5200 Series Helical Oil Separator

5200 Series Helical Oil Separator

5200 Series Helical Oil Separator

Installation Instructions:
We need to pre-charge the oil before installing oil separator, the oil should be same as the oil in the compressor crankcase.Oil separator should be installed near the discharge line which between the compressor and condenser properly.
A check valve should be located downstream of the outlet connection.This check valve is to prevent liquid refrigerant migrating from the condenser,and with properly pipe disposed.There must be a line connect from 3/8"SAE oil return to compressor crankcase or oil accumulator.
The oil separator must be installed vertically.Proper piping practice should be adopted to prevent excessive loads or vibration at the inlet and outlet connections.

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Details

Introduction:
The feature of 5200 series helical oil separator is centrifugal separation, which could caused ideal oil-separating effect under the minimum pressure drop working condition.The mixed gaseous refrigerant with suspended oil particles from compressor get into oil separator, and get touch with helical deflector,spin and flow along the deflector.Under the effect of centrifugal force,some of them are separated to the side of helical deflector,and the other are catched by the mesh screen of cylinder wall.These oil particles gather to become bigger and get accumulated in the oil accumulator of the separator bottom.After centrifugal separation,the pure gaseous refrigerant are removed by second mesh screen.
The feature of HangF 5200 series helical oil separator design:
1.The intergrated double helix design make the centrifugal separation of mix gaseous refrigerant fluent and improve the oil separating efficiency. 2.The installation of oil drop drip ring on the bottom will isolate the oil and collect in the oil accumulator.
3.In order to avoid the the gaseous refrigerant in the oil separator get split, there is a clapboard in it to prevent.
4.In the circumstances of not reducing flow rate loss,the barrel-shaped second mesh screen are added on the draft tube bottom which filtered more than 40um impurities efficiently.
5.Installing a magnet on the bottom of ball float could absorb the iron dust of the oil separator.

Model


ODF
(in)

(mm)Dimensions

Pre- charge qty(mL)


Volume
(L)


Remarks

∅D

A

HI

H2

H

∅F

5200-04422

1/2

102

25

19

256

332

/

400mL

2.2L

Fig1

5200-05425

5/8

102

25

19

306

382

/

400mL

2.5L

Fig1

5200-07429

7/8

102

25

19

354

432

/

400mL

2.9L

Fig1

5200-09433

1-1/8

102

25

19

401

482

/

400mL

3.3L

Fig1

5200-11658

1-3/8

152

35

128

448

560

/

450mL

5.8L

Fig 2

5200-13658

1-5/8

152

35

128

448

565

/

450mL

5.8L

Fig 2

5200-17658

2-1/8

152

40

128

443

566

/

450mL

5.8L

Fig 2

5200-17913

2-1/8

219

40

128

474

624

151

500mL

13.2L

Fig 3

5200-21913

2-5/8

219

50

128

465

635

151

500mL

13.2L

Fig 3

5200-211123

2-5/8

273

50

128

527

710

205

500mL

22.71

Fig 3

5200-251123

3-1/8

273

50

128

519

710

205

500mL

22.71

Fig 3

5200-251337

3-1/8

325

50

128

583

783

257

500mL

37.2L

Fig 3

Model

(Ky) In the refrigerating capacity of the evaporation temperature

(m3/h) Maximum Discharge Volume (m3/hr)

R404A/R507

R134a

R22/R407C

-40℃

+5℃

-40℃

+5℃

-40℃

+5℃

5200-04422

5.3

7.0

3.6

5.2

5.3

7.0

2.6

5200-05425

14.1

19.2

9.4

13.6

15.8

19.4

6.8

5200-07429

22.4

39.4

16.0

19.0

24.6

28.2

10.2

5200-09433

27

35

19

23

29

33

11.9

5200-11658

58

76

42

51

65

74

26.8

5200-13658

66

87

48

58

73

84

30.6

5200-17658

82

104

50

61

82

104

32.3

5200-17913

110

145

80

97

124

140

50.6

5200-21913

154

212

112

146

174

208

87.8

5200-211123

220

290

159

195

249

281

102

5200-251123

296

382

203

238

318

364

143

5200-251337

349

469

253

309

392

444

161

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