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CN-224230939-U - Visual analytical equipment of glass reinforcement

CN224230939UCN 224230939 UCN224230939 UCN 224230939UCN-224230939-U

Abstract

The application belongs to the technical field of glass, and particularly relates to glass reinforced visual analysis equipment; according to the glass reinforcement visual analysis equipment provided by the application, the high borosilicate glass observation window and the camera are arranged on the groove body of the quartz groove, and the high borosilicate glass observation window and the camera are matched with the components such as the illuminating lamp, the linear guide rail and the motor, so that the shape of a sample can be snap shot, the change process of the sample is recorded, the real-time monitoring is realized, the glass warpage condition can be accurately and comprehensively analyzed, and the technical problem of the lack of the glass reinforcement visual analysis equipment in the prior art is solved.

Inventors

  • GONG RUILONG
  • HAN ZHENGWEI
  • CAI LIMAO
  • LI JUFENG
  • SUN FEIHU
  • LI YANTAO

Assignees

  • 中国南玻集团股份有限公司
  • 河北视窗玻璃有限公司

Dates

Publication Date
20260512
Application Date
20250327

Claims (10)

  1. 1. The glass reinforced visual analysis equipment is characterized by comprising a glass sample basket and a reinforced furnace; The strengthening furnace comprises a quartz groove, a heating unit, a cover plate and a camera; the glass sample basket is placed in the cavity of the quartz groove; The inner wall of the quartz groove is provided with a heating unit; the cover plate covers the top of the quartz groove; a high borosilicate glass observation window is arranged on the tank body of the quartz tank; and a camera is arranged on one side of the high borosilicate glass observation window far away from the quartz groove.
  2. 2. A glass reinforced visual analysis apparatus according to claim 1, the glass reinforced visual analysis device is characterized by further comprising an illuminating lamp; the cover plate is provided with a high borosilicate glass illumination window; The illuminating lamp is arranged on one side, far away from the quartz groove, of the high borosilicate glass illuminating window.
  3. 3. The glass reinforcement visualization analysis device of claim 2, further comprising a motor and a linear guide; the camera is fixed on the sliding block of the linear guide rail; the motor drives the linear guide rail.
  4. 4. A glass reinforced visual analysis apparatus as claimed in claim 3, wherein the heating unit comprises a bottom heating unit, a side heating unit and a front heating unit; The bottom heating unit is arranged on the bottom surface of the inner wall of the quartz groove, the side heating unit is arranged on the side surface of the inner wall of the quartz groove, and the front heating unit is arranged on the front surface of the inner wall of the quartz groove.
  5. 5. The glass-reinforced visual analysis apparatus of claim 4, wherein the borosilicate glass viewing window comprises a bottom borosilicate glass viewing window, a first side borosilicate glass viewing window, and a second side borosilicate glass viewing window, the first side borosilicate glass viewing window and the second side borosilicate glass viewing window being disposed opposite one another; The bottom high borosilicate glass observation window is arranged at the bottom of the groove body of the quartz groove, the first side high borosilicate glass observation window is arranged at the first side of the groove body of the quartz groove, and the second side high borosilicate glass observation window is arranged at the second side of the groove body of the quartz groove; The camera includes a bottom camera, a first side camera, and a second side camera; The side, far away from the quartz groove, of the bottom high borosilicate glass observation window is provided with a bottom camera, the side, far away from the quartz groove, of the first side high borosilicate glass observation window is provided with a first side camera, and the side, far away from the quartz groove, of the second side high borosilicate glass observation window is provided with a second side camera; The motor comprises a bottom motor, a first side motor and a second side motor, and the linear guide rail comprises a bottom linear guide rail, a first side linear guide rail and a second side linear guide rail; The bottom camera is fixed on a sliding block of the bottom linear guide rail, and the bottom motor drives the bottom linear guide rail; The first side camera is fixed on a sliding block of the first side linear guide rail, and the first side motor drives the first side linear guide rail; The second side camera is fixed on a sliding block of the second side linear guide rail, and the second side motor drives the second side linear guide rail.
  6. 6. The glass-reinforced visual analysis apparatus of claim 5, further comprising an apparatus housing; The equipment shell is provided with a shielding gas inlet and a shielding gas outlet.
  7. 7. The glass reinforced visual analysis apparatus of claim 6, wherein the bottom motor is fixed to the bottom surface of the apparatus housing; The first side motor is fixed on the first side inner wall of the equipment shell; The second side motor is fixed on the second side inner wall of the equipment shell.
  8. 8. The glass reinforced visual analysis apparatus of claim 1, wherein the heating unit is at least one selected from the group consisting of a resistive heating device, an electromagnetic induction heating device, and an infrared heating device.
  9. 9. The glass reinforced visual analysis apparatus of claim 2, wherein the illumination lamp is at least one selected from the group consisting of an incandescent lamp, a halogen lamp, an LED lamp, and a fluorescent lamp.
  10. 10. The glass reinforced visual analysis apparatus of claim 1, wherein the camera is at least one selected from the group consisting of a motion camera, a panoramic camera, and a single-lens reflex camera.

Description

Visual analytical equipment of glass reinforcement Technical Field The application belongs to the technical field of glass, and particularly relates to glass reinforced visual analysis equipment. Background In the glass processing industry, the strength of glass needs to be improved through three stages of preheating, chemical strengthening and annealing, wherein the strength improvement process is to place a glass raw sheet into a glass sample basket, then place the glass raw sheet into a quartz tank of a strengthening furnace for preheating, chemical strengthening and annealing, wherein the preheating and the annealing are heat treatments, and the chemical strengthening stage needs to be filled with a salt bath containing potassium nitrate which is required to be melted at high temperature during strengthening, and the strength of the glass is improved through replacing sodium ions and lithium ions with small ionic radius in the glass and potassium ions with larger ionic radius in the salt bath containing potassium nitrate. However, in the process of preheating, chemical strengthening and annealing, the temperature rising treatment in the preheating stage may cause uneven heating of the glass and easy generation of thermal stress, thus leading to warping, in addition, in the ion exchange process in the chemical strengthening stage, the glass is soaked in molten salt, the ion exchange speeds of different parts are inconsistent, and deformation may be caused, and in the annealing step, if the temperature is too fast or the temperature is not uniform, residual stress and further warping may be caused, therefore, the ultrathin glass subjected to the three stages of preheating, chemical strengthening and annealing is easy to generate larger toughened warping, and in order to improve the situation, the technological parameters of the three stages of preheating, chemical strengthening and annealing need to be optimized, but the current conditions cannot intuitively judge which link and process parameter of the three stages of preheating, chemical strengthening and annealing easily lead to glass warping. The visual analysis equipment for glass reinforcement is provided, photographs of three stages of preheating, chemical reinforcement and annealing are recorded in real time, and stages and technological parameters which are easy to cause glass warpage can be analyzed, so that the glass reinforcement process is optimized. Disclosure of utility model In view of the above, the present application provides a glass reinforced visual analysis device for solving the technical problem that the prior art lacks a glass reinforced visual analysis device. The first aspect of the application provides glass reinforcement visual analysis equipment, which comprises a glass sample basket and a reinforcement furnace; The strengthening furnace comprises a quartz groove, a heating unit, a cover plate and a camera; the glass sample basket is placed in the cavity of the quartz groove; The inner wall of the quartz groove is provided with a heating unit; the cover plate covers the top of the quartz groove; a high borosilicate glass observation window is arranged on the tank body of the quartz tank; and a camera is arranged on one side of the high borosilicate glass observation window far away from the quartz groove. Preferably, the glass reinforced visual analysis device further comprises an illuminating lamp; the cover plate is provided with a high borosilicate glass illumination window; The illuminating lamp is arranged on one side, far away from the quartz groove, of the high borosilicate glass illuminating window. Preferably, the glass reinforced visual analysis device further comprises a motor and a linear guide rail; the camera is fixed on the sliding block of the linear guide rail; the motor drives the linear guide rail. Preferably, the heating unit includes a bottom heating unit, a side heating unit, and a front heating unit; The bottom heating unit is arranged on the bottom surface of the inner wall of the quartz groove, the side heating unit is arranged on the side surface of the inner wall of the quartz groove, and the front heating unit is arranged on the front surface of the inner wall of the quartz groove. Preferably, the borosilicate glass observation window comprises a bottom borosilicate glass observation window, a first side borosilicate glass observation window and a second side borosilicate glass observation window, wherein the first side borosilicate glass observation window and the second side borosilicate glass observation window are oppositely arranged; The bottom high borosilicate glass observation window is arranged at the bottom of the groove body of the quartz groove, the first side high borosilicate glass observation window is arranged at the first side of the groove body of the quartz groove, and the second side high borosilicate glass observation window is arranged at the second side of the groove body of