FHN

Product Overview

FHN series

The FHN series is a lightweight product designed to be 20% lighter than standard models, making it an excellent choice for applications where weight reduction is essential.

The lighter design allows for easier handling, installation, and transport, making it ideal for industries where mobility and space are crucial. This series is particularly beneficial in applications where weight savings contribute to improved overall efficiency, such as in automotive manufacturing, robotics, and aerospace sectors.

Despite its reduced weight, the FHN series maintains the durability and functionality required for demanding environments, offering a balance of strength and lightness.

LHN-III
Model Reduction ratio Rated torque at 2000r/min input Permissible peak torque at start and stop Permissible maximum value for average load torque Permissible maximum momentary torque Permissible maximum input rotational speed Permissible average input rotational speed Backlash Weight Design life
Grease Grease
Nm kgfm Nm kgfm Nm kgfm Nm kgfm r/min r/min Arc Sec kg Hour
11 50 3.5 0.36 8.3 0.85 5.5 0.56 17 1.73 8500 3500 ≤30 FHT-I: 0.27 10000
100 5 0.51 11 1.12 8.9 0.91 25 2.55 10000
14 50 5.4 0.55 18 1.8 6.9 0.7 35 3.6 8500 3500 ≤20 FHT-I/II: 0.4
FHT-III: 0.7
FHT-IV:0.66
FHT-V:0.4
FHT-C: 0.14
FHN-III: 0.55
FHN-IV: 0.5
10000
80 7.8 0.8 23 2.4 11 1.1 47 4.8 15000
100 7.8 0.8 28 2.9 11 1.1 54 5.5 15000
17 50 16 1.6 34 3.5 26 2.6 70 7.1 7300 3500 ≤20 FHT-I/II: 0.54
FHT-III: 0.99
FHT-IV:0.9
FHT-V:0.62
FHT-C: 0.19
FHN-III: 0.79
FHN-IV: 0.69
10000
80 22 2.2 43 4.4 27 2.7 87 8.9 15000
100 24 2.4 54 5.5 39 4 108 11 15000
120 24 2.4 54 5.5 39 4 86 8.8 15000
20 50 25 2.5 56 5.7 34 3.5 98 10 6500 3500 ≤20 FHT-I/II: 0.72
FHT-III: 1.32
FHT-IV:1.29
FHT-V:0.82
FHT-C: 0.27
FHN-III: 1.04
FHN-IV: 0.98
10000
80 34 3.5 74 7.5 47 4.8 127 13 15000
100 40 4.1 82 8.4 49 5 147 15 15000
120 40 4.1 87 8.9 49 5 147 15 15000
160 40 4.1 92 9.4 49 5 147 15 15000
25 50 39 4 98 10 55 5.6 186 19 5600 3500 ≤20 FHT-I/II: 1.22
FHT-III: 2.02
FHT-IV:1.99
FHT-V:1.4
FHT-C: 0.46
FHN-III: 1.6
FHN-IV: 1.43
10000
80 63 6.4 137 14 87 8.9 255 26 15000
100 67 6.8 157 16 108 11 284 29 15000
120 67 6.8 167 17 108 11 304 31 15000
160 67 6.8 176 18 108 11 314 32 15000
32 50 76 7.8 216 22 108 11 382 39 4800 3500 ≤20 FHT-I/II: 2.54
FHT-III: 4.2
FHT-IV:4
FHT-V:2.7
FHT-C: 1
FHN-III: 3.19
FHN-IV: 3.17
10000
80 118 12 304 31 167 17 568 58 15000
100 137 14 333 34 216 22 647 66 15000
120 137 14 353 36 216 22 686 70 15000
160 137 14 372 38 216 22 686 70 15000
40 50 137 14 402 41 196 20 686 70 4000 3000 ≤20 FHT-I/II: 4.4
FHT-III: 7.2
FHT-IV: 7
FHT-V: 4.06
FHT-C: 1.87
FHN-III: 5.95
10000
80 206 21 519 53 284 29 980 100 15000
100 265 27 568 58 372 38 1080 110 15000
120 294 30 617 63 451 46 1180 120 15000
160 294 30 647 66 451 46 1180 120 15000
Transmission accuracy
Type \ Reduction ratio 11 14 17 20 25 32 above 40
30 / 2 1.5 1.5 1.5 1.5 /
above 50 2 1.5 1.5 1 1 1 1
Hysteresis loss
Type Reduction ratio 11 14 17 20 25 32 above 40
30 / 3 3 3 3 3 /
50 2 2 2 2 2 2 2
above 80 2 1 1 1 1 1 1
Torsional stiffness
Project Type \ Unit 11 14 17 20 25 32 40 45 50
T1 Nm 0.8 2 3.9 7 14 29 54 76 108
T2 Nm 2 6.9 12 25 48 108 196 275 382
Reduction
30
K1 × 104 N·m/rad / 0.19 0.34 0.57 1 2.4 / / /
K2 × 104 N·m/rad / 0.24 0.44 0.71 1.3 3 / / /
K3 × 104 N·m/rad / 0.34 0.67 1.1 2.1 4.9 / / /
Reduction
50
K1 × 104 N·m/rad 0.22 0.34 0.81 1.3 2.5 5.4 10 15 20
K2 × 104 N·m/rad 0.3 0.47 1.1 1.8 3.4 7.8 14 20 44
K3 × 104 N·m/rad 0.32 0.57 1.3 2.3 4.4 9.8 18 26 54
Reduction
ratio
above 80
K1 × 104 N·m/rad 0.27 0.47 1 1.6 3.1 6.7 13 18 25
K2 × 104 N·m/rad 0.34 0.61 1.4 2.5 5 11 20 29 40
K3 × 104 Nm/rad 0.44 0.71 1.6 2.9 5.7 12 23 33 44

FHT-C type

FHT-Ⅰ type

Unit type structure of the FHT series

LHT LHG LHN-III
LHT LHG LHN-IV

Application

Industrial Robot

Industrial Robot

Service Robots

Service Robots

Meal Machine Tools

Meal Machine Tools

Medical Devices

Medical Devices

Analysis,Test Equipment

Analysis,Test Equipment

Energy Related Equipment

Energy Related Equipment

Papermaking Equipment

Papermaking Equipment

Frequently Asked Questions

Laifual shall not be liable for consequential damages of others equipment cause by the defective products. and shall not be liable for the incidental and consequential expenses and the labor costs for detaching and installing to the driven equipment.
Laifual shall not be liable for consequential damages of others equipment cause by the defective products. and shall not be liable for the incidental and consequential expenses and the labor costs for detaching and installing to the driven equipment.
Laifual shall not be liable for consequential damages of others equipment cause by the defective products. and shall not be liable for the incidental and consequential expenses and the labor costs for detaching and installing to the driven equipment.
Laifual shall not be liable for consequential damages of others equipment cause by the defective products. and shall not be liable for the incidental and consequential expenses and the labor costs for detaching and installing to the driven equipment.

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