Danfoss OMP 315 Hydraulic Motor

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.

image001
ZMP Series Motor Performance Data at Different Operating Points

 

image003 Cont.   image004 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

 

image003 Cont.   image004 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

 

image008

 

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

 

image010

image011

 

ZMP Series Motor - Output Shaft Dimensions and Mounting Data

 

image014

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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