
Danfoss OMP 315 Hydraulic Motor
OMP 315 hydraulic motors are a type of mechanical device that transform hydraulic pressure and flow into rotational mechanical power. They are widely used in various industries, including construction, agriculture, marine, and mining, among others.
- Product Introduction
Danfoss OMP 315 Hydraulic Motor
The Danfoss OMP 315 hydraulic motor is a mechanical component designed to convert hydraulic pressure and fluid flow into rotational force. It finds extensive application across multiple sectors such as construction, agriculture, marine, and mining. A notable characteristic of these motors is their capacity to regulate output shaft speed, offering significant benefits in systems that demand adjustable operational speeds.
These motors function by utilizing hydraulic pressure to drive an internal rotating mechanism. The system includes a pump that delivers hydraulic fluid into the motor, where it acts upon pistons or rotors. This action generates rotation in the drive shaft. The rotational speed depends on both the rate of fluid flow and the pressure applied.
A major benefit of hydraulic motors lies in their flexible speed control. This can be accomplished through several techniques, such as modifying pump speed to alter fluid delivery-a straightforward approach often applied in agricultural equipment and hydraulic winches.
Valves also play an important role in motor speed regulation. Flow control valves and pressure control valves enable fine adjustments to fluid parameters, providing accurate management of rotational speed. This allows the motor to adapt to varying operational demands.
Certain hydraulic motors also feature variable displacement mechanisms. By changing the displacement volume of internal elements, these motors achieve smooth and continuous speed variation. This capability is especially valuable in precision applications like heavy machinery and robotic systems.
In summary, the Danfoss OMP 315 hydraulic motor is a versatile and efficient solution for industrial power transmission. Its ability to provide adjustable speed through pump adjustments, valve regulation, or variable displacement enhances its suitability for diverse applications. Ongoing advancements are expected to further broaden its functionality and uses in various industries.
ZMP Series
Structure Features
◎ Axial distribution layout with column-type stator and rotor for improved mechanical efficiency;
◎ Specially designed dynamic sealing ring with high resistance to back pressure;
◎ Supports various mounting options including flanges, output shafts, and port arrangements;
◎ Compact, lightweight, and space-saving design;
◎ Suitable for use in plastic machinery, machine tools, and related applications.
Main Specification
|
Displacement, cc/r |
50 |
63 |
80 |
100 |
125 |
160 |
200 |
250 |
305 |
400 |
|
|
Flow, LPM |
Cont. |
38 |
45 |
57 |
57 |
57 |
57 |
57 |
57 |
57 |
57 |
|
Int. |
45 |
53 |
68 |
68 |
68 |
68 |
68 |
68 |
68 |
68 |
|
|
Speed, RPM |
Cont. |
698 |
663 |
679 |
558 |
452 |
354 |
284 |
235 |
203 |
156 |
|
Int. |
859 |
774 |
811 |
669 |
544 |
425 |
339 |
281 |
242 |
180 |
|
|
Pressure, Bar |
Cont. |
124 |
124 |
124 |
124 |
124 |
115 |
110 |
100 |
100 |
90 |
|
Int. |
138 |
138 |
138 |
138 |
138 |
124 |
124 |
124 |
124 |
100 |
|
|
Torque, Nm |
Cont. |
73 |
86 |
124 |
154 |
194 |
228 |
285 |
304 |
412 |
481 |
|
Int. |
84 |
93 |
139 |
173 |
216 |
261 |
319 |
378 |
483 |
525 |
|
|
Max. allowable back pressure |
10MPa |
||||||||||
Allowable Lateral Load (At Rated Speed)
◎ Intermittent operating pressure indicates the maximum pressure allowed at the inlet, while continuous operating pressure refers to the difference between inlet and return ports;
◎ Avoid simultaneous operation at both maximum speed and maximum pressure;
◎ Under intermittent conditions, the motor should not run for more than 10% of each minute;
◎ Recommended fluid: anti-wear hydraulic oil with viscosity of 37–73 cSt and cleanliness level ISO 18/13;
◎ Maximum oil temperature must not exceed 80°C;
◎ With specialized sealing, the motor can tolerate back pressure up to 10 MPa, but for optimal service life and performance, it should be kept below 5 MPa. If exceeded, use an external drain connection while ensuring the motor remains filled with oil. The external line should be throttled to maintain back pressure above 3.5 Bar. This setup also aids in removing wear particles and providing cooling;
◎ A run-in period is required before full-load operation: run the motor for 1 hour at 30% of maximum pressure initially.◎ Intermittent operating pressure indicates the maximum pressure allowed at the inlet, while continuous operating pressure refers to the difference between inlet and return ports;
◎ Avoid simultaneous operation at both maximum speed and maximum pressure;
◎ Under intermittent conditions, the motor should not run for more than 10% of each minute;
◎ Recommended fluid: anti-wear hydraulic oil with viscosity of 37–73 cSt and cleanliness level ISO 18/13;
◎ Maximum oil temperature must not exceed 80°C;
◎ With specialized sealing, the motor can tolerate back pressure up to 10 MPa, but for optimal service life and performance, it should be kept below 5 MPa. If exceeded, use an external drain connection while ensuring the motor remains filled with oil. The external line should be throttled to maintain back pressure above 3.5 Bar. This setup also aids in removing wear particles and providing cooling;
◎ A run-in period is required before full-load operation: run the motor for 1 hour at 30% of maximum pressure initially.◎ Intermittent operating pressure indicates the maximum pressure allowed at the inlet, while continuous operating pressure refers to the difference between inlet and return ports;
◎ Avoid simultaneous operation at both maximum speed and maximum pressure;
◎ Under intermittent conditions, the motor should not run for more than 10% of each minute;
◎ Recommended fluid: anti-wear hydraulic oil with viscosity of 37–73 cSt and cleanliness level ISO 18/13;
◎ Maximum oil temperature must not exceed 80°C;
◎ With specialized sealing, the motor can tolerate back pressure up to 10 MPa, but for optimal service life and performance, it should be kept below 5 MPa. If exceeded, use an external drain connection while ensuring the motor remains filled with oil. The external line should be throttled to maintain back pressure above 3.5 Bar. This setup also aids in removing wear particles and providing cooling;
◎ A run-in period is required before full-load operation: run the motor for 1 hour at 30% of maximum pressure initially.

ZMP Series Motor Performance Data at Different Operating Points
Cont.
Int.
50 cc/r
|
Pressure difference, ΔBar |
||||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
124 |
138 |
||
|
Flow, LPM |
7.6 |
18 |
28 |
38 |
45 |
54 |
62 |
|||
|
125 |
110 |
96 |
86 |
76 |
65 |
|||||
|
15.1 |
18 |
27 |
37 |
44 |
53 |
62 |
70 |
78 |
79 |
|
|
260 |
250 |
238 |
231 |
215 |
206 |
196 |
188 |
229 |
||
|
22.7 |
16 |
24 |
32 |
40 |
49 |
58 |
65 |
71 |
80 |
|
|
414 |
406 |
395 |
385 |
375 |
368 |
356 |
345 |
370 |
||
|
30.3 |
13 |
21 |
30 |
37 |
46 |
55 |
62 |
68 |
81 |
|
|
550 |
540 |
528 |
515 |
502 |
485 |
480 |
672 |
518 |
||
|
37.9 |
14 |
23 |
34 |
43 |
51 |
61 |
68 |
71 |
81 |
|
|
698 |
698 |
693 |
690 |
689 |
684 |
681 |
672 |
672 |
||
|
45.4 |
24 |
30 |
42 |
51 |
60 |
68 |
73 |
84 |
||
|
859 |
856 |
853 |
851 |
847 |
844 |
837 |
832 |
|||
63 cc/r
|
Pressure difference, ΔBar |
||||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
124 |
138 |
||
|
Flow, LPM |
7.6 |
20 |
29 |
40 |
52 |
63 |
74 |
|||
|
110 |
108 |
108 |
105 |
104 |
103 |
|||||
|
15.1 |
20 |
29 |
40 |
50 |
58 |
69 |
77 |
86 |
93 |
|
|
220 |
214 |
212 |
210 |
206 |
202 |
200 |
198 |
198 |
||
|
22.7 |
20 |
28 |
38 |
47 |
58 |
67 |
76 |
84 |
93 |
|
|
332 |
330 |
326 |
324 |
320 |
316 |
314 |
310 |
305 |
||
|
30.3 |
18 |
26 |
34 |
44 |
53 |
63 |
74 |
82 |
89 |
|
|
443 |
440 |
436 |
434 |
432 |
430 |
428 |
426 |
425 |
||
|
37.9 |
16 |
25 |
34 |
43 |
51 |
61 |
72 |
80 |
88 |
|
|
554 |
550 |
548 |
546 |
542 |
540 |
538 |
534 |
530 |
||
|
45.4 |
23 |
30 |
42 |
51 |
60 |
68 |
78 |
84 |
||
|
663 |
660 |
658 |
654 |
650 |
648 |
645 |
643 |
|||
|
53 |
28 |
39 |
48 |
58 |
65 |
74 |
81 |
|||
|
774 |
770 |
768 |
764 |
760 |
754 |
750 |
||||
80 cc/r
|
Pressure difference, ΔBar |
||||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
124 |
138 |
||
|
Flow, LPM |
7.6 |
26 |
40 |
56 |
67 |
82 |
95 |
108 |
||
|
91 |
90 |
87 |
84 |
83 |
77 |
73 |
||||
|
15.1 |
26 |
40 |
55 |
68 |
82 |
95 |
110 |
124 |
138 |
|
|
184 |
182 |
179 |
178 |
173 |
168 |
163 |
157 |
127 |
||
|
22.7 |
25 |
39 |
53 |
68 |
82 |
95 |
109 |
124 |
138 |
|
|
277 |
276 |
270 |
268 |
265 |
256 |
254 |
245 |
210 |
||
|
30.3 |
23 |
38 |
51 |
66 |
80 |
94 |
108 |
123 |
139 |
|
|
370 |
368 |
362 |
359 |
356 |
384 |
344 |
355 |
293 |
||
|
37.9 |
22 |
37 |
50 |
65 |
79 |
93 |
107 |
122 |
139 |
|
|
426 |
46 |
452 |
450 |
446 |
436 |
432 |
432 |
376 |
||
|
45.4 |
20 |
35 |
48 |
63 |
78 |
91 |
106 |
120 |
137 |
|
|
555 |
552 |
544 |
540 |
536 |
527 |
521 |
511 |
457 |
||
|
53 |
33 |
47 |
61 |
76 |
90 |
104 |
118 |
136 |
||
|
634 |
633 |
629 |
626 |
616 |
611 |
599 |
535 |
|||
|
56.8 |
46 |
60 |
74 |
89 |
104 |
118 |
136 |
|||
|
670 |
674 |
671 |
659 |
654 |
642 |
574 |
||||
|
68 |
42 |
57 |
72 |
86 |
102 |
116 |
||||
|
811 |
808 |
804 |
791 |
787 |
772 |
|||||
100 cc/r
|
Pressure difference, ΔBar |
||||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
124 |
138 |
||
|
Flow, LPM |
7.6 |
33 |
50 |
67 |
85 |
103 |
123 |
141 |
||
|
73 |
72 |
69 |
67 |
65 |
61 |
57 |
||||
|
15.1 |
32 |
49 |
67 |
84 |
102 |
122 |
141 |
154 |
173 |
|
|
149 |
147 |
144 |
142 |
140 |
135 |
131 |
125 |
99 |
||
|
22.7 |
30 |
48 |
66 |
84 |
102 |
120 |
140 |
155 |
172 |
|
|
224 |
222 |
219 |
217 |
213 |
208 |
204 |
196 |
165 |
||
|
30.3 |
28 |
46 |
4 |
81 |
99 |
117 |
1308 |
151 |
173 |
|
|
299 |
298 |
293 |
290 |
288 |
282 |
271 |
271 |
235 |
||
|
37.9 |
26 |
44 |
61 |
79 |
97 |
114 |
138 |
149 |
172 |
|
|
374 |
372 |
366 |
364 |
361 |
354 |
351 |
343 |
302 |
||
|
45.4 |
25 |
43 |
59 |
77 |
95 |
112 |
131 |
147 |
169 |
|
|
448 |
447 |
440 |
437 |
434 |
426 |
422 |
414 |
368 |
||
|
53 |
22 |
40 |
58 |
75 |
94 |
110 |
129 |
143 |
168 |
|
|
522 |
520 |
512 |
510 |
509 |
500 |
495 |
485 |
436 |
||
|
56.8 |
39 |
56 |
74 |
93 |
107 |
127 |
141 |
168 |
||
|
558 |
549 |
547 |
545 |
535 |
531 |
521 |
468 |
|||
|
68 |
35 |
51 |
71 |
89 |
104 |
125 |
140 |
|||
|
669 |
660 |
657 |
654 |
644 |
641 |
680 |
||||
125 cc/r
|
Pressure difference, ΔBar |
|||||||||
|
28 |
41 |
55 |
69 |
83 |
100 |
124 |
138 |
||
|
Flow, LPM |
7.6 |
43 |
64 |
86 |
108 |
130 |
157 |
||
|
61 |
59 |
56 |
54 |
51 |
49 |
||||
|
15.1 |
42 |
63 |
85 |
106 |
129 |
156 |
194 |
216 |
|
|
121 |
119 |
116 |
112 |
110 |
107 |
103 |
99 |
||
|
22.7 |
42 |
63 |
84 |
106 |
128 |
156 |
192 |
215 |
|
|
182 |
180 |
1// |
1M |
171 |
168 |
165 |
162 |
||
|
30.3 |
41 |
62 |
83 |
105 |
128 |
155 |
191 |
213 |
|
|
243 |
240 |
238 |
235 |
232 |
230 |
227 |
225 |
||
|
37.9 |
40 |
61 |
83 |
104 |
126 |
155 |
190 |
213 |
|
|
304 |
302 |
319 |
317 |
314 |
311 |
308 |
305 |
||
|
45.4 |
38 |
61 |
82 |
102 |
125 |
154 |
190 |
212 |
|
|
364 |
361 |
385 |
355 |
351 |
347 |
343 |
341 |
||
|
53 |
36 |
60 |
81 |
101 |
124 |
152 |
189 |
211 |
|
|
424 |
421 |
418 |
415 |
412 |
408 |
409 |
401 |
||
|
56.8 |
58 |
80 |
99 |
122 |
151 |
187 |
211 |
||
|
452 |
450 |
447 |
443 |
440 |
438 |
436 |
|||
|
68 |
57 |
79 |
97 |
121 |
149 |
185 |
209 |
||
|
544 |
542 |
539 |
536 |
533 |
531 |
527 |
|||
160 cc/r
|
Pressure difference, ΔBar |
|||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
115 |
124 |
||
|
Flow, LPM |
7.6 |
56 |
85 |
113 |
141 |
175 |
206 |
||
|
46 |
45 |
42 |
39 |
37 |
35 |
||||
|
15.1 |
54 |
79 |
111 |
140 |
173 |
205 |
|||
|
94 |
93 |
91 |
88 |
84 |
79 |
||||
|
22.7 |
55 |
78 |
111 |
142 |
174 |
205 |
228 |
261 |
|
|
143 |
140 |
138 |
136 |
133 |
127 |
123 |
119 |
||
|
30.3 |
51 |
81 |
109 |
139 |
171 |
203 |
226 |
258 |
|
|
190 |
187 |
186 |
183 |
179 |
175 |
168 |
166 |
||
|
37.9 |
45 |
75 |
110 |
135 |
171 |
199 |
230 |
256 |
|
|
237 |
235 |
232 |
231 |
225 |
220 |
214 |
213 |
||
|
45.4 |
40 |
65 |
102 |
134 |
163 |
192 |
212 |
247 |
|
|
285 |
285 |
281 |
279 |
276 |
267 |
263 |
258 |
||
|
53 |
38 |
61 |
98 |
129 |
158 |
189 |
212 |
246 |
|
|
332 |
330 |
328 |
326 |
323 |
318 |
313 |
309 |
||
|
56.8 |
57 |
95 |
126 |
154 |
182 |
209 |
240 |
||
|
354 |
350 |
345 |
348 |
346 |
342 |
338 |
|||
|
68 |
52 |
90 |
119 |
147 |
176 |
200 |
229 |
||
|
425 |
421 |
421 |
418 |
417 |
415 |
412 |
|||
ZMP Series Motor Performance Data at Different Operating Points
Cont.
Int.
200cc/r
|
Pressure difference, ΔBar |
|||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
124 |
||
|
Flow, LPM |
7.6 |
69 |
102 |
135 |
173 |
215 |
252 |
281 |
|
|
37 |
35 |
33 |
30 |
2 |
23 |
19 |
|||
|
15.1 |
70 |
103 |
141 |
177 |
213 |
215 |
280 |
319 |
|
|
75 |
/3 |
70 |
6 |
62 |
57 |
51 |
49 |
||
|
22.7 |
64 |
95 |
135 |
176 |
215 |
248 |
238 |
318 |
|
|
114 |
113 |
113 |
111 |
107 |
103 |
101 |
100 |
||
|
30.3 |
58 |
92 |
128 |
172 |
209 |
245 |
285 |
318 |
|
|
153 |
152 |
150 |
147 |
144 |
140 |
135 |
133 |
||
|
37.9 |
63 |
96 |
135 |
173 |
210 |
247 |
282 |
315 |
|
|
192 |
190 |
181 |
182 |
1" |
173 |
167 |
165 |
||
|
45.4 |
56 |
90 |
130 |
164 |
203 |
240 |
271 |
309 |
|
|
230 |
228 |
226 |
223 |
219 |
214 |
210 |
208 |
||
|
53 |
88 |
128 |
161 |
201 |
238 |
270 |
308 |
||
|
267 |
264 |
262 |
256 |
252 |
246 |
242 |
|||
|
56.8 |
86 |
125 |
158 |
179 |
233 |
263 |
301 |
||
|
284 |
282 |
279 |
278 |
275 |
2M |
269 |
|||
|
68 |
81 |
118 |
152 |
192 |
226 |
265 |
295 |
||
|
339 |
337 |
336 |
333 |
331 |
328 |
324 |
|||
250cc/r
|
Pressure difference, ΔBar |
||||||||
|
28 |
41 |
55 |
69 |
83 |
100 |
124 |
||
|
Flow, LPM |
7.6 |
76 |
115 |
160 |
209 |
253 |
304 |
|
|
28 |
27 |
25 |
24 |
22 |
19 |
|||
|
15.1 |
76 |
116 |
159 |
207 |
252 |
303 |
378 |
|
|
62 |
61 |
59 |
58 |
55 |
48 |
48 |
||
|
22.7 |
71 |
108 |
153 |
201 |
250 |
301 |
378 |
|
|
93 |
92 |
90 |
87 |
83 |
76 |
75 |
||
|
30.3 |
63 |
102 |
150 |
200 |
249 |
297 |
376 |
|
|
124 |
124 |
122 |
119 |
115 |
109 |
107 |
||
|
37.9 |
58 |
101 |
147 |
195 |
242 |
293 |
372 |
|
|
157 |
156 |
154 |
150 |
146 |
139 |
137 |
||
|
45.4 |
48 |
90 |
136 |
185 |
230 |
284 |
368 |
|
|
188 |
187 |
185 |
180 |
176 |
171 |
169 |
||
|
53 |
47 |
84 |
133 |
179 |
219 |
275 |
366 |
|
|
219 |
218 |
216 |
213 |
209 |
200 |
175 |
||
|
56.8 |
81 |
129 |
171 |
204 |
273 |
365 |
||
|
235 |
234 |
232 |
229 |
228 |
228 |
|||
|
68 |
81 |
129 |
170 |
202 |
270 |
362 |
||
|
281 |
280 |
278 |
272 |
273 |
269 |
|||
305cc/r
|
Pressure difference, ΔBar |
||||||||
|
28 |
41 |
55 |
69 |
83 |
97 |
110 |
||
|
Flow, LPM |
7.6 |
97 |
145 |
206 |
260 |
326 |
352 |
|
|
23 |
22 |
20 |
19 |
16 |
12 |
|||
|
15.1 |
100 |
147 |
204 |
259 |
325 |
361 |
403 |
|
|
47 |
45 |
44 |
42 |
37 |
34 |
31 |
||
|
22.7 |
97 |
140 |
188 |
262 |
320 |
364 |
401 |
|
|
70 |
69 |
68 |
64 |
60 |
55 |
49 |
||
|
30.3 |
91 |
135 |
195 |
256 |
315 |
357 |
395 |
|
|
94 |
94 |
92 |
88 |
83 |
79 |
75 |
||
|
37.9 |
75 |
125 |
185 |
247 |
305 |
350 |
393 |
|
|
118 |
117 |
115 |
112 |
109 |
104 |
100 |
||
|
45.4 |
68 |
127 |
191 |
250 |
305 |
348 |
392 |
|
|
143 |
142 |
140 |
138 |
134 |
130 |
128 |
||
|
53 |
65 |
113 |
177 |
240 |
296 |
342 |
390 |
|
|
167 |
166 |
164 |
162 |
158 |
153 |
149 |
||
|
56.8 |
108 |
170 |
234 |
290 |
338 |
390 |
||
|
178 |
178 |
176 |
175 |
172 |
168 |
|||
|
68 |
102 |
168 |
233 |
288 |
336 |
387 |
||
|
208 |
208 |
207 |
205 |
201 |
199 |
|||
400cc/r
|
Pressure difference, ΔBar |
|||||||
|
28 |
41 |
55 |
69 |
83 |
90 |
||
|
Flow, LPM |
7.6 |
153 |
235 |
323 |
411 |
496 |
|
|
14 |
13 |
10 |
10 |
8 |
|||
|
15.1 |
142 |
215 |
305 |
390 |
485 |
485 |
|
|
30 |
28 |
27 |
23 |
21 |
18 |
||
|
22.7 |
133 |
205 |
302 |
386 |
437 |
483 |
|
|
46 |
45 |
43 |
39 |
33 |
29 |
||
|
30.3 |
123 |
184 |
296 |
370 |
466 |
506 |
|
|
62 |
61 |
58 |
56 |
51 |
48 |
||
|
37.9 |
120 |
181 |
282 |
378 |
467 |
516 |
|
|
78 |
76 |
75 |
71 |
66 |
62 |
||
|
45.4 |
110 |
192 |
287 |
377 |
457 |
510 |
|
|
93 |
92 |
90 |
85 |
80 |
76 |
||
|
53 |
91 |
166 |
251 |
342 |
417 |
475 |
|
|
109 |
108 |
106 |
101 |
96 |
93 |
||
|
56.8 |
165 |
249 |
338 |
403 |
471 |
||
|
115 |
111 |
109 |
102 |
101 |
|||
|
68 |
159 |
242 |
327 |
389 |
448 |
||
|
136 |
134 |
129 |
127 |
122 |
|||
The above data are measured at the oil temperature of 50 ℃ and with 68# anti-wear hydraulic oil.
The actual test data may vary slightly from the data in the above table.
ZMP Series Motor Dimensions and Mounting Data

|
Displacement, cc/r |
50 |
63 |
80 |
100 |
125 |
160 |
200 |
250 |
305 |
400 |
|
L mm |
141.5 |
143.8 |
147 |
150.3 |
155.5 |
161.5 |
169.5 |
178.5 |
188.5 |
204.5 |
Standard direction of rotation: when facing shaft end of motor, shaft to rotate clockwise when the oil is fed at port A and discharged at port B, and vice versa.
ZMP Series Motor - Flange Dimensions and Mounting Data


ZMP Series Motor - Output Shaft Dimensions and Mounting Data

Note: When a motor is ordered, the model and product number should be selected in the Motor Ordering Information based on the reference dimensions in the above figure; if the corresponding Dimensions and Mounting Data and product number can not be found in the ordering specifications, please contact the company marketing department.
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