R-057 Helical gear units can output up to 450 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: 4.39:1 to 186.89:1 Efficiency Up to 97% Input motor flanges: For IEC motors and servomotors Output shaft: Solid Smooth Output Shaft with Key Versions: Flange mounted Foot mounted Typical Applications: Cement and Mining Chemical and Paper Industry Conveyors Cranes and Construction Machinery Food and Beverages Metalworking machines Pumps and Compressors Water Treatment Woodworking Machines R Helical 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 F2RMax J C Δφ η M (rpm) (rpm) (N·m) (N·m) (N·m) (N) (Kg·cm2) (Nm/arcmin) (arcmin) % (Kg) 4.39 1400 4500 280 420 475 1900 4.3 21 10 97 20-37.4 5.05 1400 4500 305 425 515 1730 3.4 21 10 97 20-37.4 5.82 1400 4500 320 425 540 1820 2.7 21 10 97 20-37.4 6.41 1400 4500 335 425 570 1770 2.3 21 9 97 20-37.4 7.53 1400 4500 350 425 595 1950 1.8 21 9 97 20-37.4 7.97 1400 4500 355 425 600 2020 1.6 21 9 97 20-37.4 9.06 1400 4500 375 425 635 2010 1.3 21 9 97 20-37.4 9.35 1400 4500 370 455 625 3180 2.8 25 7 97 20-37.4 10.79 1400 4500 390 455 660 3330 2.2 25 7 97 20-37.4 11.88 1400 4500 405 455 685 3430 1.9 25 7 97 20-37.4 13.95 1400 4500 430 455 730 3610 1.6 25 7 97 20-37.4 14.77 1400 4500 435 455 740 3690 1.4 25 7 97 20-37.4 16.79 1400 4500 450 455 765 3860 1.1 25 7 97 20-37.4 18.60 1400 4500 450 455 765 4050 0.94 25 7 97 20-37.4 21.93 1400 4500 450 455 765 4370 0.73 25 7 97 20-37.4 24.99 1400 4500 450 455 765 4640 0.51 25 6 97 20-37.4 26.31 1400 4500 450 455 765 4750 0.45 25 6 97 20-37.4 26.97 1400 4500 450 455 765 4800 1.5 26 8 95 21-38.4 30.18 1400 4500 450 455 765 5040 1.3 26 8 95 21-38.4 35.07 1400 4500 450 455 765 5390 0.97 26 8 95 21-38.4 37.30 1400 4500 450 455 765 5530 0.89 26 8 95 21-38.4 43.30 1400 4500 450 455 765 5900 0.70 26 8 95 21-38.4 48.23 1400 4500 450 455 765 6170 0.60 26 8 95 21-38.4 53.22 1400 4500 450 455 765 6430 0.49 26 8 95 21-38.4 57.29 1400 4500 450 455 765 6630 0.46 26 8 95 21-38.4 64.85 1400 4500 450 455 765 6980 0.38 26 8 95 21-38.4 69.23 1400 4500 450 455 765 7100 0.35 26 7 95 21-38.4 80.55 1400 4500 450 455 765 7100 0.62 26 7 94 21-38.4 89.71 1400 4500 450 455 765 7100 0.54 26 7 94 21-38.4 98.99 1400 4500 450 455 765 7100 0.45 26 7 94 21-38.4 106.58 1400 4500 450 455 765 7100 0.42 26 7 94 21-38.4 120.63 1400 4500 450 455 765 7100 0.35 26 7 94 21-38.4 128.77 1400 4500 450 455 765 7100 0.32 26 7 94 21-38.4 147.92 1400 4500 450 455 765 7100 0.26 26 7 94 21-38.4 172.17 1400 4500 450 455 765 7100 0.21 26 7 93 21-38.4 186.89 1400 4500 450 455 765 7100 0.18 26 7 93 21-38.4 (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 Dimensions