Product Description
RV-EM series robot gearbox:
1. Backlash less than 1 arc minute
2. The gearbox is easy to connect to the servo motor.
3. Compact structure and high torsional stiffness.
4. Integrated angular bearing, large thrust and cantilever torque.
5. High ratio availability (up to 258:1) without increasing the gearbox size
6. High torque capacity up to 5 times the rated torque (emergency stop)
7. Compact structure, small size, space saving.
The application of RV-EM series robot gearbox is mainly reflected in improving the robot's motion accuracy, power performance and load-bearing capacity, as well as achieving precision motion control. The gearbox improves the accuracy and load-bearing capacity of the robot joint by converting the high-speed and low-torque motor output into a low-speed and high-torque output, allowing the robot to be more precise and efficient when performing tasks. Specifically, the application of robot gearboxes includes:
1. Improve the motion ability of the robot arm: In industrial robots, gearboxes are used to improve the motion ability of the robot arm, enabling the robot to better handle tasks with heavier weight or requiring higher precision.
2. Achieve precision movement: In medical robots, gearboxes can be used to achieve precision movement, for example, surgical robots require very precise movement so that surgeons can accurately manipulate the robot for surgery.
3. Improve power performance: In service robots, gearboxes are used to improve the power performance of robots, such as allowing robots to travel on different terrains or provide greater thrust during work.
4. Improve load-bearing capacity and elasticity: In military robots, gearboxes are used to improve the load-bearing capacity and elasticity of robots, for example, when performing bomb removal tasks, robots need to have high load-bearing capacity and elasticity to operate in unstable environments.
In addition, the design and manufacture of RV-EM series robot gearboxes need to take into account many factors, including the required output speed, torque, transmission efficiency, and the environment of use. High-precision machining and assembly processes ensure the fit between gears and the normal operation of transmission, thereby ensuring the performance and reliability of the robot.
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Introduction
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