall E�ciency
Output Flow
Input Power
E�ci
ency
%
Inpu
t Pow
er
0
kW
60
80
100
20
40
020
L /min
40
60
Out
put F
low80
100
120
Pressure
Inpu
t Pow
er
kW
05
10
15
20
25
30
35
40N=1500 rpm
0 20 40 60 L /min80 120
Output Flow
100
P= bar
P=P=
P=
P=
P=
P=
P=
P=
P=
P=
200180
160
140
120
100
80
60
40
20
N=1800 rpm
P= bar
P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
Inpu
t Pow
erkW
05
10
15
20
25
30
35
40
0 20 40 60 L /min80 120
Output Flow
100
N=1500 rpm
N=1800 rpm
kW4
Full
Cut-
o� P
ower 3
2
1
00 40 80 120 160 200 bar
210
4
Dra
in 2
1
0
L /min
3
Full Flow
Full Cut-o�
1500,1800 rpm
N=1800 rpm
N=1500 rpm
PPV103-56-* -R-01-C
PPV103-56-* -R-01-H
PPV103-56-* -R-01-B
Pressure
0 40 80 120 160 200 bar210
Pressure
Full Flow
Full Cut-o�
N=1500 rpm
Noi
se L
evel
80
70
60
50
dB(A) N=1800 rpm
Full Flow
Full Cut-o�
Pressure
Noi
se L
evel
80
70
60
50
dB(A)
0 40 80 120 160 200210
bar 0 40 80 120 160 200210
bar
0 40 80 120 160 200 bar210
0 40 80 120 160 200 bar210
2.4.20ppV103-56
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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2
Dra
in
N=1500 rpm
N=1500 rpm
60
80
100%
Inpu
t Pow
er
0
20
40
60kW
Volumetric E�ciency
Overall E�ciency
Output Flow
Input Power
L /min120
100
80
Out
put F
low
0 50 100 150 200 250 bar
Pressure Pressure
L /min
120
100
140
Out
put F
low
Inpu
t Pow
er
0
20
40
60kW
60
80
100% N=1800 rpm
Volumetric E�ciency
Overall E�ciency
Output Flow
Input Power
kW60
50
40
30
0
Inpu
t Pow
er
20
10
L0 /min20 60 80 100 120 14040
Output Flow
N=1500 rpm kW60
50
40
30
0
Inpu
t Pow
er
20
10
N=1800 rpm
L0 /min20 60 80 100 120 14040
Output Flow
1800 rpm
1500 rpm
Full
Cut-
o� P
ower
kW
0
1
2
3
4
5
6
7
0 50 100 150 200 250 bar
Full Cut-o� Pressure
1500,1800 rpm
Full Cut-o�
Full Flow1500,1800 rpm
0
1
2
3
4
5
6
7L /min
Pressure
Full Flow
Full Cut-o�Noi
se L
evel
80
70
60
50
dB(A)
Pressure
Full Flow
Full Cut-o�
N=1800 rpm
Noi
se L
evel
80
70
60
50
dB(A)
Pressure
E�ci
ency
E�ci
ency
P= bar
P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
P= 220 P= 240
P= bar
P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
P= 220P= 240
Example: At a pressure of under 200 bar, a �ow 70 L/min, and rotation 1500 rpm, the axial input becomesabout 26 kW as shown the dotted line in the graph.
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar 0 50 100 150 200 250 bar
2.4.21ppV103-70
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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N=1500 rpm
E�ci
ency
N=1800 rpm
N=1500 rpm
%
60
80
100
Volumetric E�ciency
Overall E�ciency
Output Flow
L /min
Out
put F
low140
130
120Input Power
Inpu
t Pow
er
kW
0
20
40
60
0 50 100 150 200 250 bar
Pressure
L /min
Out
put F
low160
150
140
170
N=1800 rpm
Volumetric E�ciency
Overall E�ciency
Pressure
E�ci
ency
%
60
80
100
Inpu
t Pow
er
kW
0
20
40
60
80
Output Flow
Input Power
0 L /min20 60 80 100 120 14040
Output Flow
N=1500 rpm
Inpu
t Pow
er
kW
0
10
20
30
70
60
50
40
0 L /min20 60 80 100 120 14040
Output Flow
160
Inpu
t Pow
erkW
0
10
20
30
70
60
50
40
Full
Cut-
o� P
ower
kW
0
1
2
3
4
5
6
7
1800 rpm
1500 rpm
0 50 100 150 200 250 bar
Full Cut-o� Pressure
1800 rpm
1500 rpm 1800 rpm
1500 rpm
Dra
in
0
2
4
6
L /min8
Pressure
Full Flow
Full Cut-o�Noi
se L
evel
80
70
60
50
dB(A)
Pressure Pressure
N=1800 rpm
Noi
se L
evel
80
70
60
50
dB(A)
Full Flow
Full Cut-o�
Full Cut-o�
Full Flow
P= bar
P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
P= 220 P= 240 P= 250
P= bar
P=P=P=P=P=P=P=P=P=P=
200180160140120100
80604020
P= 220 P= 240 P= 250
Example: At a pressure of under 180 bar, a �ow 110 L/min, and rotation 1500 rpm, the axial input becomes about 34 kW as shown the dotted line in the graph.
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar 0 50 100 150 200 250 bar
2.4.22ppV103-90
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
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2
N=1500 rpm
0 50 100 150 200 250 bar
Pressure
Volumetric E�ciency
L /min
210
200
220
Out
put F
low
Inpu
t Pow
er
0
40
80
120kW
60
80
100%
Output Flow
Overall E�ciency
Input Power
N=1800 rpm
Inpu
t Pow
er
0
40
80
120kW
60
80
100%
L /min
260
250
270
Out
put F
low
240
Pressure
Volumetric E�ciency
Overall E�ciency
Output Flow
Input Power
N=1500 rpmkW140
Inpu
t Pow
er
120
100
80
60
40
200
L0 /min
Output Flow
40 80 120 160 200 240
P= bar
P=P=P=P=P=P=P=P=P=P=
20018016014012010080604020
P=220 P=240 P=260P=280
P= 10
P= bar
P=P=P=P=P=P=P=P=P=P=
20018016014012010080604020
P=220 P=240 P=260P=280
P= 10
N=1800 rpm
L0 /min
Output Flow
40 80 120 160 200 240 280
kW140
Inpu
t Pow
er120
100
80
60
40
200
1800 rpm
1500 rpm
0 50 100 150 200 250 bar
Full Cut-o� Pressure
Full
Cut-
o� P
ower
kW
0
2.5
5.0
7.5
10.0
12.5
1800 rpm
1500 rpm
Full Cut-o�
Full Flow
Pressure
Dra
in
0
2.5
7.5
10.0L /min
5.0
Noi
se L
evel
90
70
60
dB(A)
80
N=1500 rpm
Pressure
Full Flow
Full Cut-o�
Pressure
N=1800 rpm
Noi
se L
evel
90
70
60
dB(A)
80Full Flow
Full Cut-o�
E�ci
ency
E�ci
ency
Example: At a pressure of under 200 bar, a �ow 180 L/min, and rotation 1500 rpm, the axial input becomes about 64 kW as shown the dotted line in the graph.
1500,1800 rpm
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar
0 50 100 150 200 250 bar 0 50 100 150 200 250 bar
2.4.23ppV103-145
zPerformance characteristic curve
z Input Power
z Full cut-off Power
znoise Level (one metre horizontally away from pump head cover)
zDrain
118
E X
.XX
X.0
/01.
09
3
1
Flow Adj. Screw 13 Hex.
DEC.
167 10
3
41
Fully Extended186
44.5
6.590.5
52.5 25
10.5
131
A
159.5
65
19.0
519
.02
Dia
.
21.2
421
.08
82.5
582
.50
Dia
.
Drain Port "F" Thd.
Filling Port [ 22 Hex. Head. Plug Furnished]
Pressure Adj. Screw 13 Hex.
INC.Fully Extended
31 12
106
130
93 Dia.
4.79 4.76
2 3Suction Port "E" Thd.
2 3Discharge Port "E" Thd.
Plug"D" Hex.
C C
B B
25 25
102
85
X
dimensiOns2.4.24ppV103-10
modelnumberstighteningtorquenm
Suction Port & Discharge Port Drain Port
PPV103-10 ... 1280 56-62 33-36
PPV103-10 ... 12950 47-51 40-50
modelnumbers dimmensionsmm threadsizeA B C d e F
PPV103-10 ... 1280 European Standard 159 72 64 27 1/2
BSP.F3/8
BSP.F
PPV103-10 ... 12950 north American Standard 157 71 62 22 3/4-16
UnF9/16-18
UnF
*1 Install the pump so that the "Filling port" is at the top.
*2 Use either port of two suction and discharge ports at your option. Keep the remaining ports plugged.
*3 As the tightening torques of suction, discharge and drain port fittings, conform to table
ppV103-10withpressureControl01
View Arrow X
119
E X
.XX
X.0
/01.
09
2
Flow Adj. Screw Hex.
DEC.
Safety Valve Pressure Adj. Screw 3 Hex. Soc.
INC.
Pilot Port "PP""H" Thd.
Fully Extended
1
3
171
107 41
10.5
A
159.5
19.0
5D
ia.
21.2
421
.08
82.5
5D
ia.
82.5
0
19.0
2
65
25
6.5
44.5
52.5
90.5
170
Fully Extended180
Filling Port [22 Hex. Head Plug Furnished]
Drain Port "F" Thd.
131
4.79 4.76
93Dia.
11
106
130
2 3Suction Port
"E" Thd.Discharge Port
"E" Thd.
Plug"D" Hex.
2 3
C CB B
96.5
33
92
25 25
X
modelnumbers dimmensionsmm threadsizeA B C d e F h
PPV103-10 ...07 1280 European Standard 159 72 64 22 1/2
BSP.F3/8
BSP.F1/4
BSP.tr
PPV103-10 ...07 12950 north American Standard 157 71 62 27 3/4-16
UnF9/16-18
UnF7/16-20
UnF
*1 Install the pump so that the "Filling port" is at the top.
*2 Use either port of two suction and discharge ports at your option. Keep the remaining ports plugged.
*3 As the tightening torques of suction, discharge and drain port fittings, see table on page 116
ppV103-10withremotepressureControl07
View Arrow X
120
E X
.XX
X.0
/01.
09
74 74
Surface of Suction Port Surface of Discharge Port
188
96
Dia
.
19.0
519
.02
Dia
.
21.2
421
.08
12
172
62
109
187
Fully Extended219
44.5
59 6.5
26.5
25
Filling Port [22 Hex. Head Plug Furnished]
Drain Port "C" Thd.
Lock Nut 17 Hex.
82.5
582
.50
4.794.76
R12
1811
95 Dia.106
130
188
22.2
150.5
Fully Extended219
44.5
109
78
47.6
Discharge Port 19 Dia.Rear Side Suction Port 19 Dia."D" Thd. 17 Deep