synchronous gear motor

synchronous gear motor 1.4 to 230 cubic centimeters per rev

Synchronous gear motor is a device that converts mechanical energy into power through the gear transmission principle, and is commonly used in hydraulic or mechanical systems that require stable and high-precision motion.

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Description

Synchronous gear motors operate at speeds precisely matched to the drive source (electric motor or engine), ensuring coordinated output and input. This design is ideal for applications requiring precision control and efficient transmission, setting them apart from conventional geared motors.

Technical Parameters

  1. Displacement per revolution: 1.4 to 230 cm³/rev
  2. Direction of rotation: Forward and reverse (R)
  3. Minimum speed: 600 rpm
  4. Maximum speed: 2500 rpm
  5. Peak pressure: 150 to 230 bar

Operating Principle & Process

  1. Input drive: Driven by external sources (electric motor, internal combustion engine) via gear sets.
  2. Synchronous speed: Output speed matches input drive source, maintaining strict synchronization.
  3. Gear meshing: Gears transfer input rotational speed and torque to the load, producing rotational motion.
  4. Synchronous output: Ensures output speed is always exactly matched to input, ideal for precision control.

Common Applications

  1. Precision machinery control: Automated production lines needing high-precision synchronization.
  2. Hydraulic systems: Ensures matching output and input in hydraulic transmission for efficiency.
  3. Electric power systems: Electric power steering (EPS) and other control systems requiring smooth synchrony.
  4. Robotics: Precise motion control in robot joints and drives.

Main Features

  1. Speed synchronization: Output speed remains strictly consistent with input source for precise control.
  2. High efficiency: Precision gear meshing and optimized design minimize energy loss.
  3. Precision control: Enables exact power output in high-precision systems, avoiding instability.
  4. Strong adaptability: Customizable gear ratios and transmission forms for diverse applications.

Advantages

  1. Accurate speed matching: Eliminates instability from speed differences between output and input.
  2. Enhanced efficiency: Stable output optimizes system efficiency and reduces mechanical loss.
  3. Handles complex loads: Synchronous operation suits large load variations (industrial manipulators, hydraulic systems, etc.).