Fixed Displacement Axial Piston Motor for Closed Circuit
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If you're looking for a high-speed, low-torque hydraulic motor that delivers efficiency and reliability, the HL-A2FE fixed displacement motor is a great fit. Designed for closed-loop hydraulic systems, it offers smooth operation and a compact design, making it ideal for space-sensitive applications.
- Displacement 23-125 cm³/rev
- Nominal pressure 400 bar
- Max. allowable pressure 450 bar
Technical Data
Size
Displacement
(cm³/rev)
(cm³/rev)
Max. speed (rpm)
nmax
Nmax interm.
Max. Flow
(L/min)
(L/min)
Torque (Nm)
Δp=400 bar
Δp=400 bar
Details
22.9
6300
6900
144
144
| Displacement | Vg | cm³/rev | 22.9 | |
| Max. rotation speed | nmax | rpm | 6300 | |
| nmax interm. | rpm | 6900 | ||
| Max. flow | qv max | L/min | 144 | |
| Torque constant | Tk | Nm/bar | 0.36 | |
| Torque | Δp=400 bar | T | Nm | 144 |
| Rotary stiffness | Nm/0 | 230 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0012 | |
| Case volume | L | 0.2 | ||
| Weight (approx.) | m | kg | 10.5 | |
28.1
6300
6900
176
178
| Displacement | Vg | cm³/rev | 28.1 | |
| Max. rotation speed | nmax | rpm | 6300 | |
| nmax interm. | rpm | 6900 | ||
| Max. flow | qv max | L/min | 176 | |
| Torque constant | Tk | Nm/bar | 0.445 | |
| Torque | Δp=400 bar | T | Nm | 178 |
| Rotary stiffness | Nm/0 | 230 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0012 | |
| Case volume | L | 0.2 | ||
| Weight (approx.) | m | kg | 10.5 | |
32
6300
6900
201
204
| Displacement | Vg | cm³/rev | 32 | |
| Max. rotation speed | nmax | rpm | 6300 | |
| nmax interm. | rpm | 6900 | ||
| Max. flow | qv max | L/min | 201 | |
| Torque constant | Tk | Nm/bar | 0.509 | |
| Torque | Δp=400 bar | T | Nm | 204 |
| Rotary stiffness | Nm/0 | 230 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0012 | |
| Case volume | L | 0.2 | ||
| Weight (approx.) | m | kg | 10.5 | |
45.6
5600
6200
255
290
| Displacement | Vg | cm³/rev | 45.6 | |
| Max. rotation speed | nmax | rpm | 5600 | |
| nmax interm. | rpm | 6200 | ||
| Max. flow | qv max | L/min | 255 | |
| Torque constant | Tk | Nm/bar | 0.725 | |
| Torque | Δp=400 bar | T | Nm | 290 |
| Rotary stiffness | Nm/0 | 230 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0024 | |
| Case volume | L | 0.33 | ||
| Weight (approx.) | m | kg | 15 | |
56.1
5000
5500
280
356
| Displacement | Vg | cm³/rev | 56.1 | |
| Max. rotation speed | nmax | rpm | 5000 | |
| nmax interm. | rpm | 5500 | ||
| Max. flow | qv max | L/min | 280 | |
| Torque constant | Tk | Nm/bar | 0.89 | |
| Torque | Δp=400 bar | T | Nm | 356 |
| Rotary stiffness | Nm/0 | 440 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0042 | |
| Case volume | L | 0.45 | ||
| Weight (approx.) | m | kg | 18 | |
63
5000
5500
315
400
| Displacement | Vg | cm³/rev | 63 | |
| Max. rotation speed | nmax | rpm | 5000 | |
| nmax interm. | rpm | 5500 | ||
| Max. flow | qv max | L/min | 315 | |
| Torque constant | Tk | Nm/bar | 1 | |
| Torque | Δp=400 bar | T | Nm | 400 |
| Rotary stiffness | Nm/0 | 440 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0042 | |
| Case volume | L | 0.45 | ||
| Weight (approx.) | m | kg | 19 | |
80.4
4500
5000
360
508
| Displacement | Vg | cm³/rev | 80.4 | |
| Max. rotation speed | nmax | rpm | 4500 | |
| nmax interm. | rpm | 5000 | ||
| Max. flow | qv max | L/min | 360 | |
| Torque constant | Tk | Nm/bar | 1.27 | |
| Torque | Δp=400 bar | T | Nm | 508 |
| Rotary stiffness | Nm/0 | 670 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0072 | |
| Case volume | L | 0.55 | ||
| Weight (approx.) | m | kg | 23 | |
90
4500
5000
405
572
| Displacement | Vg | cm³/rev | 90 | |
| Max. rotation speed | nmax | rpm | 4500 | |
| nmax interm. | rpm | 5000 | ||
| Max. flow | qv max | L/min | 405 | |
| Torque constant | Tk | Nm/bar | 1.43 | |
| Torque | Δp=400 bar | T | Nm | 572 |
| Rotary stiffness | Nm/0 | 670 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0072 | |
| Case volume | L | 0.55 | ||
| Weight (approx.) | m | kg | 25 | |
106.7
4000
4400
427
680
| Displacement | Vg | cm³/rev | 106.7 | |
| Max. rotation speed | nmax | rpm | 4000 | |
| nmax interm. | rpm | 4400 | ||
| Max. flow | qv max | L/min | 427 | |
| Torque constant | Tk | Nm/bar | 1.7 | |
| Torque | Δp=400 bar | T | Nm | 680 |
| Rotary stiffness | Nm/0 | 880 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0116 | |
| Case volume | L | 0.8 | ||
| Weight (approx.) | m | kg | 34 | |
125
4000
4400
500
769
| Displacement | Vg | cm³/rev | 125 | |
| Max. rotation speed | nmax | rpm | 4000 | |
| nmax interm. | rpm | 4400 | ||
| Max. flow | qv max | L/min | 500 | |
| Torque constant | Tk | Nm/bar | 1.99 | |
| Torque | Δp=400 bar | T | Nm | 769 |
| Rotary stiffness | Nm/0 | 880 | ||
| Moment of inertia for drive shaft | J | kgm² | 0.0116 | |
| Case volume | L | 0.8 | ||
| Weight (approx.) | m | kg | 36 | |
| Size | Displacement (cm³/rev) | Max. speed (rpm) | Max. Flow (L/min) | Torque (Nm) | |
| nmax | nmax interm. | Δp=400 bar | |||
| 22.9 | 6300 | 6900 | 144 | 144 | |
| 28.1 | 6300 | 6900 | 176 | 178 | |
| 32 | 6300 | 6900 | 201 | 204 | |
| 45.6 | 5600 | 6200 | 255 | 290 | |
| 56.1 | 5000 | 5500 | 280 | 356 | |
| 63 | 5000 | 5500 | 315 | 400 | |
| 80.4 | 4500 | 5000 | 360 | 508 | |
| 90 | 4500 | 5000 | 405 | 572 | |
| 106.7 | 4000 | 4400 | 427 | 680 | |
| 125 | 4000 | 4400 | 500 | 769 | |
Features
- compact and space-saving design The motor’s flange is positioned at the center of the housing, allowing it to fit almost entirely within the mechanical gearbox, creating a streamlined and efficient setup.
- hassle-free installation No need to worry about mounting tolerances, this motor integrates easily into your system.
- quick and easy assembly Simply “insert” it into the mechanical gearbox, saving you time and effort during installation.
Applications
Construction Machinery
Mining and Quarrying Equipment
This axial piston motor brings efficiency, precision, and ease of use to your hydraulic system. Contact us to discuss how it can optimize your application.