K-107 helical bevel gear units can output up to 9090 Nm (depends on ratio) Calculate your machine and find the required gearbox output torque using this tool Engineering Calculator Horizontal TabsOverview Performance data: Transmission ratios: 7.35:1 to 143.47:1 Efficiency Up to 96% 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) 7.35 1400 3197 3600 4720 6120 47100 24400 231.0 862 519 9 96 248 - 337 8.69 1400 3597 4070 4780 6910 48300 24600 170.0 488 519 9 96 248 - 337 9.94 1400 3924 4190 4840 7120 50500 25800 136.0 488 519 9 96 248 - 337 11.73 1400 4378 4300 4910 7310 53500 27500 104.0 488 519 9 96 248 - 337 13.43 1400 4500 4300 4940 7310 56500 29200 82.0 488 519 9 96 248 - 337 14.64 1400 3597 6890 8060 11700 51700 19500 163.0 612 661 7 96 248 - 337 16.75 1400 3924 7050 8160 11900 54200 21000 131.0 612 661 7 96 248 - 337 19.74 1400 4378 7200 8270 12200 57700 23200 100.0 612 661 6 96 248 - 337 22.62 1400 4500 7200 8320 12200 61200 25800 80.0 612 661 6 96 248 - 337 26.32 1400 4500 7200 8370 12200 65000 28800 63.0 612 661 6 96 248 - 337 29.00 1400 4500 7200 8400 12200 65000 30700 54.0 612 661 6 96 248 - 337 31.28 1400 3197 6800 9090 11500 65000 34200 112.0 670 730 6 94 248 - 337 32.69 1400 4500 7200 8430 12200 65000 33200 45.0 612 661 6 96 248 - 337 37.00 1400 3597 7200 9090 12200 65000 35800 86.0 670 730 6 94 248 - 337 42.33 1400 3924 7360 9090 12500 65000 37900 72.0 670 730 6 94 248 - 337 49.90 1400 4378 7840 9090 13300 65000 39300 58.0 670 730 6 94 248 - 337 57.17 1400 4500 8000 9090 13600 65000 41700 48.0 670 730 6 94 248 - 337 66.52 1400 4500 8000 9090 13600 65000 45400 40.0 670 730 6 94 248 - 337 73.30 1400 4500 8000 9090 13600 65000 47900 35.0 670 730 6 94 248 - 337 82.61 1400 4500 8000 9090 13600 65000 50900 29.0 670 730 6 94 248 - 337 90.96 1400 4500 8000 9090 13600 65000 53500 25.0 670 730 6 94 248 - 337 100.75 1400 4500 8000 9090 13600 65000 56200 20.0 670 730 6 94 248 - 337 112.41 1400 4500 8000 9090 13600 65000 59300 17.0 670 730 6 94 248 - 337 121.46 1400 4500 8000 9090 13600 65000 61500 15.0 670 730 6 94 248 - 337 143.47 1400 4500 8000 9090 13600 65000 65000 12.0 670 730 6 94 248 - 337 (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