With continuous technological advancements and rapid market growth, the demand for high-precision, high-efficiency, and low-damage processing is increasing. This is especially true in the field of shaping materials like glass and sapphire, where traditional methods often fall short of modern industrial standards. Han’s Laser, leveraging its strong technical expertise and innovative capabilities, has introduced the laser glass cutting and Splitting machine, leading the glass processing industry to new heights.
Applications
The glass laser cutter showcases broad application potential across several fields. In smartphone manufacturing, this equipment can be used for shaping glass cover panels and camera lens protection, catering to the diverse and personalized design needs of smartphones. In the optical lens industry, its high-precision processing capabilities ensure stable performance and improved imaging quality of optical lenses. Additionally, in the automotive glass sector, the machine demonstrates robust processing abilities, enhancing both the safety and aesthetics of vehicle glass.
Product Features
1.Ultrafast Laser
Utilizes ultrafast laser technology to ensure minimal heat-affected zones during processing, significantly reducing material damage.
2.Non-Contact Processing
The non-contact method eliminates mechanical contact, further minimizing material damage and enhancing processing precision.
3.Visual Positioning
Employs visual positioning technology for high-precision processing, ensuring consistent and stable product quality.
4.High-Efficiency Processing
Paired with linear motors for high-speed processing, greatly improving efficiency and reducing production costs.
5.High Stability
Features a marble base for high equipment stability, ensuring reliable long-term operation.
6.Vacuum Suction
Uses vacuum suction to securely hold products in place during processing, preventing movement or deformation and protecting the product surface.
Application Fields
The glass laser cutting machine is suitable for glass processing with a depth of less than 40 micrometers and can be widely used for rapid shaping of sapphire, smartphone cover glass, camera lens protection, optical lenses, and automotive glass. Its characteristics of high precision, high efficiency, and low damage make it valuable across multiple industries.
Conclusion
Han’s Laser glass cutting and Splitting machine, with its unique technical advantages and broad application potential, is poised to set new standards in the glass processing industry. As technology advances and the market expands, this equipment is expected to demonstrate its powerful processing capabilities and extensive application value in even more fields.