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Lead-free high-temperature decorating fire glass container production method

The technology of a glass container and production method is applied in the production field of lead-free high-temperature desiccated glass containers, which can solve the problems of less use times and achieve the effects of fewer production processes, high firmness, and simple operation

Inactive Publication Date: 2016-04-06
XUZHOU HENGRUN GLASSWARE CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] my country's glass container market has already introduced printed glass bottles. This product that prints exquisite patterns and trademarks on the surface of glass bottles has been adopted by many companies. It is integrated into one body, but its inherent glass characteristics also determine that it is used less frequently, and excessive repeated use will bring adverse consequences

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] Send the purchased lead-free white cullet, which accounts for 35% of the total, to a water washing machine, wash it repeatedly with high-pressure water, and dry it naturally after rinsing. Quartz sand, 6.5% of soda ash, 10.5% of albite, 5.6% of calcite, 0.2% of sodium sulfate, and 0.2% of cobalt powder are fed into the blender and mixed evenly into the electric kiln; Increase the medium temperature to 1550°C, keep this temperature for 26 hours, make the mixture reach a molten state, and obtain a lead-free glass melt, send the lead-free glass melt into a blowing machine, blow it into various types of containers, and cool down To 1000℃-1010℃, the lead-free glass container is solidified; the cured and formed lead-free glass container is naturally cooled to 750℃, and then sent to the annealing box with a conveyor. The temperature in the annealing box is 730℃, and then after 3.0 hours When the temperature drops to 160°C, the annealing is completed, and the lead-free glass co...

Embodiment 2

[0018] Send the purchased lead-free white cullet, which accounted for 36% of the total, into a washing machine, wash it repeatedly with high-pressure water, and dry it naturally after rinsing. Quartz sand, 6.5% of soda ash, 10.5% of albite, 5.6% of calcite, 0.2% of sodium sulfate, and 0.2% of cobalt powder are fed into the blender and mixed evenly into the electric kiln; Increase the medium temperature to 1555°C, keep this temperature for 25 hours, make the mixture reach a molten state, and obtain a lead-free glass melt, send the lead-free glass melt into a blowing machine, blow it into various types of containers, and cool down To 1000℃-1010℃, the lead-free glass container is solidified; the cured and formed lead-free glass container is naturally cooled to 750℃, and then sent to the annealing box with a conveyor. The temperature in the annealing box is 735℃, and then after 2.75 hours. When the temperature drops to 160°C, the annealing is completed, and the lead-free glass con...

Embodiment 3

[0020] Send the purchased lead-free white cullet, which accounts for 37% of the total, to a washing machine, wash it repeatedly with high-pressure water, and dry it naturally after rinsing. Quartz sand, 6.5% of soda ash, 10.5% of albite, 5.6% of calcite, 0.2% of sodium sulfate, and 0.2% of cobalt powder are fed into the blender and mixed evenly into the electric kiln; Increase the medium temperature to 1560°C, keep this temperature for 24 hours, make the mixture reach a molten state, and obtain a lead-free glass melt, send the lead-free glass melt into a blowing machine, blow it into various types of containers, and cool down To 1000 ℃ -1010 ℃, the lead-free glass container is solidified; the cured and formed lead-free glass container is naturally cooled to 750 ℃ ​​and then sent to the annealing box with a conveyor. The temperature in the annealing box is 740 ℃, and then after 2.5 hours. When the temperature drops to 160°C, the annealing is completed, and the lead-free glass c...

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PUM

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Abstract

The present invention discloses a lead-free high-temperature decorating fire glass container production method, and belongs to the field of glass manufacturing. According to the present invention, lead-free white broken glass, white quartz sand, soda ash, sodium feldspar, calcite, sodium sulfate, cobalt powder, and film-tearing-free water labels for each container are adopted as raw materials, and lead-free glass container manufacturing, film adhering, high-temperature decorating firing and other processes are performed to obtain the finished product; the production method has characteristics of simple operation, less production steps, high efficiency, no pollution, small occupation area and less investment, and is suitable for industrial production; and the product lead-free high-temperature decorating fire glass container has characteristics of fine workmanship, high-definition image, bright color, no fading, water resistance, alcohol resistance, wear resistance, high firmness, and no lead and other toxic elements.

Description

technical field [0001] The invention belongs to the field of glass manufacturing, and in particular relates to a method for producing a lead-free high-temperature embossed glass container. Background technique [0002] my country's glass container market has already introduced printed glass bottles. This product that prints exquisite patterns and trademarks on the surface of glass bottles has been adopted by many companies. It is integrated into one body, but its inherent glass characteristics also determine that it is used less frequently, and excessive repeated use will bring adverse consequences. With the passage of time and changes in consumption trends, people's requirements for glass containers are getting higher and higher, and the manufacturing industry must follow up at the same time. Decorated glass containers have gradually entered people's field of vision. Fading, water resistance, wine resistance, wear resistance, high firmness, high hardness, elegant and gorgeo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C6/02C03C23/00
Inventor 王赛
Owner XUZHOU HENGRUN GLASSWARE CO LTD
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