Optical glass mirror surface polishing system

Abstract

The invention provides an optical glass mirror surface polishing system. The system comprises a detection device, a polishing device, a replacing device, an adjusting device, a dust removal device, a turnover device and a processor, wherein the detection device is configured to detect parameters of the glass surface; the polishing device is constructed to detect the glass based on the data of the detection device; the replacing device is configured to replace a grinding tool; the adjusting device is configured to adjust the position of the polishing device; the dust removal device is configured to remove dust of the polishing device; and the turnover device is configured to change the position of the glass. According to the optical glass mirror surface polishing system, a detection probe and a sensing mechanism are matched for use, and bulge data and bulge range data on the surface of the glass are detected, so that the bulge data on the surface of the glass can be accurately collected, and the detection probe and the sensing mechanism are matched with the grinding device to accurately grind the glass.

Description

technical field [0001] The invention relates to the technical field of glass production, in particular to an optical glass mirror polishing system. Background technique [0002] Glass deep processing includes a series of deep processing processes such as cutting, edging, tempering, hollowing, laminating, packaging, and delivery. Large-scale glass processing enterprises can achieve mechanical continuous mass production, but small enterprises still rely on manual work. Manual fixing, cutting, and edging are required during cutting and edging, and edge collapse has occurred due to problems such as uneven force during cutting. [0003] Such as CN108840556B prior art discloses an intelligent cutting and polishing production line and glass deep processing method for deep processing of glass. During the processing, the waste generated by cutting cannot be cleaned up in time, and the product needs to be transferred to the next station for processing when edging the product. Edge gr...

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Problems solved by technology

[0002] Glass deep processing includes a series of deep processing processes such as cutting, edging, tempering, hollowing, laminating, packaging, and delivery. Large-scale glass processing enterprises can achieve mechanical continuous mass production, but small enterprises still rely on manual work. Manual fixing, cutting, and edging are required during cutting and edging, and edge collapse has occurred due to problems such as uneven force during cutting

[0003] Such as CN108840556B prior art discloses an intelligent cutting and polishing production line and glass deep processing method for deep processing of glass. During the processing, the waste generated by cutting cannot be cleaned up in time, and the product needs to be transferred to the next station for processing when edging the product. Edge grinding generally adopts linear grinding, and it is time-consuming and labor-intensive to replace different grinding tools according to different thicknesses of glass; because glass is fragile, it is easy to cause problems such as cracking or breaking due to misoperation, and sometimes it will cause injury to operators , bring economic losses to the enterprise, and at the same time lead to problems such as high labor intensity, low work efficiency, low degree of automation and intelligence of the staff in the production process

After a large number of searches, it was found that there are existing technologies such as KR101852364B1, EP2482123B1 and US08456396B1. With the development of science and technology, the degree of mechanization is getting higher and higher. The operation of mechanical equipment needs to be completed by hardware workpieces. The cooperation between the workpieces is more harmonious, and the surface needs to be polished. The current multi-station five-axis polishing machine grinding system has the following defects: the existing polishing machine avoids the dust generated during the polishing process by adding water. , to avoid the phenomenon of dust explosion, but adding water will cause part of the dust to fall and accumulate at the bottom of the processing tank, resulting in a decrease in the speed at which the processing tank drives the workpiece to be processed, resulting in longer local polishing time, affecting the depth and quality of processing

[0004] In order to solve the time-consuming and labor-intensive problems in the field, the grinding process is fragile, the force cannot be adjusted, the dust cannot be removed, the grinding position is single, and the grinding tools cannot be automatically replaced.

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