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Device and method for producing toughened glass

A tempered glass and production method technology, applied in glass tempering, glass manufacturing equipment, manufacturing tools, etc., can solve the problems of difficulty in achieving complete tempering of ultra-thin glass, high noise, and high power consumption, and achieve low noise and reduced The effect of low energy consumption and power consumption

Active Publication Date: 2014-06-18
GUANGDONG SHUNDE TIMBERY TECH GLASS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Based on this, an object of the present invention is to provide a tempered glass production device, which can realize the complete tempering of ultra-thin glass with a thickness of 2 mm, and has the advantages of low energy consumption and low noise, and can overcome traditional tempered glass production. The device has high power consumption, high noise, and it is difficult to achieve complete tempering of ultra-thin glass.

Method used

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  • Device and method for producing toughened glass
  • Device and method for producing toughened glass

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Such as figure 1 As shown, the tempered glass production device of the present invention includes a heating device 10, a tempering device 20, and a roller table device 30 connected between the heating device 10 and the tempering device 20, and the roller table device 30 is used for heating device 10 and tempering device 20. Glass substrates are transported between apparatuses 20 .

[0030] Such as figure 2 As shown, the tempering device 20 includes a screw air compressor 22 , an air filter 23 , an air storage tank 24 and a quenching air grid 25 connected in sequence by an air supply pipeline 21 . An automatic air volume regulating valve 26 is provided at the output end of the air storage tank 24, so that the air pressure and air volume of the tempered air grid can be adjusted according to the thickness of the glass substrate to reduce unnecessary energy consumption. The quenching air grid 25 includes a first quenching air grid 251 and a second quenching air grid 252 ...

Embodiment 2

[0032] Take a glass substrate with a thickness of 2-3mm, put it in the heating device 10 and heat it to 680°C-700°C; pass the roller table device 30, and transport the heated glass substrate to the tempering device 20 within 1-2 seconds , and place the glass substrate between the first quenching air grid 251 and the second quenching air grid 252 for instantaneous high-pressure air quenching treatment, and the distances between the glass substrate and the first and second quenching air grids are respectively 5 mm to 10mm, the quenching air pressures output by the first and second quenching air grids are respectively 200kPa-300kPa, and the quenching time is 1-2 seconds. The screw air compressor 22 is in a discontinuous working state, as long as the air pressure in the air storage tank 24 is kept above 800kPa, by adjusting the automatic air volume regulating valve 26, the air output by the first and second quenching air grids The pressure reaches 200kPa ~ 300kPa, and by adjusting...

Embodiment 3

[0034]Take a glass substrate with a thickness of 2mm, place it in the heating device 10 and heat it to 680°C-690°C; pass through the roller table device 30, transport the heated glass substrate to the tempering device 20 within 1-2 seconds, and The glass substrate is placed between the first quenching air grid 251 and the second quenching air grid 252 for instantaneous high-pressure air quenching treatment, and the distances between the glass substrate and the first and second quenching air grids are respectively 5 mm to 6 mm. The quenching air pressures output by the first and second quenching air grids are respectively 280kPa-300kPa, and the quenching time is 1-2 seconds. The screw air compressor 22 is intermittently working, as long as the air pressure in the air storage tank 24 is kept above 800kPa, the air volume output by the first and second quenching air grids can be adjusted by adjusting the automatic air volume regulating valve 26. The pressure reaches 280kPa ~ 300kP...

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Abstract

The invention discloses a device for producing toughened glass, comprising a heating device, a toughening device and a roller way device connected between the heating device and the toughening device. The toughening device comprises a screw air compressor, an air filter, an air tank and a quenching cold air grid sequentially connected by an air supply pipeline. The invention also discloses a method for producing toughened glass by utilizing the device above. the device and the method can be used for completely toughening ultra-thin glass with the thickness of 2mm and have the advantages of low energy consumption, low noise, and the like.

Description

technical field [0001] The invention relates to a tempered glass production device and a production method thereof, in particular to an ultra-thin tempered glass production device and a production method thereof. Background technique [0002] At present, the methods of producing tempered glass mainly include physical tempering method and chemical tempering method. Among them, the physical tempering method refers to heating the glass to the softening temperature, eliminating internal stress through its own deformation, and then blowing high-pressure cold air to both sides of the glass. Tempered glass is obtained by rapidly and uniformly cooling to room temperature. Due to the small thermal conductivity of the glass, the two surfaces of the glass shrink and harden first, but the inside of the glass still has a relatively high temperature. As a result, the first hardened surface produces compressive stress, and then the hardened interior produces tensile stress, which makes or...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03B27/012
Inventor 黎和标
Owner GUANGDONG SHUNDE TIMBERY TECH GLASS
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