1、 Precision testing and quality monitoring
Precision component dimension measurement: Fast and accurate dimension detection is achieved through high-precision visual sensors to ensure product consistency.
Surface defect recognition: Combining AI algorithms to automatically detect defects such as cracks and scratches, improving detection efficiency and accuracy.
Appearance inspection of electronic components: Conduct comprehensive scanning of key parts such as pins and solder joints to ensure product reliability.
2、 Laser processing equipment
Laser cutting/welding: used for precise positioning of laser heads or workpieces, achieving complex shape cutting and uniform welding, reducing processing defects.
Laser marking/microfabrication: Supports micro level precision pattern marking and micro hole and micro groove processing, meeting the high requirements of electronic components and medical devices.
3D printing: By constructing complex structures layer by layer, printing accuracy and surface quality are guaranteed.
3、 Electronic Manufacturing and Semiconductor Industry
Chip/PCB processing: used for micro level precision machining, such as chip cutting and PCB punching, to ensure the functionality of electronic components.
Automated assembly and packaging: Achieve rapid handling, positioning, and packaging of electronic components, improving production efficiency.
4、 Industrial automation integration
Coating/spraying equipment: ensures coating uniformity and spraying coverage through high repeatability positioning accuracy.
Glue dispensing machine/sorting machine: Combined with servo motors to achieve fast response, suitable for high-precision dispensing and material sorting.
CNC machine tools/testing machines: integrated into small machine tools or testing equipment, supporting high rigidity loads and long-term stable operation.
5、 Heavy industry and special fields
Aerospace component processing: used for high-precision metal cutting and complex structural processing, meeting the high standard requirements of aerospace materials.
Medical device manufacturing: Ensure surface smoothness and geometric accuracy in implant processing, in compliance with medical safety regulations.
Mold manufacturing: Through high stability movement, the fine structure of the mold is processed to ensure its service life.
Technical advantages:
High precision and stability: The ball guide and screw design reduce friction and support micrometer level positioning.
Fast response and modularity: Linear motion is directly achieved through electromagnetic drive, making it easy to integrate into different devices.
High rigidity load capacity: Designed with reinforced materials, it can withstand the impact force and heavy industrial load in laser processing
