Brands |
N/A Pelonis Technologies |
Model |
N/A 100 |
Ratio |
N/A 5 |
Output Bearing |
N/A Solid Output Shaft (No Keyway) |
Backlash Class |
N/A Ps |
Stage |
N/A 1-Stage |
Rated Output Torque (Nominal Output Torque) (T2N) |
N/A 333 N·m |
Maximum Acceleration Torque (T2B) |
N/A 1.8 Times of Rated Output Torque |
Maximum Output Torque (Emergency Stop Torque) (T2NOT) |
N/A 3 Times of Rated Output Torque |
Rated Input Speed (n1N) |
N/A 3000 rpm |
Maximum Input Speed (n1B) |
N/A 6000 rpm |
Backlash |
N/A ≤ 2 arc·min |
Torsional Rigidity |
N/A 27 N·m/arc·min |
Maximum Radial Force (F2rB) |
N/A 8760 N |
Maximum Axial Force (F2aB) |
N/A 7500 N |
S5 Cycle Operation Service Life (LH) |
N/A >30000 hours |
S1 Continuous Operation Service Life (LH) |
N/A >15000 hours |
Efficiency (η) |
N/A ≥ 95 % |
Operating Temperature |
N/A -25 to +90 ºC |
Lubrication |
N/A Synthetic Grease |
Protection Class |
N/A Ingress Protection (IP65) |
Mounting Position |
N/A Any |
Noise Level |
N/A ≤ 72 dB |
Weight |
N/A 10.9 kg |
Weight Tolerance (±) |
N/A 3 % |
Mass Moments of Inertia |
N/A 5.42 kg·cm² |
Dimension A1 |
N/A 120 mm |
Dimension A2 |
N/A 9.0 mm |
Dimension A3 |
N/A 32 mm |
Dimension A4 |
N/A 90 mm |
Dimension A5 |
N/A 10 mm |
Dimension A6 |
N/A M10 x P1.5 |
Dimension A7 |
N/A 10 mm |
Dimension A8 |
N/A 35 mm |
Dimension B1 |
N/A 106 mm |
Dimension B2 |
N/A 88 mm |
Dimension B3 |
N/A 27 mm |
Dimension B4 |
N/A 50 mm |
Dimension B5 |
N/A 58 mm |
Dimension B6 |
N/A 10 mm |
Dimension B7 |
N/A 162 mm |
Dimension B8 |
N/A 222 mm |
Dimension B9 |
N/A 310 mm |
Dimension C1 |
N/A 115 mm145 mm165 mm |
Dimension C2 |
N/A M6 M8 M10 |
Dimension C3 |
N/A 24 mm28 mm32 mm |
Dimension C4 |
N/A 67 mm77 mm |
Dimension C5 |
N/A 95 mm110 mm130 mm |
Dimension C6 |
N/A M8 x P1.25 |
Dimension C7 |
N/A 122 mm130 mm150 mm |
Dimension C8 |
N/A 141 mm |
Dimension C9 |
N/A 201 mm |
Features |
N/A
High Load-Bearing Capacity High load-bearing capacity is achieved by a dual tapper bearing. One-Piece Helical Gear Box The gear box and internal ring gear are a one-piece construction design. The speed reduction mechanism employs helical gears that provide two times the meshing rate of teeth compared to regular spur gears. It operates very smoothly, has low noise, high output torque, and low backlash. Full Needle Roller Bearings Design The planetary gear transmission employs full needle roller bearings without a retainer to increase the contact surface. This greatly improves structural rigidity and service life. Collet Locking Mechanism The input-end and the motor are coupled through a collet locking mechanism. The mechanism is dynamically balanced to ensure concentricity and balance on the connection and has no backlash for power transmission while running at a high speed. Integrated Planetary Arm Bracket The planetary arm bracket and the output shaft are a one-piece construction design that increases torsional rigidity and accuracy. |