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A6VM
XLF
00001
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Product technical data
XLF-A6VM Axial Piston Fixed Pump Features
- Fixed pump with axial tapered piston rotary group ofbent-axis design, for hydrostatic drives in an open circuit
- For use in mobile and stationary applications- The flow is proportional to the drive speed and displacement
- The drive shaft bearings are designed for the bearing servicelife requirements usually encountered in these areas
- High power density
- Small dimensions
- High total efficiency
- Economical design
- One-piece tapered piston with piston rings for sealing
|
XLF-A6VM Axial Piston Fixed Pump Product detail picture
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Application Video
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XLF-A6VM Axial Piston Fixed Pump Technical data
| Technical data | ||||||||||||||||
| Size | NG | 28 | 55 | 80 | 107 | 140 | 160 | |||||||||
| Geometric displacement,per revolution1 | Vg maxcm⊃3; | 28.1 | 54.8 | 80 | 107 | 140 | 160 | |||||||||
| Vg mi cm⊃3; | 0 | 0 | 0 | 0 | 0 | 0 | ||||||||||
| Vgx cm⊃3; | 18 | 35 | 51 | 68 | 88 | 61 | ||||||||||
| Maximum rotational at Vgma | TLngr rpm | 5550 | 4450 | 3900 | 3550 | 3250 | 3100 | |||||||||
| speed⊃2;)(while adhering to the maximum permissible | at Vg<Vgx see diagram on page 9) | Mmax rpm | 8750 | 7000 | 6150 | 5600 | 5150 | 4900 | ||||||||
| nlet flow) where Vg | 11m rpm | 10450 | 8350 | 7350 | 6300 | 5750 | 5500 | |||||||||
| Inlet flow3 at nnom and Vg max | qv ma l/min | 156 | 244 | 312 | 380 | 455 | 496 | |||||||||
| Torque4 at Vg mx and Ap=400 bar | T Nm | 179 | 349 | 509 | 681 | 891 | 1019 | |||||||||
| at Vg max and Ap =350 bar | T Nm | 157 | 305 | 446 | 596 | 778 | 891 | |||||||||
| Rotary stiffness Vg max toVg/2 | Cmin kNm/rad | 6 | 10 | 16 | 21 | 34 | 35 | |||||||||
| V/2 to 0 (interpolated | Cmin kNm/rad | 18 | 32 | 48 | 65 | 93 | 105 | |||||||||
| Moment of inertia for rotary group | Jrw kgm2 | 0.0014 | 0.0042 | 0,008 | 0.0127 | 0.0207 | 0.0253 | |||||||||
| Maximum angular acceleration | d rad/s2 | 47000 | 31500 | 24000 | 19000 | 11000 | 11000 | |||||||||
| Case volume | V | 0.5 | 0.75 | 1.2 | 1.5 | 1.8 | 2.4 | |||||||||
| Weight approx | m kg | 16 | 28 | 36 | 46 | 61 | 62 | |||||||||
| Size | NG | 200 | 250 | 355 | 500 | 1000 | ||||||||||
| Geometric displacement,per revolution1 | Vg max | cm⊃3; | 200 | 250 | 355 | 500 | 1000 | |||||||||
| Vg min | cm⊃3; | 0 | 0 | 0 | 0 | 0 | ||||||||||
| Vgx | cm⊃3; | 76 | 205 | 300 | 417 | 1000 | ||||||||||
| Maximum rotational speed⊃2;)(while adhering the maximum permissible nlet flow) nlet flow⊃3;) Torque4 Rotary stiffness | at Vgma toat Vp<V₂ (see diagram on page 9 where Vgo at nnom and Vg ma at Vg max and Ap=400 bar at Vg max and Ap =350 bar Vg mx toVg/2 | 7tnom | rpm | 2900 | 2700 | 2240 | 2000 | 1600 | ||||||||
| Nmas | rpm | 4600 | 3300 | 2650 | 2400 | 1600 | ||||||||||
| 70ma | rpm | 5100 | 3300 | 2650 | 2400 | 1600 | ||||||||||
| 9v max | l/min | 580 | 675 | 795 | 1000 | 1600 | ||||||||||
| T | Nm | 1273 | 一 | |||||||||||||
| T | Nm | 1114 | 1391 | 1978 | 2785 | 5571 | ||||||||||
| Cmin | kNm/rad | 44 | 60 | 75 | 115 | 281 | ||||||||||
| Vg/2 to 0(interpolated) | Cmin | kNm/rad | 130 | 181 | 262 | 391 | 820 | |||||||||
| Moment of inertia for rotary group Maximum angular acceleration Case volume Weight approx | Jnw | kgm⊃2; | 0.0353 | 61 | 0,102 | 178 | 0.55 | |||||||||
| a | rad/s⊃2; | 11000 | 10000 | 8300 | 5500 | 4000 | ||||||||||
| V | 2.7 | 3.00 | 5.0 | 7.0 | 16.0 | |||||||||||
| m | kg | 78 | 100 | 170 | 210 | 430 | ||||||||||
|
Product technical data
XLF-A6VM Axial Piston Fixed Pump Features
- Fixed pump with axial tapered piston rotary group ofbent-axis design, for hydrostatic drives in an open circuit
- For use in mobile and stationary applications- The flow is proportional to the drive speed and displacement
- The drive shaft bearings are designed for the bearing servicelife requirements usually encountered in these areas
- High power density
- Small dimensions
- High total efficiency
- Economical design
- One-piece tapered piston with piston rings for sealing
|
XLF-A6VM Axial Piston Fixed Pump Product detail picture
|
Application Video
|
XLF-A6VM Axial Piston Fixed Pump Technical data
| Technical data | ||||||||||||||||
| Size | NG | 28 | 55 | 80 | 107 | 140 | 160 | |||||||||
| Geometric displacement,per revolution1 | Vg maxcm⊃3; | 28.1 | 54.8 | 80 | 107 | 140 | 160 | |||||||||
| Vg mi cm⊃3; | 0 | 0 | 0 | 0 | 0 | 0 | ||||||||||
| Vgx cm⊃3; | 18 | 35 | 51 | 68 | 88 | 61 | ||||||||||
| Maximum rotational at Vgma | TLngr rpm | 5550 | 4450 | 3900 | 3550 | 3250 | 3100 | |||||||||
| speed⊃2;)(while adhering to the maximum permissible | at Vg<Vgx see diagram on page 9) | Mmax rpm | 8750 | 7000 | 6150 | 5600 | 5150 | 4900 | ||||||||
| nlet flow) where Vg | 11m rpm | 10450 | 8350 | 7350 | 6300 | 5750 | 5500 | |||||||||
| Inlet flow3 at nnom and Vg max | qv ma l/min | 156 | 244 | 312 | 380 | 455 | 496 | |||||||||
| Torque4 at Vg mx and Ap=400 bar | T Nm | 179 | 349 | 509 | 681 | 891 | 1019 | |||||||||
| at Vg max and Ap =350 bar | T Nm | 157 | 305 | 446 | 596 | 778 | 891 | |||||||||
| Rotary stiffness Vg max toVg/2 | Cmin kNm/rad | 6 | 10 | 16 | 21 | 34 | 35 | |||||||||
| V/2 to 0 (interpolated | Cmin kNm/rad | 18 | 32 | 48 | 65 | 93 | 105 | |||||||||
| Moment of inertia for rotary group | Jrw kgm2 | 0.0014 | 0.0042 | 0,008 | 0.0127 | 0.0207 | 0.0253 | |||||||||
| Maximum angular acceleration | d rad/s2 | 47000 | 31500 | 24000 | 19000 | 11000 | 11000 | |||||||||
| Case volume | V | 0.5 | 0.75 | 1.2 | 1.5 | 1.8 | 2.4 | |||||||||
| Weight approx | m kg | 16 | 28 | 36 | 46 | 61 | 62 | |||||||||
| Size | NG | 200 | 250 | 355 | 500 | 1000 | ||||||||||
| Geometric displacement,per revolution1 | Vg max | cm⊃3; | 200 | 250 | 355 | 500 | 1000 | |||||||||
| Vg min | cm⊃3; | 0 | 0 | 0 | 0 | 0 | ||||||||||
| Vgx | cm⊃3; | 76 | 205 | 300 | 417 | 1000 | ||||||||||
| Maximum rotational speed⊃2;)(while adhering the maximum permissible nlet flow) nlet flow⊃3;) Torque4 Rotary stiffness | at Vgma toat Vp<V₂ (see diagram on page 9 where Vgo at nnom and Vg ma at Vg max and Ap=400 bar at Vg max and Ap =350 bar Vg mx toVg/2 | 7tnom | rpm | 2900 | 2700 | 2240 | 2000 | 1600 | ||||||||
| Nmas | rpm | 4600 | 3300 | 2650 | 2400 | 1600 | ||||||||||
| 70ma | rpm | 5100 | 3300 | 2650 | 2400 | 1600 | ||||||||||
| 9v max | l/min | 580 | 675 | 795 | 1000 | 1600 | ||||||||||
| T | Nm | 1273 | 一 | |||||||||||||
| T | Nm | 1114 | 1391 | 1978 | 2785 | 5571 | ||||||||||
| Cmin | kNm/rad | 44 | 60 | 75 | 115 | 281 | ||||||||||
| Vg/2 to 0(interpolated) | Cmin | kNm/rad | 130 | 181 | 262 | 391 | 820 | |||||||||
| Moment of inertia for rotary group Maximum angular acceleration Case volume Weight approx | Jnw | kgm⊃2; | 0.0353 | 61 | 0,102 | 178 | 0.55 | |||||||||
| a | rad/s⊃2; | 11000 | 10000 | 8300 | 5500 | 4000 | ||||||||||
| V | 2.7 | 3.00 | 5.0 | 7.0 | 16.0 | |||||||||||
| m | kg | 78 | 100 | 170 | 210 | 430 | ||||||||||
Address: Shenghua Industrial Park, Xincheng 12 road, Dongxihu District, Wuhan, China
Phone: +86-18908655554
WhatsApp: +86-18908655554
Email: service@xlf-hydraulic.com
