Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Low Backlash
Backlash for 1-stage model is under 7 arc·min. Also available specification with 1 arc·min of backlash. Backlash for 2-stage model is under 9 arc·min.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
High Input Speed
Input speed allows for 5,000 RPM.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Helical gears reduce vibration and noise.
High Precision
Backlash ≤ 3 arc·min reaches precision alignment.
High Rigidity and Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
Quiet Operation
Grinding spiral bevel gear and Helical gears reduce vibration and noise.
High Rigidity and High Torque
High rigidity and high torque are achieved by integrant needle roller bearings and a one-piece construction.
High Efficiency
Efficiency for 1-stage model exceeds 95%; 2-stage model exceeds 92%.
Quiet Operation
Helical gears reduce vibration and noise.
High Torque
High output torque is compared to spur gear planetary gear reducers.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
Quiet Operation
Helical gears reduce vibration and noise.
High Torque
High output torque is compared to spur gear planetary gear reducers.
High Efficiency
Efficiency for 1-stage model exceeds 97%; 2-stage model exceeds 94%.
Quiet Operation
Grinding spiral bevel gear & Helical gears reduce vibration and noise.
High Rigidity & High Torque
High rigidity & high torque are achieved by integrant needle roller bearings and are one-piece constructed.
High Efficiency
Efficiency for 1-stage model exceeds 95%; 2-stage model exceeds 92%.
Quiet Operation
Grinding spiral bevel gear and Helical gears reduce vibration and noise.
High Rigidity and High Torque
High rigidity and high torque are achieved by integrant needle roller bearings and are one-piece constructed.
High Efficiency
Efficiency for 1-stage model exceeds 95%; 2-stage model exceeds 92%.
Quiet Operation
Grinding spiral bevel gear and Helical gears reduce vibration and noise.
High Rigidity and High Torque
High rigidity and high torque are achieved by integrant needle roller bearings and are one-piece constructed.
High Efficiency
Efficiency for 1-stage model exceeds 95%; 2-stage model exceeds 92%.
Quiet Operation
Grinding spiral bevel gear and Helical gears reduce vibration and noise.
High Rigidity and High Torque
High rigidity and high torque are achieved by integrant needle roller bearings and are one-piece constructed.
Quiet Operation
Grinding spiral bevel gear and Helical gears reduce vibration and noise.
High Rigidity and High Torque
High rigidity and high torque are achieved by integrant needle roller bearings and are one-piece constructed.
High Efficiency
Efficiency for 1-stage model exceeds 95%; 2-stage model exceeds 92%.
Integrated Planetary Arm Bracket
The planetary arm bracket and the output shaft are one-piece constructed to increase torsional rigidity and accuracy. The entire structure is machined for controlling accuracy in the specified tolerance.
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.
