3D Glass Drilling Solution


Laser drilling technology is a new, efficient and environmentally friendly glass processing technique. Its physical process is to focus laser pulses on the bottom of the glass to produce a "micro explosion", which breaks the glass into powder particles. Single layer material removal is achieved by horizontally scanning the laser focus. Remove materials layer by layer from bottom to top, and finally complete the glass drilling. The entire processing process has no physical contact and does not require any other auxiliary materials or manual operations, effectively solving the problems of glass edge breakage and scratches caused by contact processing in CNC grinding and waterjet technology. Laser processing has unparalleled advantages in cost consumption during equipment processing, such as fast speed, no pollution, and the ability to shape any shape. Compared to traditional waterjet machining methods, laser 3D glass drilling has no wastewater discharge, and the collection of drilling dust particles is convenient, making it very environmentally friendly. At present, laser processing has gradually become the mainstream application in the glass industry, and in the future, it will be more widely used in many segmented glass industries such as home appliances, bathroom, decoration, electronics, technology, optics, construction, automobiles, photovoltaics, etc.


The ZBTK glass drilling 3D galvanometer solution highly integrates high-end 2D scanning galvanometers, high-speed dynamic focusing units, optical lens groups, rear focusing F-theta field mirrors, etc. It has a compact and stable structure, precise optical path, good sealing, exquisite appearance, and easy installation. It adopts high-speed scanning galvanometer and high response dynamic focusing unit, combined with glass drilling dedicated software, with fast drilling speed and high processing efficiency. The metal sealed shielding structure and multi-level anti-interference protection circuit have strong anti-interference ability. Advanced closed-loop PID algorithm, 16 bit control resolution, high control accuracy, and fine machining effect. During the processing, the material will not have a taper, the upper and lower hole diameters are consistent, and the edge breakage is small, achieving high-precision and efficient "digital" glass drilling, which is a new generation of efficient and environmentally friendly glass processing technology.