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ML plum blossom coupling

ML plum blossom coupling

ML PlumCouplingThe structure is simple, the radial dimension is small, the weight is light, and the moment of inertia is small. It is suitable for medium and high speed occasions.Plum couplingStable and reliable work, with good vibration reduction, cushioning and electrical edge performance.
JMI diaphragm couplingMLZ type single flange plum blossom elastic couplingFlexible elastic coupling

ML series plum-shaped elasticCouplingHas the following characteristics:Plum couplingThe structure is simple, the radial size is small, the weight is light, and the moment of inertia is small. It is suitable for medium and high speed applications. The plum blossom coupling works stably and reliably, and has good vibration damping, buffering and electrical edge performance.QuincunxFlexible couplingIt has large axial, radial and angular compensation capabilities, plum-shaped elastic coupling, high-strength polyurethane elastic elements, wear-resistant and oil-resistant, large load-bearing capacity, long service life, and reliability. The coupling does not require lubrication and requires less maintenance. , Can run continuously for a long time.
梅花形弹性联轴器主要适用于起动频繁、正反转、中高速、中等扭矩和要求高可靠性的工作场合,例如:冶金、矿山、石油、化工、起重、运输、轻工、纺织、水泵、风机等。工作环境温度 -35℃~+80℃,传递公称扭矩25~12500Nm,许用转速1500~15300r/min。
ML series quincunx elastic coupling is mainly composed of two protruding teeth that are closely meshed and subjected to radial compression to transmit torque. When the two axes are relatively offset, the elastic element undergoes corresponding elastic deformation and plays a role of automatic compensation.

 

model

 

Old model

Nominal torque/Nm

 

Allowable speed/r/min

 

Axle hole diameter d1, d2, dz

 

L

 

L0

 

D

 

Elastic part model

Weight/kg

Moment of inertia/kg.m²

Elastic part hardness

a/Ha

b/Hb

80 + 5

60 + 5

LM1

ML1

25

45

15300

12.14.16.18.19.20.22.24.25

35

86

50

MT1

0.657

0.00022

LM3

ML2

100

200

10900

20.22.24.25.28.30.32

40

103

70

MT3

1.407

0.00087

LM4

ML3

140

280

9000

22.24.25.28.30.32.35.38.40

45

114

85

MT4

2.182

0.002

LM5

ML4

350

400

7300

25.28.30.32.35.38.40.42.45

50

127

105

MT5

3.601

0.0049

LM6

ML5

400

710

6100

30.32.35.38.40.42.45.48

55

143

125

MT6

6.075

0.0114

LM7

ML6

630

1120

5300

35*.38*.40*.42*.45.48.50.55

60

159

145

MT7

9.089

0.0232

LM8

ML7

1120

2240

4500

45*.48*.50.55.56.60.63.65

70

181

170

MT8

13.561

0.0468

LM9

ML8

1800

3550

3800

50*.55*.56*.60.63.65.70.71.75.80

80

208

200

MT9

21.402

0.1041

LM10

ML9

2800

5600

3300

60*.63.65*.70.71.75.80.85.90.95.100

90

230

230

MT10

32.03

0.2105

LM11

ML10

4500

9000

2900

70*.71*.75.80*.85*.90.95.100.110.120

100

260

260

MT11

49.515

0.4338

LM12

ML11

6300

12500

2500

80*.85*.90*.95*.100.110.120.125.130

115

297

300

MT12

73.448

0.82

LM13

ML12

11200

20000

2100

90*.95*.100*.110*.120*.125*.130.150.160

125

323

360

MT13

103.86

1.672

LM14

ML13

12500

25000

1900

100*.110*.120*.125*.130*.140*.150.160

135

333

400

MT14

127.59

2.499

Note: 1. Mass and moment of inertia are approximate values ​​calculated based on the material being cast steel, L recommendation, and small shaft hole. 2. The diameter of the shaft hole with * can be used for the Z-shaped shaft hole. 3.a and b are two elastic materials