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CN-224221542-U - Scrap iron removing device for glass waste residues for manufacturing glass lenses

CN224221542UCN 224221542 UCN224221542 UCN 224221542UCN-224221542-U

Abstract

The utility model is suitable for the technical field of glass lens manufacturing, and particularly relates to a glass waste residue scrap iron removing device for glass lens manufacturing. According to the utility model, the driving motor A, the mounting frame, the ball screw, the ball nut, the driving motor B, the magnetic suction roller and the scrap iron collecting box are arranged, in the working process of the scrap iron removing device for glass waste for manufacturing the glass lens, the driving motor B can be driven by the ball nut to horizontally move, and the driving motor B drives the magnetic suction roller to automatically rotate, so that the magnetic suction roller fully sucks scrap iron in the glass waste, and finally the scrap iron is powered off after moving to the upper part of the scrap iron collecting box, and automatically enters the scrap iron collecting box for uniform collection. Therefore, the scrap iron removing device for glass waste residues for manufacturing glass lenses can achieve the purposes of high-efficiency adsorption and automatic scrap iron removal.

Inventors

  • GAO MINGHUI
  • CHEN MINGQIANG
  • WANG JIANPING
  • SONG SHAOFEI
  • HUANG JINSHENG

Assignees

  • 烟台东方玻璃有限公司

Dates

Publication Date
20260512
Application Date
20250425

Claims (7)

  1. 1. The utility model provides a glass lens is glass waste residue gets rid of iron fillings device, includes support A (2), and the surface mounting of support A (2) has magnetic separation car (1), magnetic separation groove (11) have been seted up to the inside of magnetic separation car (1), and the both sides of magnetic separation car (1) all are provided with support B (10), a serial communication port, the surface mounting of support B (10) has mount pad (9), and the surface mounting of mount pad (9) has iron fillings collecting box (7) and mounting bracket (4), the surface mounting of mounting bracket (4) has driving motor A (3), and the output of driving motor A (3) installs ball screw (5), the outside meshing of ball screw (5) is connected with ball nut (14), the surface mounting of ball nut (14) has driving motor B (13), and the output of driving motor B (13) installs rotation axis (12), the externally mounted of rotation axis (12) has magnet roller (6), the inside circumference of magnet roller (6) sets up a plurality of magnet post (17), internally mounted (4) has ball screw (15) and one end (15) to keep away from with driving motor (15).
  2. 2. The scrap iron removing device for glass for manufacturing glass lenses according to claim 1, wherein a chute is formed in the surface of the mounting frame (4), a guide slide block is mounted on the surface of the ball nut (14), and the ball nut (14) is used for driving the driving motor B (13) to do horizontal displacement movement.
  3. 3. The scrap iron removing device for glass for manufacturing glass lenses according to claim 1, wherein the surface of the mounting seat (9) is provided with a groove (16), the mounting support rod (8) is arranged outside the scrap iron collecting box (7), and the scrap iron collecting box (7) is fixedly arranged with the mounting seat (9) in a mode that the mounting support rod (8) is inserted into the groove (16).
  4. 4. The apparatus for removing scrap iron from glass waste for manufacturing glass lenses according to claim 1, wherein the magnetic suction roller (6) is positioned directly above the magnetic separation tank (11), and the width of the magnetic suction roller (6) is larger than the magnetic separation tank (11).
  5. 5. The scrap iron removing apparatus for glass manufacturing in accordance with claim 1, wherein the mounting bracket (4) and the mounting base (9) are fastened together by screw-coupling.
  6. 6. The scrap iron removing apparatus for glass manufacturing in accordance with claim 1, wherein the surface of the mounting frame (4) is provided with a battery which supplies power to the driving motor a (3) and the driving motor B (13).
  7. 7. The apparatus for removing scrap iron from glass waste for manufacturing glass lens according to claim 1, wherein the driving motor B (13) drives the rotation shaft (12) to perform a rotation movement about its own center line as a rotation shaft.

Description

Scrap iron removing device for glass waste residues for manufacturing glass lenses Technical Field The utility model relates to the technical field of glass lens manufacturing, in particular to a device for removing scrap iron from glass waste residues for glass lens manufacturing. Background Glass lens manufacturing is a process of processing an optical glass material into an optical element having a specific curved shape (e.g., spherical, aspherical) by a specific process for focusing, diverging, or changing the propagation direction of light. The core aim is to realize high-precision optical performance and meet the requirements of imaging, sensing, illumination and other fields. The scrap iron removing device for glass waste residues is key equipment of a raw material pretreatment link in glass lens manufacturing. This is because if the iron filings remain in the glass raw material, bubbles, impurities or optical defects may occur in the lens, directly affecting the imaging quality and reliability of the final product. Therefore, the efficient scrap iron removal is an important step for guaranteeing the purity of the optical glass and improving the manufacturing yield. The scrap iron is removed from the glass waste residues in the production process of the glass lenses, so that the glass materials can be recovered, and meanwhile, the scrap iron is prevented from being polluted. The working process is that glass waste residues enter a magnetic separation area through a conveying belt, scrap iron is attracted by a magnetic field and attached to the surface of a magnetic separation device, and glass continuously moves along with the conveying belt due to non-magnetism. Then scraping the adsorbed scrap iron away from the magnetic separation device through a scraping plate or a rotary brush, and enabling the scrap iron to fall into a scrap iron collecting box, wherein glass waste residues enter a glass collecting tank. The glass waste residue scrap iron removing device for glass lens manufacturing in the market at present is easy to have the problems that scrap iron is not fully adsorbed and can not be fully automatically and efficiently removed in the working process. Accordingly, the present utility model provides a glass waste residue scrap iron removing device for glass lens manufacturing capable of efficiently adsorbing and automatically removing scrap iron to solve the above-mentioned technical problems. Disclosure of utility model The embodiment of the utility model aims to provide a glass waste residue scrap iron removing device for glass lens manufacturing, which aims to solve the technical problems in the background art. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides a glass lens is glass waste residue gets rid of iron fillings device, includes support A, and support A's surface carries on there is the magnetic separation car, the magnetic separation groove has been seted up to the inside of magnetic separation car, and the both sides of magnetic separation car all are provided with support B, support B's surface mounting has the mount pad, and the surface mounting of mount pad has iron fillings collecting box and mounting bracket, mounting bracket's surface mounting has driving motor A, and driving motor A's output installs ball screw, ball screw's meshing is connected with ball nut, ball nut's surface mounting has driving motor B, and driving motor B's output installs the rotation axis, the externally mounted of rotation axis has the magnetism to inhale the roller, the inside of magnetism to inhale the roller sets up a plurality of electromagnetism post along the circumference. The inside of mounting bracket is equipped with the bearing, and ball screw keeps away from driving motor A's one end and is connected with the bearing. Further, a sliding groove is formed in the surface of the mounting frame, a guide sliding block is mounted on the surface of the ball nut, and the ball nut drives the driving motor B to do horizontal displacement movement. Further, the surface of the mounting seat is provided with a groove, the outside of the scrap iron collecting box is provided with a mounting support rod, and the scrap iron collecting box is fixedly arranged with the mounting seat in a way that the mounting support rod is inserted into the groove. Further, the position of the magnetic suction roller is right above the magnetic separation groove, and the width of the magnetic suction roller is larger than the magnetic separation groove. Further, the mounting frame and the mounting seat are fixed together in a threaded connection mode. Further, a storage battery is arranged on the surface of the mounting frame, and the storage battery provides power for the driving motor A and the driving motor B. Further, the driving motor drives the rotating shaft to do autorotation motion by taking the central line of the rotating