MQ-080 Right Angle Gearbox MQ-080 Right Angle Gearboxes can output up to 878 Nm (depends on ratio) Calculate your machine and find the required gearbox output torque using this tool Engineering Calculator Horizontal TabsOverview Performance data: Number of stages: 1 Transmission ratios: 5:1 to 82:1 Backlash: <2' and <8' Input motor flanges: For all servomotors Output shaft Single output shaft Double output shaft Hollow shaft with keyway Hollow shaft with shrink disk Typical Applications: Packaging Food Industry Pharma Industry Textile Industry Robotics Conveyors Metal Forming Machines Automated Warehouses General Automation Advantages: Very Low Backlash, thanks to tight tolerances and a constant worm bearing preload, making it ideally suited for machine tool and robotics operations. High Torque, thanks to painstakingly cut, hardened and ground worms and a bronze alloy wheels, born of a unique design process. Quiet operation: The precision high quality worm gearing provides extremelly low noise levels (under 55 dB). Superior Shock Absorption, thanks to a heavyweight cast iron housing. Zero Backlash Motor Coupling. Can be be provided with torsionally rigid coupling for optimal motor shaft alignment. Suitable for intermittent and continuous operation. Compact design. The right angle design can be a space saver. The full transmission ratio in only one stage. Maintenance free thanks to lifetime synthetic lubrication. Input flange for all servomotors brands. Specifications Main Specs Ratio n1 = 1000 rpm n1 = 1500 rpm n1 = 2000 rpm n1 = 3000 rpm Backlash (arcmin) Weight (kg) i T2TH [Nm] T2Max [Nm] η T2TH [Nm] T2Max [Nm] η T2TH [Nm] T2Max [Nm] η T2TH [Nm] T2Max [Nm] η 5 329 597 0.96 303 597 0.97 265 597 0.97 204 597 0.97 <2' <8' 28 7.5 364 681 0.95 330 681 0.96 293 681 0.96 231 681 0.96 10 391 613 0.94 373 613 0.94 315 613 0.96 274 613 0.96 13.25 197 335 0.92 188 335 0.93 181 335 0.94 173 335 0.94 15 370 810 0.90 313 810 0.91 297 810 0.92 226 810 0.92 20 416 725 0.89 356 725 0.90 342 725 0.91 266 725 0.92 26.5 257 444 0.86 245 444 0.87 237 444 0.89 225 444 0.90 30 364 878 0.82 308 878 0.84 292 878 0.86 223 878 0.86 40 411 802 0.79 350 802 0.81 337 802 0.84 263 763 0.84 53 285 501 0.75 271 501 0.78 262 501 0.81 249 501 0.82 62 393 570 0.70 333 570 0.73 320 570 0.76 248 570 0.77 72 370 498 0.66 314 498 0.69 299 498 0.72 230 498 0.72 82 304 510 0.66 304 510 0.69 304 510 0.73 302 510 0.75 Moment of Inertia Ratio J (Kg·cm2) 5 4.75 7.5 4.25 10 3.55 13.25 3.19 15 3.95 20 3.38 26.5 3.09 30 3.87 40 3.34 53 3.07 62 3.37 72 3.37 82 3.36 Dimensions ME 80 A 204 A4 180 B 140 B1 135 B3 110 B6 25 C 190 C1 165 D 24k6 D1 38k6 D2 38H7 D3 55 D4 140H7 D6 130H7 D9 130 D11 25 D12 90 D13 38,6-0,3 D14 38H7 D15 40H7 E 115 E1 155 E2 107.5 E3 77.5 E4 67.5 E5 70 F1 165 F2 200 F3 165 G 141 G1 128 G3 102.8 H 237 H1 55 H2 35 I 3 K 12 K1 12 L 36 L1 58 L2 32 L3 50 L7 27 L8 29 M 6.8 O 35 P 100 R 155 S M10×17 S1 15 S2 11 S3 M10×17 T2 27 T3 41 T4 41.3 U1 28 U2 8h9 U3 10h9 U4 10H7 V 2 V1 3 DM, D7, D8, FM, F8, G4, I2, I3, and LM depend on motor dimensions