Applications: This type of laser cutting machine finds extensive applications in various industries, including but not limited to:
- Electronics Manufacturing: Used for cutting electronic components, flexible circuit boards, and other film materials.
- Medical Device Manufacturing: Applied for precision cutting of medical-grade films, such as medical packaging materials.
- Optical Industry: Employed in the manufacturing of optical components and optical films.
- Automotive Industry: Utilized for cutting film materials in automotive interiors.
Advantages:
- High Precision: Laser technology enables extremely accurate cutting, suitable for applications with strict dimensional requirements.
- Non-contact Cutting: Laser cutting is a non-contact process, avoiding damage that may result from physical contact.
- High Efficiency: High-speed laser cutting enhances the overall speed and efficiency of the production process.
- Flexibility: Capable of adapting to different shapes and sizes of film materials, providing strong processing flexibility.
Features:
- Laser Source: Equipped with a high-quality laser source, typically CO2 or fiber lasers.
- Automation Control: Features an automation control system, allowing for automatic cutting operations based on preset parameters.
- Optical Path System: Utilizes a precision optical path system to ensure accurate focusing of the laser beam.
- Worktable Design: Designed with a stable worktable to ensure stability and precision during the cutting process.