A kind of preparation technology of glass bottle with three-dimensional pattern of virtual reality and near reality

A preparation process and three-dimensional effect technology, which is applied in glass manufacturing equipment, manufacturing tools, glass blowing, etc., can solve the problems of poor image expression and inability to form a three-dimensional effect, etc. Rich variety of effects

Active Publication Date: 2020-01-07
ZIBO ZICHUAN ZHENHUA GLASS PROD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The picture expressiveness of this kind of image is poor, and

Method used

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  • A kind of preparation technology of glass bottle with three-dimensional pattern of virtual reality and near reality
  • A kind of preparation technology of glass bottle with three-dimensional pattern of virtual reality and near reality

Examples

Experimental program
Comparison scheme
Effect test

Example Embodiment

[0026] Example 1

[0027] Composition by weight: 40 parts of soda ash, 97 parts of quartz powder, 2 parts of fluorite powder, 1 part of alumina, 3 parts of sodium nitrate, 1 part of clarifying agent, 10 parts of calcium carbonate, prepared crystal material, and melted into crystal material molten glass liquid;

[0028] Composition by weight: 40 parts of soda ash, 90 parts of quartz powder, 0.5 part of clarifying agent, 1 part of zinc oxide, 15 parts of alumina, 3 parts of sodium nitrate, 5 parts of barium carbonate, 4 parts of sodium fluorosilicate, 4 parts of sodium chloride Parts, 2 parts of borax, prepared white jade material, and melted into molten glass of white jade material;

[0029] 1) Take the 1425℃ crystal material molten glass and blow it into glass bubbles. After the glass bubbles are cooled to 860℃, dip the 1425℃ white jade molten glass to cover the white jade to form a double glass bubble;

[0030] 2) The double-layer glass bubble is immersed in the melted pigment paste...

Example Embodiment

[0035] Example 2

[0036] Composition by weight: 41 parts of soda ash, 99 parts of quartz powder, 1.7 parts of fluorite powder, 0.9 parts of alumina, 2.8 parts of sodium nitrate, 0.9 parts of clarifying agent, 11 parts of calcium carbonate, prepared crystal material, and melted into crystal material molten glass liquid;

[0037] Components by weight: 39 parts of soda ash, 89 parts of quartz powder, 0.6 parts of clarifying agent, 1.1 parts of zinc oxide, 17 parts of alumina, 2.7 parts of sodium nitrate, 6 parts of barium carbonate, 3.5 parts of sodium fluorosilicate, 4.2 parts of sodium chloride Parts, 2.3 parts of borax, prepared white jade material, and melted into molten glass of white jade material;

[0038] 1) Take the molten glass of crystal material at 1430°C and blow into glass bubbles, cool the glass bubble to 875°C, then dip the molten glass of white jade material at 1430°C to cover the white jade to form a double glass bubble;

[0039] 2) The double-layer glass bubble is im...

Example Embodiment

[0044] Example 3

[0045] Composition by weight: 39 parts of soda ash, 96 parts of quartz powder, 2.2 parts of fluorite powder, 1.1 parts of alumina, 3.2 parts of sodium nitrate, 1.1 parts of clarifying agent, 9 parts of calcium carbonate, prepared crystal material, and melted into crystal material molten glass liquid;

[0046] Composition by weight: 41 parts of soda ash, 91 parts of quartz powder, 0.45 parts of clarifying agent, 0.9 parts of zinc oxide, 15 parts of alumina, 3.2 parts of sodium nitrate, 5 parts of barium carbonate, 5.2 parts of sodium fluorosilicate, 3.5 parts of sodium chloride Parts, 1.7 parts of borax, prepared white jade material, and melted into molten glass of white jade material;

[0047] 1) Take the 1420℃ molten glass of crystal material and blow it into a glass bubble. After the glass bubble is cooled to 800℃~900℃, dip the molten glass of 1420℃ white jade material into the white jade to form a double glass bubble;

[0048] 2) The double-layer glass bubble is...

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Abstract

The invention discloses a preparation process of glass bottle having patterns with three-dimensional sense of distance, virtualness and reality, and belongs to the technical field of glass products. The preparation process is characterized by comprising the following steps of: preparing glass bubbles by blowing crystal material molten glass liquid, dipping white jade material molten glass liquid after cooling the glass bubbles; soaking the glass bubbles in molten slurry of pigment for color processing; dipping white jade/crystal material molten glass liquid at 1400-1450 DEG C on the color processed glass bubbles for white jade processing/crystal processing; then dipping the pigment for tempering; cooling again and then dipping the white jade material molten glass liquid for white jade processing; dipping the pigment and then dipping the crystal material molten glass liquid for crystal processing; blowing for shape after taking out, and thus obtaining the product after annealing. The invention presents patterns with three-dimensional sense of distance, virtualness and reality makes color glazed products more powerful in picture performance, more casual in changing combinations, more diverse in patterns, and greatly improves appreciate value of the color glazed products.

Description

technical field [0001] The invention discloses a process for preparing a glazed bottle with a three-dimensional pattern of far and near virtual and real, belonging to the technical field of glass products. Background technique [0002] The term "Liuli" began in the Han Dynasty, called "Liuli", and later also called "Ruli", which generally refers to glass or utensils coated with vitreous glaze. With the improvement of people's living standards, people's yearning for handicrafts and decorations is getting higher and higher. Glass products have their unique advantages in the fields of handicrafts and decorations, and gradually more and more people pay attention to them. There are many forms of images presented by glazed products. However, due to the technical characteristics of pure glass products, its pattern form is still relatively thin. Mostly, two-dimensional images are formed by applying patterned colorants on a base color. The picture expressiveness of this kind of i...

Claims

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Application Information

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IPC IPC(8): C03B9/00C03C17/34C03C6/06B44C5/00
CPCB44C5/00C03B9/00C03C1/00C03C17/34
Inventor 陈京田伊海富
Owner ZIBO ZICHUAN ZHENHUA GLASS PROD
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