Glass is a special brittle processing material prone to chipping. In the production of lens glass, touch glass and precision optical glass, tiny edge chipping, uneven chamfering and corner scratches on workpieces will directly cause product scrapping and affect assembly fitting accuracy and service safety. Traditional manual grinding and ordinary mechanical edge chamfering methods cannot meet the fine processing requirements of glass substrates. The Full-Automatic Edge Chamfering Machine has become the core special equipment for glass finishing processes.
Aiming at the processing characteristics of glass with high brittleness and easy damage, the Full-Automatic Edge Chamfering Machine adopts flexible servo speed control and precise limit positioning structure, completely eliminating the processing drawbacks of traditional processes. Equipped with high-precision sensor modules to scan workpiece contours and automatically calibrate processing positions, the machine accurately controls grinding speed, feed rate and grinding force through the PLC system, avoiding glass cracking and corner falling caused by rigid impact throughout the whole process.
In terms of core processing accuracy, the equipment can stably complete standardized chamfering operations for glass C-angles and R-angles, with processing errors controlled at the micron level, ensuring complete consistency in edge radian and dimensional specifications of glass workpieces in the same batch. Meanwhile, it is equipped with a real-time tool wear monitoring function, which can automatically compensate for grinding wear, avoid chamfer deviation and uneven grinding caused by long-term operation, and greatly reduce the defective rate of glass workpieces.
Compared with traditional processing modes, the professional
Full-Automatic Edge Chamfering Machine for glass realizes fully automatic operations of feeding, positioning, chamfering, polishing and discharging without manual intervention. It solves the problems of low yield rate and insufficient efficiency of manual glass processing, and meets the strict production standards of high-precision products such as optical glass and electronic glass. It serves as the key core equipment for industrialized and standardized production of glass precision finishing.
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