The CRB Coupler (Cross Roller Bearing Coupler)is a high-precision mechanical coupling component, primarily used in industrial robots, machine tools, semiconductor equipment, medical instruments, and optical devices, providing high rigidity and high-precision rotational support and positioning. In the construction field, CRB Coupler is primarily used for high-precision rotational support and load transmission. It is suitable for applications such as tower cranes, bridge construction equipment, and prefabricated component installation. Its high rigidity, precision, and durability ensure construction stability and efficiency.
Functionality:
The CRB Coupler is a high-precision mechanical coupling component designed for:
High-precision rotational support: Provides stable rotational motion with low vibration and high rigidity.
Load transmission: Capable of simultaneously handling radial, axial, and moment loads, making it suitable for complex force conditions.
Precision positioning: Enables high-accuracy angular positioning and repeatability, ideal for applications requiring precise control.
Compact connection: Facilitates efficient connections in limited spaces, reducing equipment size and weight.
Applications:
CRB Couplers are widely used in the following fields:
Construction Machinery: Used in rotating parts of tower cranes and lifting equipment to provide high precision and load-bearing capacity.
Bridge Construction Equipment: Used in rotating platforms and support structures for bridge construction to ensure construction accuracy.
Prefabricated Component Installation: Used for precise positioning and installation of prefabricated components to improve construction efficiency.
Building Measurement Equipment: Used in high-precision building measurement instruments for rotating platform support.
Solar Tracking Systems: Used in the rotational support of solar panels to ensure efficient energy collection.
Advantages:
High rigidity: Capable of withstanding significant radial, axial, and moment loads, suitable for high-load scenarios.
High precision: Ensures high rotational accuracy, providing stability and precision in equipment operation.
Compact design: Space-saving structure, ideal for highly integrated equipment.
Low friction: Reduces energy loss, improves efficiency, and extends service life.
High reliability: Suitable for high-speed, high-load, and long-term operation.
Easy installation: Simple design for convenient installation and maintenance.
Versatility: Adaptable to various complex working conditions, meeting the needs of different industries.
