High Precision Planetary Gearboxes

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K-035

K Gearboxes

K-035 helical bevel gear units can output up to 255 Nm (depends on ratio)

Calculate your machine and find the required gearbox output torque using this tool

Engineering Calculator

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Overview

Performance data:

Transmission ratios: 5.36:1 to 106.38:1
Efficiency Up to 98%
Input motor flanges: For IEC motors and servomotors
Output shaft: Solid Smooth Output Shaft with Key
Hollow Shaft with Keyway
Smooth Hollow Shaft with Shrink Disk
DIN-5480 Splined Hollow Shaft
Versions: B14 Flange mounted
Foot mounted
Accessories: B5 Output Flange
Torque Arm

Typical Applications

  • Cement and Mining
  • Chemical and Paper Industry
  • Conveyors
  • Cranes and Construction Machinery
  • Food and Beverages
  • Metalworking machines
  • Pumps and Compressors
  • Woodworking Machines

K helical bevel gear units have the following advantages:

  • Carburized, case hardened, and ground gears, offering greater reliability and longer service life.
  • Compact design
  • Excellent reliability
  • Intermittent and continuous operation
  • ATEX standard requirements
  • Optional NSF H1 certified food grade lubrication
  • For any mounting position
Specifications
Ratio n1N n1Max T2N1 T2Max2 T2E3 F2RMax4 F2RMax5 J C4 C5 Δφ η M
(rpm) (rpm) (N·m) (N·m) (N·m) (N) (N) (Kg·cm2) (Nm/arcmin) (Nm/arcmin) (arcmin) % (Kg)
3.98 1400 4500 125 187 210 2310 1660 2.6 29 13 13 96 12.75 - 22.3
5.36 1400 4500 140 210 235 2530 1810 1.7 13 13 13 96 12.75 - 22.3
6.37 1400 4500 145 210 245 2720 1950 1.3 13 13 13 96 12.75 - 22.3
6.80 1400 4500 150 210 255 2760 1980 1.1 13 13 13 96 12.75 - 22.3
7.96 1400 4500 155 210 260 2940 2110 0.85 13 13 13 96 12.75 - 22.3
8.91 1400 4500 160 210 270 3070 2200 0.70 13 13 12 96 12.75 - 22.3
10.49 1400 4500 160 210 270 3340 2410 0.51 13 13 12 96 12.75 - 22.3
12.14 1400 4500 160 210 270 3600 2600 0.40 13 13 12 96 12.75 - 22.3
13.08 1400 4500 165 245 280 3660 2650 1.0 17 17 9 96 12.75 - 22.3
15.31 1400 4500 175 255 295 3850 2780 0.76 17 17 8 96 12.75 - 22.3
17.15 1400 4500 180 255 305 4020 2900 0.62 17 17 8 96 12.75 - 22.3
20.19 1400 4500 185 255 310 4300 3110 0.46 17 17 8 96 12.75 - 22.3
23.36 1400 4500 230 255 390 4110 2940 0.37 17 17 8 96 12.75 - 22.3
24.99 1400 4500 230 255 390 4260 3050 0.33 17 17 8 96 12.75 - 22.3
28.83 1400 4500 230 255 390 4600 3310 0.26 17 17 8 96 12.75 - 22.3
29.96 1400 4500 220 255 370 4800 3470 0.76 19 18 7 94 12.75 - 22.3
35.57 1400 4500 230 255 390 5120 3700 0.60 19 18 7 94 12.75 - 22.3
37.97 1400 4500 230 255 390 5290 3820 0.54 19 18 7 94 12.75 - 22.3
44.46 1400 4500 230 255 390 5720 4140 0.42 19 18 7 94 12.75 - 22.3
49.79 1400 4500 230 255 390 6040 4380 0.36 19 18 7 94 12.75 - 22.3
58.60 1400 4500 230 255 390 6520 4740 0.27 19 18 7 94 12.75 - 22.3
67.80 1400 4500 230 255 390 6980 4940 0.23 19 18 7 94 12.75 - 22.3
72.54 1400 4500 230 255 390 7000 4940 0.21 19 18 7 94 12.75 - 22.3
83.69 1400 4500 230 255 390 7000 4940 0.17 19 18 7 93 12.75 - 22.3
97.81 1400 4500 230 255 390 7000 4940 0.13 19 18 7 93 12.75 - 22.3
106.38 1400 4500 230 255 390 7000 4940 0.12 19 18 7 93 12.75 - 22.3

(1) T2N value is calculated at n1n, continuous duty cycle, uniform operation, KA=1 and unlimited theoretical life time as per ISO-6336 (NL>N00 in the Woehler line). The application factor KA according to DIN-3990-1 must be considered for each duty cycle and machine type.
(2) T2Max only for very short time intervals
(3) Up to 1000 times during the gearbox's lifetime
(4) For gearboxes with flange and hollow output shaft
(5) For gearboxes without flanges and with solid output shaft

Dimensions
K-035 Dimensions