RADIAL PISTON PUMP PR4-3X/6,30-500RA12M01
Manufacturer: Bosch Rexroth
Material #: R901093867
Model : PR4-3X/6,30-500RA12M01
***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Bosch Rexroth directly.***
The Bosch Rexroth PR4-3X/630-500RA12M01 (R901093867) is a high-quality radial piston pump designed for industrial applications requiring a reliable open circuit piston pump. This robust pump features a cast iron housing and operates with NBR seals, ensuring durable performance in demanding environments. With a constant displacement design, it ensures consistent fluid flow for precision operations.
The PR4-3X/630-500RA12M01 is characterized by its fixed displacement and valve-controlled self-priming capabilities, which contribute to its ease of integration and maintenance. The pump's long service life is attributed to hydrodynamically lubricated plain bearings that reduce wear and extend the time between servicing intervals.
This radial piston pump is versatile with several pressure ports that can accommodate different cylinder combinations, providing flexibility in system design. It offers favorable grading options to perfectly tailor the device to specific application needs.
With a maximum operating pressure of 630 bar and a maximum displacement of 500 cm³, this model from Bosch Rexroth is engineered for performance and reliability. It supports a minimum speed required for operation, while also having a specified maximum speed limit to ensure optimal functioning within its designed parameters.
The PR4-3X/630-500RA12M01's clockwise rotation and absence of through-drive highlight its straightforward design focused on efficiency and effectiveness. The weight specifications denote its solid build without compromising on the necessary agility for industrial applications.
Hydraulic fluids HLP are recommended for use with this pump, assuring compatibility with standard hydraulic systems. Its assembly involves valve-controlled, self-priming radial piston pumps with fixed displacement components including housing, eccentric shaft, and multiple pump elements that work together seamlessly during suction and displacement procedures.
Overall, the Bosch Rexroth PR4-3X/630-500RA12M01 radial piston pump stands as an exemplary component in the field of industrial hydraulics, offering consistent performance and durability for open loop control systems.
$2,895.00 USD
More are expected on September 9, 2024
Status: This product is temporarily out of stock.
Qty: Delivered as early as September 9, 2024 when ordered in
This product is eligible for factory repair.
Radial piston pump, size 6.3 cm3, pressure 500 bar for industrial applications, open circuit
3-piston pump
Unpacked Weight: 9.1 kg
Fixed displacement Self-priming, valve-controlled Long service life due to hydro-dynamically lubricated plain bearings Several pressure ports with different cylinder combinations 14 sizes, favorable grading for perfect device design
Assembly
The pumps are valve-controlled, self-priming radial piston pumps with fixed displacement.
They consist essentially of the housing (1), eccentric shaft (2) and 3, 5 or 10 pump elements (3), with suction valve (4), pressure valve (5) and piston (6).
Suction and displacement procedure
The pistons (6) are arranged radially to the eccentric shaft (2). The hollow piston (6) with the suction valve (4) is guided in a cylinder (7) and pressed onto the eccentric (2) by the spring (8). The radius of the piston running surface corresponds to the eccentric radius. The cylinder (7) provides sealing against a hemispherical element (9).
In downward movements of the piston (6), the working space (10) in the cylinder (7) is enlarged. Due to the resulting negative overpressure, the suction valve plate is raised from the sealing lip. Simultaneously, the connection from the suction chamber (12) to the working chamber (10) is realized by means of a radial groove (11) in the eccentric (2).
The working chamber is filled with fluid. In upward movements of the piston (6), the suction valve (4) is closed and the pressure valve (5) is opened. The fluid now flows to the system via the pressure port (P).
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01 |
02 |
03 |
04 |
05 |
06 |
07 |
08 |
09 |
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PR4 |
– |
3X |
/ |
R |
* |
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Type |
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01 |
Radial piston pump, fixed displacement, maximum pressure 700 bar |
PR4 |
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Component series |
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02 |
Component series 30 ... 39 (30 ... 39: unchanged installation and connection dimensions) |
3X |
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Size |
NG |
Pressure rating |
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03 |
Size – pressure stage (maximum) |
1,60 |
700 bar |
1,60-700 |
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2,00 |
700 bar |
2,00-700 |
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2,50 |
700 bar |
2,50-700 |
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3,15 |
700 bar |
3,15-700 |
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4,00 |
700 bar |
4,00-700 |
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6,30 |
700 bar |
6,30-700 1) |
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8,00 |
700 bar |
8,00-700 1) |
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3,15 |
500 bar |
3,15-500 |
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5,00 |
500 bar |
5,00-500 |
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6,30 |
500 bar |
6,30-500 |
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8,00 |
500 bar |
8,00-500 |
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10,00 |
500 bar |
10,00-500 |
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16,00 |
500 bar |
16,00-500 1) |
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20,00 |
500 bar |
20,00-500 2) |
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Direction of rotation |
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04 |
Viewed on drive shaft |
clockwise |
R |
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Drive shaft |
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05 |
Parallel keyed shaft |
A |
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Splined shaft 21 x 24, DIN 5481 |
G |
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Cylindrical shaft with output for mounting an AZPF or AZPFF |
K |
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Line connection |
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06 |
Pipe thread according to ISO 228/1 |
01 |
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SAE thread to ANSI B1.1 |
12 |
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Seal material |
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07 |
NBR seals |
M |
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FKM seals |
V |
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Pressure ports |
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08 |
1 Pressure port |
01 |
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2 Pressure ports |
02 |
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3 Pressure ports |
03 |
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5 Pressure ports |
08 |
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6 Pressure ports |
11 |
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10 Pressure ports |
12 |
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Additional details |
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09 |
Further details in the plain text |
* |
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| 1) | Not available with shaft versions "G" and "K" |
| 2) | Not available with shaft versions "K" |
Design options with multi-circuit pumpsThe following can be seen from the following schematic representations: the number and position of the pressure ports which cylinders are combined.Points mark the cylinders which are directly located at the pressurized pressure port. Circles mark the cylinders which are not directly located at the pressurized pressure port. The dashed and/or dot and dash lines show which cylinders are in each case combined. The pressurized pressure ports are designated in clockwise direction. The pressure port that - in clockwise direction - is closest to the suction port is referred to as P1 . |
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Type code (Pos. 08) |
Number of pressure ports |
Combination of cylinders |
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3 pistons |
5 pistons |
10 pistons |
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01 |
1 |
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02 |
2 |
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03 |
3 |
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08 |
5 |
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11 |
6 |
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12 |
10 |
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01 |
02 |
03 |
04 |
05 |
06 |
07 |
08 |
09 |
10 |
11 |
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R4 |
– |
3X |
/ |
R |
K |
M |
+ |
* |
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Pump combinations |
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01 |
2-fold |
P2 |
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3-fold |
P3 |
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Type |
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02 |
Radial piston pumps, fixed displacement |
R4 |
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Component series |
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03 |
Component series 30 ... 39 (30 ... 39: unchanged installation and connection dimensions) |
3X |
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Size |
NG |
Pressure rating |
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04 |
Size – pressure stage (maximum) |
1,60 |
700 bar |
1,60-700 |
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2,00 |
700 bar |
2,00-700 |
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2,50 |
700 bar |
2,50-700 |
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3,15 |
700 bar |
3,15-700 |
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4,00 |
700 bar |
4,00-700 |
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3,15 |
500 bar |
3,15-500 |
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5,00 |
500 bar |
5,00-500 |
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6,30 |
500 bar |
6,30-500 |
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8,00 |
500 bar |
8,00-500 |
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10,00 |
500 bar |
10,00-500 |
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Direction of rotation |
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05 |
Viewed on drive shaft |
clockwise |
R |
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Drive shaft |
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06 |
Cylindrical shaft with output for mounting an AZPF or AZPFF |
K |
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Line connection |
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07 |
Pipe thread according to ISO 228/1 |
01 |
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SAE thread to ANSI B1.1 |
12 |
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Seal material |
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08 |
NBR seals |
M |
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Pressure ports |
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09 |
1 Pressure port |
01 |
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2 Pressure ports |
02 |
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3 Pressure ports |
03 |
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5 Pressure ports |
08 |
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Combination pumps |
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10 |
2-fold |
NG |
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4 cm3 |
AZPF4 |
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5 cm3 |
AZPF5 |
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8 cm3 |
AZPF8 |
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11 cm3 |
AZPF11 |
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14 cm3 |
AZPF14 |
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16 cm3 |
AZPF16 |
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19 cm3 |
AZPF19 |
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22 cm3 |
AZPF22 |
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25 cm3 |
AZPF25 |
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28 cm3 |
AZPF28 |
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3-fold |
NG |
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5 cm3 - 4 cm3 |
AZPFF5-4 |
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8 cm3 - 4 cm3 |
AZPFF8-4 |
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8 cm3 - 8 cm3 |
AZPFF8-8 |
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11 cm3 - 4 cm3 |
AZPFF11-4 |
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11 cm3 - 5 cm3 |
AZPFF11-5 |
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11 cm3 - 8 cm3 |
AZPFF11-8 |
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16 cm3 - 8 cm3 |
AZPFF16-8 |
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16 cm3 - 16 cm3 |
AZPFF16-16 |
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Additional details |
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11 |
Further details in the plain text |
* |
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| 1) | Project planning information for multiple pumps has to be observed |
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Size |
1,60 | 2,00 | 2,50 | 3,15 | 4,00 | 6,30 | 8,00 | 3,15 | 5,00 | 6,30 | 8,00 | 10,00 | 16,00 | 20,00 | |||||
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Displacement |
geometric |
Vg |
cm³ |
1.51 | 2.14 | 2.59 | 3.57 | 4.32 | 7.14 | 8.63 | 3.39 | 4.82 | 5.83 | 8.03 | 9.71 | 16.07 | 19.43 | ||
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Drive speed |
nmin |
rpm |
1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | 1000 | |||
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nmax |
rpm |
2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | ||||
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Operating pressure |
absolute |
Inlet |
p |
bar |
0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | 0.8 ... 2.5 | |
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Outlet |
continuous |
pN |
bar |
700 | 700 | 700 | 700 | 700 | 700 | 700 | 500 | 500 | 500 | 500 | 500 | 500 | 500 | ||
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Inner diameter of the cylinders |
Ø |
mm |
10 | 10 | 10 | 10 | 10 | 10 | 10 | 15 | 15 | 15 | 15 | 15 | 15 | 15 | |||
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Torque |
max. |
Drive shaft |
Nm |
160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | 160 | ||
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Number of cylinders |
3 | 3 | 3 | 5 | 5 | 10 | 10 | 3 | 3 | 3 | 5 | 5 | 10 | 10 | |||||
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Weight |
m |
kg |
9.2 | 9.2 | 9.2 | 12.4 | 12.4 | 16.4 | 16.4 | 9.2 | 9.2 | 9.2 | 12.4 | 12.4 | 16.4 | 16.4 | |||
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Drive shaft loading |
Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | Radial and axial forces cannot be absorbed! | |||||
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Mounting type |
Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | Front face mounting | |||||
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Line connections |
Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | Screw-in fittings | |||||
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Direction of rotation, viewed on drive shaft |
clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | clockwise | |||||
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Hydraulic fluid |
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Permissible hydraulic fluid 1) |
Mineral oil (HLP) to DIN 51524-2 | ||||||||||||||||||
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Operating temperature range |
°C |
-10 … +70 | |||||||||||||||||
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Viscosity range |
mm²/s |
10 … 200 | |||||||||||||||||
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Maximum admissible degree of contamination of the hydraulic fluid 1) |
Class 20/18/15 according to ISO 4406 (c) | ||||||||||||||||||
| 1) | The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components. For the selection of the filters, see www.boschrexroth.com/filter. |
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Flow/drive power 1) |
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Inner diameter of the cylinders mm |
Stroke mm |
Vg cm3 |
Pressure |
bar |
50 |
100 |
150 |
200 |
250 |
300 |
350 |
400 |
450 |
500 |
550 |
600 |
650 |
700 |
|
10 |
6.4 |
0.51 |
qV, eff |
l/min |
0.71 |
0.7 |
0.69 |
0.69 |
0.69 |
0.685 |
0.68 |
0.68 |
0.675 |
0.67 |
0.67 |
0.665 |
0.66 |
0.66 |
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PA |
kW |
0.093 |
0.164 |
0.231 |
0.29 |
0.358 |
0.42 |
0.481 |
0.54 |
0.605 |
0.67 |
0.739 |
0.81 |
0.888 |
0.97 |
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10 |
9.1 |
0.71 |
qV, eff |
l/min |
1.02 |
1.01 |
1.0 |
0.995 |
0.99 |
0.985 |
0.98 |
0.975 |
0.97 |
0.965 |
0.96 |
0.955 |
0.95 |
0.94 |
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PA |
kW |
0.129 |
0.23 |
0.328 |
0.41 |
0.503 |
0.58 |
0.677 |
0.77 |
0.856 |
0.94 |
1.046 |
1.16 |
1.257 |
1.36 |
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10 |
11.0 |
0.86 |
qV, eff |
l/min |
1.22 |
1.21 |
1.205 |
1.2 |
1.195 |
1.19 |
1.184 |
1.18 |
1.174 |
1.17 |
1.163 |
1.157 |
1.147 |
1.14 |
|
PA |
kW |
0.15 |
0.275 |
0.392 |
0.49 |
0.594 |
0.70 |
0.804 |
0.91 |
1.018 |
1.13 |
1.244 |
1.37 |
1.486 |
1.61 |
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15 |
6.4 |
1.13 |
qV, eff |
l/min |
1.6 |
1.59 |
1.58 |
1.567 |
1.56 |
1.556 |
1.546 |
1.54 |
1.53 |
1.523 |
– |
– |
– |
– |
|
PA |
kW |
0.213 |
0.40 |
0.547 |
0.7 |
0.85 |
1.00 |
1.14 |
1.27 |
1.433 |
1.566 |
– |
– |
– |
– |
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15 |
9.1 |
1.61 |
qV, eff |
l/min |
2.28 |
2.26 |
2.25 |
2.24 |
2.23 |
2.22 |
2.20 |
2.19 |
2.18 |
2.17 |
– |
– |
– |
– |
|
PA |
kW |
0.27 |
0.49 |
0.71 |
0.91 |
1.11 |
1.31 |
1.51 |
1.70 |
1.91 |
2.12 |
– |
– |
– |
– |
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15 |
11.0 |
1.94 |
qV, eff |
l/min |
2.74 |
2.73 |
2.71 |
2.7 |
2.68 |
2.67 |
2.65 |
2.64 |
2.62 |
2.6 |
– |
– |
– |
– |
|
PA |
kW |
0.32 |
0.57 |
0.826 |
1.06 |
1.31 |
1.55 |
1.80 |
2.05 |
2.29 |
2.53 |
– |
– |
– |
– |
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| 1) | Mean values measured at n = 1450 rpm, Θ = 50 °C |
Uniformity coefficient f relative to n = 1450 rpm
The values from "Flow/drive power" table relate to 1 cylinder each.
To determine the required drive power, multiply the specified value by the number of cylinders.
The uniformity coefficient f should be taken into account.
▼ Example: Pump PR4–3X/1,60–700RA01M02
Port 1 and 2 are connected together and loaded with 450 bar, 3 is circulating at zero pressure.
PA = 2 × 0.605 kW = 1.21 kW
f = 1.57
Perf = 1.21 kW × 1.57 = 1.90 kW
Port 3 loaded with 300 bar, 1 and 2 run without pressure.
PA = 1 × 0.42 kW = 0.42 kW
f = 3.13
Perf = 0.42 kW × 3.13 = 1.31 kW
Port 1, 2 and 3, each loaded with 200 bar.
PA = 3 × 0.29 kW = 0.87 kW
f = 1
Perf = 0.87 kW × 1 = 0.87 kW
For applications outside these parameters, please consult us!
Sound pressure level (average):
(measured at n = 1450 min-1, v = 41 mm2/s and ϑ = 50 °C in a sound measuring chamber according to DIN 45635, part 26, Distance microphone – pump = 1 m)
The characteristic curves do not apply for versions with multiple circuits.
3-piston pump
5-piston pump
10-piston pump
Characteristic curves – Flow:
(measured at n = 1450 min-1, v = 41 mm2/s and ϑ = 50 °C)
Characteristic curves – Drive power:
(measured at n = 1450 min-1, v = 41 mm2/s and ϑ = 50 °C)
Radial piston pump with 3 pistons
Dimensions in mm
| 1) | Pipe thread according to ISO 228/1 |
| 2) | With line connection with characteristic 12, according to ANSI B 1.1 |
| 3) | With line connection with characteristic 12, connection adapter (SAE-12; 1 1/16-12 UN) according to ANSI B 1.1 not included in the scope of delivery |
Radial piston pump with 5 pistons
Dimensions in mm
| 1) | Pipe thread according to ISO 228/1 |
| 2) | With line connection with characteristic 12, according to ANSI B 1.1 |
| 3) | With line connection with characteristic 12, connection adapter (SAE-12; 1 1/16-12 UN) according to ANSI B 1.1 not included in the scope of delivery |
Radial piston pump with 10 pistons
Characteristic 01, 02 and 08
Dimensions in mm
| 1) | Pipe thread according to ISO 228/1 |
| 2) | With line connection with characteristic 12, according to ANSI B 1.1 |
| 3) | With line connection with characteristic 12, connection adapter (SAE-20; 1 5/8-20 UN) according to ANSI B 1.1 not included in the scope of delivery |
Radial piston pump with 10 pistons
Characteristic 11 and 12
Dimensions in mm
| 1) | Pipe thread according to ISO 228/1 |
| 2) | With line connection with characteristic 12, according to ANSI B 1.1 |
| 3) | With line connection with characteristic 12, connection adapter (SAE-20; 1 5/8-20 UN) according to ANSI B 1.1 not included in the scope of delivery |
Pump combination P2R4...
Other dimension see Dimensional drawings of PR4
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L1 |
mm |
38.5 | |||||||||
|
L2 |
mm |
86.8 | |||||||||
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L3 |
mm |
124.2 | 125.4 | 127.5 | 131.3 | 131.8 | 139.4 | 147.5 | 148.1 | ||
|
L4 |
mm |
170.5 | 173 | 177.1 | 182.1 | 187.1 | 190.5 | 195.5 | 200.9 | 217.3 | 222.1 |
|
Ø D1 |
mm |
40 | 55 | ||||||||
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mm |
± 0.15 | ||||||||||
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Ø D2 |
mm |
15 | 20 | 26 | |||||||
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Ø D3 |
mm |
35 | |||||||||
|
mm |
± 0.15 | ||||||||||
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Ø D4 |
mm |
15 | |||||||||
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H1 |
mm |
15.7 | |||||||||
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G |
M6 | ||||||||||
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mm |
13 | ||||||||||
Pump combination P3R4...
Other dimension see Dimensional drawings of PR4
|
L1 |
mm |
38.5 | ||||||
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L2 |
mm |
86.8 | ||||||
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L3 |
mm |
125.4 | 127.5 | 131.3 | ||||
|
L4 |
mm |
208.4 | 212.5 | 215.8 | 217.5 | 218.7 | 220.8 | 233.5 |
|
L5 |
mm |
254.7 | 258.8 | 265.4 | 263.8 | 266.3 | 270.4 | 292.2 |
|
Ø D1 |
mm |
40 | ||||||
|
mm |
± 0.15 | |||||||
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Ø D2 |
mm |
15 | 20 | |||||
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Ø D3 |
mm |
40 | ||||||
|
mm |
± 0.15 | |||||||
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Ø D4 |
mm |
15 | 20 | 15 | 20 | |||
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Ø D5 |
mm |
35 | ||||||
|
mm |
± 0.15 | |||||||
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Ø D6 |
mm |
15 | ||||||
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Ø D7 |
mm |
35 | ||||||
|
mm |
± 0.15 | |||||||
|
Ø D8 |
mm |
15 | ||||||
|
H1 |
mm |
15.7 | ||||||
|
G |
M6 | |||||||
|
mm |
13 | |||||||
Installation instructions
Fluid tank
Adjust useful volume of the tank to the operating conditions. The admissible fluid temperature must not be exceeded; use coolers, if necessary.
Lines and ports
Remove protection plugs from the pump. We recommend the use of seamless precision steel pipes according to DIN EN 10305-1 and removable pipe connections. Select the clear width of pipes according to the ports (suction speed 1 to 1.5 m/s). Inlet pressure, see technical data. Thoroughly clean pipelines and fittings prior to installing.Proposal for piping layout
Under no circumstances may drain and returning fluid be drawn directly into the suction port again, i.e., select the largest possible distance between suction line and return line. The return drain must always be below the oil level. Ensure suction-tight installation of the pipes.
Filter
Use a return flow or pressure filter, if possible.
(Suction filters only in connection with underpressure switch/clogging indicator).
Hydraulic fluid
Please observe our specifications according to data sheet 90220. We recommend brand name hydraulic fluids. Do not mix hydraulic fluids of different types since this can result in decomposition and deterioration of the lubricity. The hydraulic fluid must be replaced at regular intervals according to the operating conditions. When doing this, the hydraulic fluid reservoir must also be cleaned of residues.
Drive
Electric motor + pump carrier + coupling + pump
No radial or axial forces permissible on the pump drive shaft! Motor and pump must be exactly aligned! Always use a coupling that is suitable for compensating for shaft offsets! When installing the coupling, avoid axial forces, i.e., when installing, do not hammer or press the coupling onto the shaft! Use the female thread on the drive shaft. 
Installation positions
B3
B5
V1
Project planning information
When using radial piston pumps, we recommend particularly observing the information specified below. Project planning, assembly and commissioning of the radial piston pumps require the employment of trained experts.
Technical data
All specified characteristic depend on production tolerances and are valid at certain boundary conditions. Please note that consequently, certain scatter ranges are possible and that with changed boundary conditions (e.g. viscosity), the characteristics may also change.
Characteristic curves for flow and consumed power
When designing the drive motor, please observe the maximum application parameters possible.
Noise
The values for sound pressure level shown under Diagrams/characteristic curves have been measured according to DIN 45635 part 26. That means only the sound emission of the pump is shown. Environmental influences (such as place of installation, piping, etc.) have been eliminated. The values are in each case only valid for one pump. For circulation at zero pressure, the pressure line must be preloaded by means of a check valve (cracking pressure p = 5 bar) due to noise development.
Notice
Due to the power unit construction and the influence at the final place of installation of the pump, the sound pressure level will usually be 5 to 10 dB(A) higher than the value of the pump itself.
Project planning information for multiple pumps
Project planning information for multiple pumpsThe same general technical data apply as for single pumps. The pump with the higher load (pressure x flow) should be the first pump stage. When combining several pumps, the occurring torques may reach inadmissibly high values. The total of the torques must not exceed the admissible values (see table below)
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Pump type |
Max. admissible |
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Drive torque Tmax |
Output torque Tmax |
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PR4... |
160 Nm |
45 Nm |
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AZPF... |
45 Nm |
45 Nm |
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AZPFF... |
45 Nm |
45 Nm |
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Single pump 
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Example:   
Tab2 = 45 Nm
T3 = 3.8 Nm ≤ Tab2 max
Tab1 = 45 Nm
T1,2 = T2 + T3
T1,2 = 18.8 Nm ≤ Tab1 max
Tmax = 160 Nm
T = T1 + T2 + T3
T = 63 Nm ≤ Tmax
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Combination pump  
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Calculation example: V = displacement in cm3 ηhydr.-mech. = hydraulic-mechanical efficiency T = torque in Nm Δp = pressure in bar
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The pump combination can be operated with the calculated key data. |
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