K-045 helical bevel gear units can output up to 460 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: 5.81:1 to 131.87:1 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 F2RMax5 J C4 C5 Δφ η M (rpm) (rpm) (N·m) (N·m) (N·m) (N) (Kg·cm2) (Nm/arcmin) (Nm/arcmin) (arcmin) % (Kg) 5.81 1400 4500 230 265 391 3140 3.6 23 26 12 96 19.15 - 33.2 6.58 1400 4500 240 276 408 3270 2.8 23 26 12 96 19.15 - 33.2 7.36 1400 4500 250 288 425 3390 2.3 23 26 11 96 19.15 - 33.2 8.56 1400 4500 270 311 459 3500 1.8 23 26 11 96 19.15 - 33.2 9.10 1400 4500 280 322 476 3540 1.6 23 26 11 96 19.15 - 33.2 10.56 1400 4500 280 322 476 3830 1.2 23 26 11 96 19.15 - 33.2 11.77 1400 4500 280 322 476 4060 1.0 23 26 10 96 19.15 - 33.2 12.19 1400 4500 350 402 595 3720 2.4 29 33 8 96 19.15 - 33.2 13.65 1400 4500 360 414 612 3890 2.0 29 33 8 96 19.15 - 33.2 15.86 1400 4500 380 437 646 4080 1.6 29 33 8 96 19.15 - 33.2 16.86 1400 4500 380 437 646 4230 1.4 29 33 8 96 19.15 - 33.2 19.58 1400 4500 400 460 680 4440 1.1 29 33 8 96 19.15 - 33.2 21.81 1400 4500 400 460 680 4710 0.91 29 33 8 96 19.15 - 33.2 24.06 1400 4500 400 460 680 4970 0.75 29 33 8 96 19.15 - 33.2 25.91 1400 4500 400 460 680 5170 0.68 29 33 8 96 19.15 - 33.2 29.32 1400 4500 400 460 680 5520 0.55 29 33 8 96 19.15 - 33.2 31.30 1400 4500 400 460 680 5700 0.50 29 33 7 96 19.15 - 33.2 35.39 1400 4500 400 460 680 5920 1.3 32 36 7 94 19.15 - 33.2 39.61 1400 4500 400 460 680 5920 1.1 32 36 7 94 19.15 - 33.2 46.03 1400 4500 400 460 680 5920 0.88 32 36 7 94 19.15 - 33.2 48.95 1400 4500 400 460 680 5920 0.80 32 36 7 94 19.15 - 33.2 56.83 1400 4500 400 460 680 5920 0.64 32 36 7 94 19.15 - 33.2 63.30 1400 4500 400 460 680 5920 0.54 32 36 6 94 19.15 - 33.2 69.84 1400 4500 400 460 680 5920 0.45 32 36 6 94 19.15 - 33.2 75.20 1400 4500 400 460 680 5920 0.42 32 36 6 94 19.15 - 33.2 85.12 1400 4500 400 460 680 5920 0.35 32 36 6 94 19.15 - 33.2 90.86 1400 4500 400 460 680 5920 0.32 32 36 6 94 19.15 - 33.2 104.37 1400 4500 400 460 680 5920 0.26 32 36 6 93 19.15 - 33.2 121.48 1400 4500 400 460 680 5920 0.21 32 36 6 93 19.15 - 33.2 131.87 1400 4500 400 460 680 5920 0.18 32 36 6 93 19.15 - 33.2 (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