Product type: Anti radiation high and low temperature vacuum motor; Standard protection level: IP67; Temperature range: -80 ° C~+200 ° C; Speed: 30000 RPM
Radiation resistant vacuum servo motor is a special type of motor that combines the dual characteristics of radiation resistance and working in a vacuum environment.
1、 Definition and Function
Radiation resistant vacuum servo motor is a servo motor designed to operate in strong radiation and vacuum environments. It can operate stably under these extreme conditions, providing precise position and speed control to meet the needs of specific industrial fields.
2、 Characteristics and advantages
Radiation resistance performance:
By using radiation resistant materials, the structure is optimized to withstand high-intensity radiation environments without causing performance damage or failure due to radiation.
Suitable for applications in high radiation environments such as nuclear power plants and aerospace, ensuring the long-term stable operation of equipment.
Adaptability to vacuum environment:
Capable of working in a vacuum or near vacuum environment, meeting the vacuum requirements of specific industrial processes.
Commonly used in equipment such as vacuum pumps, vacuum furnaces, and semiconductor manufacturing to provide stable power support.
High precision and stability:
Equipped with high-precision encoders and controllers to achieve precise position and speed control.
Stable performance output can still be maintained in extreme environments, ensuring the accuracy and reliability of the equipment.
High temperature resistance and long lifespan:
Some radiation resistant vacuum servo motors also have high temperature resistance characteristics and can operate normally for a long time in high temperature environments.
Using high-quality materials and reliable manufacturing processes, it has a long service life and low maintenance costs.
3、 Application Fields
Radiation resistant vacuum servo motors are widely used in the following fields:
Nuclear industry: used in nuclear power plants to control critical equipment and ensure the safe and stable operation of nuclear power plants.
Aerospace: Used in spacecraft for precise attitude and position control, ensuring the smooth progress of space missions.
Semiconductor manufacturing: providing power support in a vacuum environment to ensure the accuracy and stability of the semiconductor manufacturing process.
Research experiment: used as a power source in research experiments that require high vacuum and strong radiation environments.