Wenzhou Prance Hydraulic Equipment Co., Ltd
Radial Piston motor MCR
1.Compact and Lightweight Design
2.High Power and Torque Density
3.Excellent Starting and Low-Speed Performance
4.Modular Construction
5.Low Noise Operation
Detailed description
This hydraulic motor adopts a compact and lightweight overall design through optimized internal structural layout and material optimization. It effectively reduces overall installation space and equipment load, making it highly adaptable to compact machinery and mobile devices with strict space and weight limitations. It delivers outstanding high power and torque density, outputting strong power and torque with a small structural size, greatly improving equipment working efficiency while maintaining a miniaturized structure. The motor achieves excellent starting and low-speed performance with stable pressure and flow control. It features smooth starting response, no jitter or crawling phenomenon, and can operate steadily at ultra-low speeds to meet precise and stable operation requirements. Adopting a mature modular construction, it supports flexible assembly and quick replacement of components, simplifying installation, maintenance and later upgrading. In addition, optimized internal flow channels and precision machining parts effectively reduce fluid turbulence and mechanical friction, realizing low noise operation and providing a quiet and stable working environment for the whole hydraulic system.
Technical data
(for applications outside these parameters please consult us)
General
| Type | Radial piston motor | |||||||
| Description | Radia piston multi-disc motor, switchable displacement | |||||||
| Model description | MCR 10... | |||||||
| Type of mounting | Flange mounting; face mounting | |||||||
| Connections | Threaded or flanged | |||||||
| Mounting position | Optional | |||||||
| Shaft loading | See page 6 | |||||||
| Rotation | clockwise/anti-clockwise - reversible | |||||||
| Frame size | 10 | |||||||
| Size | 780 | 940 | 1120 | 1250 | 1340 | |||
| Displacement | V | cm3 | 780 | 940 | 1120 | 1250 | 1340 | |
| Flow n= 100 rpm/100 bar | qV | L/min | 79 | 95 | 113,5 | 126,5 | 136,5 | |
| Output torque 1;7) | 1240 | 1494 | 1783 | 1990 | 2130 | |||
| -specific torque (at Δp= 100 bar) |
T | Nm | ||||||
| - peak torque | T | Nm | 5134 | 6187 | 6659 | 7432 | 8027 | |
| Output speed 1;7) | 5 to 10 for smooth running, depending on application | |||||||
| - min. speed | n | rpm | ||||||
| -max. speed | n | rpm | 170 | 150 | 150 | 140 | 120 | |
| - freewheeling speed | n | rpm | 400 | |||||
| Output power 1;7) | 44 | 44 | 50 | 50 | 50 | |||
| - continuous power | P | kW | ||||||
| Weight | -motor | m | kg | 69 | ||||
| - motor with holding brake | m | kg | 81 | |||||
| - motor with travel brake | m | kg | 92 | |||||
Hydraulic
| Nominal pressure | p | bar | 250 | ||
| Pressure differential, cont. 2;6;7;8) | Δp | bar | 250 | ||
| - for mineral oil (HL, HLP) | |||||
| Pressure differential, peak 3; 6;7;8) | Δp | bar | 450 | 400 | |
| -for mineral oil (HL, HLP) | |||||
| Inlet pressure6) Port "A" or "B" | p | bar | 470 | 420 | |
| Summated pressure 4; 6) Port "A" + "B" | p | bar | 470 | 420 | |
| Case drain pressure, max. | pmax | bar | 10 | ||
| Switching pressure (displacement switching) | bar | 10 to 30 | |||
| Hydraulic fluid 5) | Mineral oil(HL, HLP) to DIN 51 524 | ||||
| Hydraulic fluid temperature range | Θ | ℃ | -20 to 80 | ||
| Viscosity range | ν | mm2/s | 10 to 2000 | ||
| Fluid cleanliness: | Maximum permissible degree of contamination of fluid to NAS 1638 Class 9. We therefore recommend a filter with a minimum retention rate of β10 ≥75. | ||||
Brake
| Holding brake (disc brake) | |||
| Holding torque | T | Nm | 7000 |
| Release pressure | p | bar | min.15;max.30 |
| Travel brake (drum brake) | see table page 10 | ||
1)The values given apply after 100 hours run-in time
2) Continuous operation
3) Peak values may occur for a maximum duration of one second only within an operating minute
4) We recommend Pmin = 15 bar in the return line
5) Environmentally-friendly fluids HETG, HEPG, HEES to RE 90 221
6) When operating motors in series please consult our technical office
7)⚠ Warning: When running the motor in (min. 20 hours) note that :motor should not be run unloaded at more than 50 % maximum speed.
8)For single shaft end "L60" max. permissible pressure differential Δp = 250 bar
Technical data (mean values, measured at ν = 46 mm2/s and θ = 45℃)
Notes on technical data
| T= Torque in Nm | qV = Inlet flow in L/min | qVL = Case drain flow in L/min |
| -All torques apply to run-in motors (see note p. 4, footnote 7) -For "half displacement" mode multiply torque- and qV-values by 0.5. -The torque values at half displacement do not apply to both directions of rotation but only to the preferred direction of rotation marked (see pp. 7-9) |
||
| Size | 780 | 1250 | |||||||||||
| Speed n in rpm | 0 | 25 | 50 | 100 | 150 | 0 | 25 | 50 | 100 | 150 | |||
| Pressure differential Δp in bar | 100 | T | Nm | 806 | 994 | 1049 | 1029 | 911 | 1094 | 1818 | 1726 | 1517 | 1309 |
| qV | L/min | 0,3 | 19,8 | 39,47 | 79,00 | 118,2 | 1,00 | 32,09 | 63,73 | 126,69 | 189,30 | ||
| qVL | L/min | 0,15 | 0,15 | 0,24 | 0,50 | 0,60 | 0,50 | 0,56 | 0,63 | 0,76 | 0,90 | ||
| 200 | T | Nm | 1736 | 2232 | 2282 | 2232 | 2158 | 2586 | 3669 | 3684 | 3497 | ||
| qV | L/min | 0,60 | 20,10 | 39,80 | 79,50 | 118,8 | 2,86 | 33,03 | 64,63 | 127,82 | |||
| qVL | L/min | 0,30 | 0,30 | 0,40 | 0,75 | 0,9 | 1,43 | 1,44 | 1,45 | 1,46 | |||
| 300 | T | Nm | 2604 | 3348 | 3422 | 3348 | 4178 | 5550 | 5574 | ||||
| qV | L/min | 0,80 | 20,30 | 40,00 | 80,00 | 4,08 | 34,08 | 66,16 | |||||
| qVL | L/min | 0,40 | 0,40 | 0,50 | 1,00 | 2,04 | 2,10 | 2,16 | |||||
| 400 | T | Nm | 3472 | 4464 | 4563 | 5730 | 7432 | 7416 | |||||
| qV | L/min | 1,40 | 20,90 | 40,80 | 5,68 | 35,11 | 67,35 | ||||||
| qVL | L/min | 0,70 | 0,70 | 0,90 | 2,84 | 2,92 | 3,00 | ||||||
| 450 | T | Nm | 3906 | 5022 | 5134 | ||||||||
| qV | L/min | 1,6 | 21,10 | 41,00 | |||||||||
| qVL | L/min | 0,80 | 0,8 | 1,00 | |||||||||
| Size | 940 | 1340 | |||||||||||
| Speed n in rpm | 0 | 25 | 50 | 100 | 150 | 0 | 25 | 50 | 100 | ||||
| Pressure differential Δp in bar | 100 | T | Nm | 971 | 1198 | 1264 | 1240 | 1098 | 1182 | 1964 | 1865 | 1639 | |
| qV | L/min | 1,00 | 23,80 | 47,47 | 95,00 | 142,20 | 1,00 | 34,61 | 68,78 | 136,76 | |||
| qVL | L/min | 0,15 | 0,15 | 0,24 | 0,50 | 0,60 | 0,50 | 0,56 | 0,63 | 0,76 | |||
| 200 | T | Nm | 2091 | 2690 | 2750 | 2689 | 2793 | 3962 | 3979 | 3777 | |||
| qV | L/min | 0,60 | 24,10 | 47,80 | 95,50 | 2,86 | 35,56 | 69,68 | 137,93 | ||||
| qVL | L/min | 0,30 | 0,30 | 0,40 | 0,75 | 1,43 | 1,44 | 1,45 | 1,46 | ||||
| 300 | T | Nm | 3137 | 4035 | 4124 | 4512 | 5994 | 6020 | |||||
| qV | L/min | 0,80 | 24,30 | 48,00 | 4,08 | 36,64 | 71,24 | ||||||
| qVL | L/min | 0,40 | 0,40 | 0,50 | 2,04 | 2,10 | 2,16 | ||||||
| 400 | T | Nm | 4183 | 5380 | 5500 | 6188 | 8027 | 8010 | |||||
| qV | L/min | 1,40 | 24,90 | 48,80 | 5,68 | 37,67 | 72,50 | ||||||
| qVL | L/min | 0,70 | 0,70 | 0,90 | 2,84 | 2,92 | 3,00 | ||||||
| 450 | T | Nm | 4706 | 6052 | 6187 | ||||||||
| qV | L/min | 1,60 | 25,10 | 49,00 | |||||||||
| qVL | L/min | 0,80 | 0,80 | 1,00 | |||||||||
| Size | 1120 | |||||||
| Speed n in rpm | 0 | 25 | 50 | 100 | 150 | |||
| Pressure differential Δp in bar | 100 | T | Nm | 980 | 1629 | 1547 | 1360 | 1173 |
| qV | L/min | 1,00 | 28,82 | 57,19 | 113,62 | 169,80 | ||
| qVL | L/min | 0,50 | 0,56 | 0,63 | 0,76 | 0,90 | ||
| 200 | T | Nm | 2317 | 3287 | 3301 | 3134 | ||
| qV | L/min | 2,86 | 29,76 | 58,07 | 114,71 | |||
| qVL | L/min | 1,43 | 1,44 | 1,45 | 146 | |||
| 300 | T | Nm | 3743 | 4973 | 4994 | |||
| qV | L/min | 4,08 | 30,76 | 59,49 | ||||
| qVL | L/min | 2,04 | 2,10 | 2,16 | ||||
| 400 | T | Nm | 5134 | 6660 | 6645 | |||
| qV | L/min | 5,68 | 31,76 | 60,87 | ||||
| qVL | L/min | 2,84 | 2,92 | 3,00 | ||||