1. Multifunctional hjardaraulic motor design:
The A6VM variable motor adopts an axial tapered piston rotor assembly and an oblique shaft design, and is suitable for open and closed hjardaraulic circuits. Suitable for both mobile and stationary applications, it offers a wide control range to meet high speed and torque requirements, with infinitely variable displacement from Vg max to Vg min = 0.
2. Largo range of applications and high cost-effectiveness:
The A6VM Rexroth Hjardaraulic Motor is ideally suited for mobile and stationary applications where the output speed is dependent on pump flow and motor displacement. The output torque increases as the pressure difference between the high-pressure side and the low-pressure side increases, and the displacement also increases. It has a wide control range, can realize static hydraulic transmission, and has a variety of control devices to choose from. Cost savings are achieved by eliminating the need for a gear speed mechanism and using a motor that is compact, robust and has a long service life.
3. Powerful and efficient performance:
A6VM motors feature high power density, excellent starting characteristics and minimal swing torque, and stand out for their compact, durable design. It provides long service life and cost-effectiveness by eliminating the gear speed mechanism, while meeting the needs of a variety of applications with its wide control range and multiple control options.
A6VM:A6VM28,A6VM55,A6VM80,A6VM107,A6VM140,A6VM160,A6VM200,A6VM250,A6VM355,A6VM500,A6VM1000
| Rexroth A6VM Piston Motor | |||||||||
| Tamanho | NG | 28 | 55 | 80 | 107 | 140 | 160 | ||
| displacement | Vg max | cm3 | 28.1 | 54.8 | 80 | 107 | 140 | 160 | |
| Vg min | cm3 | 0 | 0 | 0 | 0 | 0 | 0 | ||
| Vg x | cm3 | 18 | 35 | 51 | 68 | 88 | 61 | ||
| Maximum rotational | at Vg max | nnom | rpm | 5550 | 4450 | 3900 | 3550 | 3250 | 3100 |
| speed2) (while adhering to | at Vg < Vg x | nmax | rpm | 8750 | 7000 | 6150 | 5600 | 5150 | 4900 |
| the maximum permissible | (see diagram | ||||||||
| inlet flow) | on page 9) | ||||||||
| where Vg 0 | nmax | rpm | 10450 | 8350 | 7350 | 6300 | 5750 | 5500 | |
| Inlet flow3) | at nnom and | qv max | l/min | 156 | 244 | 312 | 380 | 455 | 496 |
| Vg max | |||||||||
| Torque4) | at Vg max and | T | Nm | 179 | 349 | 509 | 681 | 891 | 1019 |
| Δp = 400 bar | |||||||||
| at Vg max and | T | Nm | 157 | 305 | 446 | 596 | 778 | 891 | |
| Δp = 350 bar | |||||||||
| Rotary stiffness | Vg max toVg/2 | cmin | kNm/rad | 6 | 10 | 16 | 21 | 34 | 35 |
| Vg/2 to 0 | cmin | kNm/rad | 18 | 32 | 48 | 65 | 93 | 105 | |
| (interpolated) | |||||||||
| Moment of inertia for rotary group | JTW | kgm2 | 0.0014 | 0.0042 | 0,008 | 0.0127 | 0.0207 | 0.0253 | |
| Maximum angular acceleration | α | rad/s² | 47000 | 31500 | 24000 | 19000 | 11000 | 11000 | |
| Case volume | V | l | 0.5 | 0.75 | 1.2 | 1.5 | 1.8 | 2.4 | |
| Peso approx. | m | kg | 16 | 28 | 36 | 46 | 61 | 62 | |
| Tamanho | NG | 200 | 250 | 355 | 500 | 1000 | |||
| displacement | Vg max | cm3 | 200 | 250 | 355 | 500 | 1000 | ||
| Vg min | cm3 | 0 | 0 | 0 | 0 | 0 | |||
| Vg x | cm3 | 76 | 205 | 300 | 417 | 1000 | |||
| Maximum rotational | at Vg max | nnom | rpm | 2900 | 2700 | 2240 | 2000 | 1600 | |
| speed2) (while adhering to | at Vg < Vg x | nmax | rpm | 4600 | 3300 | 2650 | 2400 | 1600 | |
| the maximum permissible | (see diagram | ||||||||
| inlet flow) | on page 9) | ||||||||
| where Vg 0 | nmax | rpm | 5100 | 3300 | 2650 | 2400 | 1600 | ||
| Inlet flow3) | at nnom and | qv max | l/min | 580 | 675 | 795 | 1000 | 1600 | |
| Vg max | |||||||||
| Torque4) | at Vg max and | T | Nm | 1273 | ‒ | ‒ | ‒ | ‒ | |
| Δp = 400 bar | |||||||||
| at Vg max and | T | Nm | 1114 | 1391 | 1978 | 2785 | 5571 | ||
| Δp = 350 bar | |||||||||
| Rotary stiffness | Vg max toVg/2 | cmin | kNm/rad | 44 | 60 | 75 | 115 | 281 | |
| Vg/2 to 0 | cmin | kNm/rad | 130 | 181 | 262 | 391 | 820 | ||
| (interpolated) | |||||||||
| Moment of inertia for rotary group | JTW | kgm2 | 0.0353 | 0,061 | 0,102 | 0,178 | 0.55 | ||
| Maximum angular acceleration | α | rad/s² | 11000 | 10000 | 8300 | 5500 | 4000 | ||
| Case volume | V | l | 2.7 | 3 | 5 | 7 | 16 | ||
| Peso approx. | m | kg | 78 | 100 | 170 | 210 | 430 | ||
poocca will help you find the correct model and help you successfully purchase the right produto that suits you. Welcome to call or send an email for consultation.
The Rexroth A6VM motor is primarily employed in various machinery, including construction equipment, agricultural machinery, and industrial applications. Renowned for its reliability and efficiency, it powers hjardaraulic systems in diverse sectors requiring high-performance and robust hydraulic solutions.
1. Multifunctional hjardaraulic motor design:
The A6VM variable motor adopts an axial tapered piston rotor assembly and an oblique shaft design, and is suitable for open and closed hjardaraulic circuits. Suitable for both mobile and stationary applications, it offers a wide control range to meet high speed and torque requirements, with infinitely variable displacement from Vg max to Vg min = 0.
2. Largo range of applications and high cost-effectiveness:
The A6VM Rexroth Hjardaraulic Motor is ideally suited for mobile and stationary applications where the output speed is dependent on pump flow and motor displacement. The output torque increases as the pressure difference between the high-pressure side and the low-pressure side increases, and the displacement also increases. It has a wide control range, can realize static hydraulic transmission, and has a variety of control devices to choose from. Cost savings are achieved by eliminating the need for a gear speed mechanism and using a motor that is compact, robust and has a long service life.
3. Powerful and efficient performance:
A6VM motors feature high power density, excellent starting characteristics and minimal swing torque, and stand out for their compact, durable design. It provides long service life and cost-effectiveness by eliminating the gear speed mechanism, while meeting the needs of a variety of applications with its wide control range and multiple control options.
A6VM:A6VM28,A6VM55,A6VM80,A6VM107,A6VM140,A6VM160,A6VM200,A6VM250,A6VM355,A6VM500,A6VM1000
| Rexroth A6VM Piston Motor | |||||||||
| Tamanho | NG | 28 | 55 | 80 | 107 | 140 | 160 | ||
| displacement | Vg max | cm3 | 28.1 | 54.8 | 80 | 107 | 140 | 160 | |
| Vg min | cm3 | 0 | 0 | 0 | 0 | 0 | 0 | ||
| Vg x | cm3 | 18 | 35 | 51 | 68 | 88 | 61 | ||
| Maximum rotational | at Vg max | nnom | rpm | 5550 | 4450 | 3900 | 3550 | 3250 | 3100 |
| speed2) (while adhering to | at Vg < Vg x | nmax | rpm | 8750 | 7000 | 6150 | 5600 | 5150 | 4900 |
| the maximum permissible | (see diagram | ||||||||
| inlet flow) | on page 9) | ||||||||
| where Vg 0 | nmax | rpm | 10450 | 8350 | 7350 | 6300 | 5750 | 5500 | |
| Inlet flow3) | at nnom and | qv max | l/min | 156 | 244 | 312 | 380 | 455 | 496 |
| Vg max | |||||||||
| Torque4) | at Vg max and | T | Nm | 179 | 349 | 509 | 681 | 891 | 1019 |
| Δp = 400 bar | |||||||||
| at Vg max and | T | Nm | 157 | 305 | 446 | 596 | 778 | 891 | |
| Δp = 350 bar | |||||||||
| Rotary stiffness | Vg max toVg/2 | cmin | kNm/rad | 6 | 10 | 16 | 21 | 34 | 35 |
| Vg/2 to 0 | cmin | kNm/rad | 18 | 32 | 48 | 65 | 93 | 105 | |
| (interpolated) | |||||||||
| Moment of inertia for rotary group | JTW | kgm2 | 0.0014 | 0.0042 | 0,008 | 0.0127 | 0.0207 | 0.0253 | |
| Maximum angular acceleration | α | rad/s² | 47000 | 31500 | 24000 | 19000 | 11000 | 11000 | |
| Case volume | V | l | 0.5 | 0.75 | 1.2 | 1.5 | 1.8 | 2.4 | |
| Peso approx. | m | kg | 16 | 28 | 36 | 46 | 61 | 62 | |
| Tamanho | NG | 200 | 250 | 355 | 500 | 1000 | |||
| displacement | Vg max | cm3 | 200 | 250 | 355 | 500 | 1000 | ||
| Vg min | cm3 | 0 | 0 | 0 | 0 | 0 | |||
| Vg x | cm3 | 76 | 205 | 300 | 417 | 1000 | |||
| Maximum rotational | at Vg max | nnom | rpm | 2900 | 2700 | 2240 | 2000 | 1600 | |
| speed2) (while adhering to | at Vg < Vg x | nmax | rpm | 4600 | 3300 | 2650 | 2400 | 1600 | |
| the maximum permissible | (see diagram | ||||||||
| inlet flow) | on page 9) | ||||||||
| where Vg 0 | nmax | rpm | 5100 | 3300 | 2650 | 2400 | 1600 | ||
| Inlet flow3) | at nnom and | qv max | l/min | 580 | 675 | 795 | 1000 | 1600 | |
| Vg max | |||||||||
| Torque4) | at Vg max and | T | Nm | 1273 | ‒ | ‒ | ‒ | ‒ | |
| Δp = 400 bar | |||||||||
| at Vg max and | T | Nm | 1114 | 1391 | 1978 | 2785 | 5571 | ||
| Δp = 350 bar | |||||||||
| Rotary stiffness | Vg max toVg/2 | cmin | kNm/rad | 44 | 60 | 75 | 115 | 281 | |
| Vg/2 to 0 | cmin | kNm/rad | 130 | 181 | 262 | 391 | 820 | ||
| (interpolated) | |||||||||
| Moment of inertia for rotary group | JTW | kgm2 | 0.0353 | 0,061 | 0,102 | 0,178 | 0.55 | ||
| Maximum angular acceleration | α | rad/s² | 11000 | 10000 | 8300 | 5500 | 4000 | ||
| Case volume | V | l | 2.7 | 3 | 5 | 7 | 16 | ||
| Peso approx. | m | kg | 78 | 100 | 170 | 210 | 430 | ||
poocca will help you find the correct model and help you successfully purchase the right produto that suits you. Welcome to call or send an email for consultation.
The Rexroth A6VM motor is primarily employed in various machinery, including construction equipment, agricultural machinery, and industrial applications. Renowned for its reliability and efficiency, it powers hjardaraulic systems in diverse sectors requiring high-performance and robust hydraulic solutions.
POOCCA Hjardaraulics is a powerful hydraulic enterprise integrating R&D, manufacturing, sales and maintenance. Its produtos are exported to more than 120 countries. Its quality, price and service are deeply recognized and trusted by customers.
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