阅读说明：本技术 一种夹丝玻璃工艺品加工工艺 (Processing technology of wired glass artware ) 是由 孙雪兰 于 2020-05-12 设计创作，主要内容包括：本发明公开了一种夹丝玻璃工艺品加工工艺,包括以下步骤：S1、配料处理；S2、加工熔制；S3、夹丝处理；S4、加工成型；S5、加工处理。通过对生产原料进行处理,提高加工的玻璃的合格率,延长生产出玻璃的使用寿命,且对夹丝玻璃中的夹丝进行清洁和预热加工处理,方便夹丝玻璃的生产,能够有效的改善夹丝玻璃的内部性能和外观效果,使得制成的工艺品寿命更长,对制成的工艺品进行表面处理,提高工艺品的外观效果,有利于工艺品的销售和收藏。(The invention discloses a processing technology of wired glass artware, which comprises the following steps: s1, batching; s2, processing and melting; s3, wire clamping treatment; s4, processing and forming; and S5, processing. Through processing production raw materials, the qualification rate of the processed glass is improved, the service life of the produced glass is prolonged, the wire in the wire-clamping glass is cleaned and preheated, the production of the wire-clamping glass is facilitated, the internal performance and the appearance effect of the wire-clamping glass can be effectively improved, the service life of the manufactured artware is longer, the surface treatment is carried out on the manufactured artware, the appearance effect of the artware is improved, and the sale and the collection of the artware are facilitated.)

1. A processing technology of wired glass artware is characterized in that: the method comprises the following steps:

s1, batching, taking out the stored production raw materials of the glass, weighing a certain amount of production main raw materials and production auxiliary raw materials, processing the production main raw materials and the production auxiliary raw materials into powder, screening by a screening machine, conveying to a mixing stirrer, and uniformly stirring and mixing;

s2, processing and melting, namely adding the mixed raw materials into a container, and heating at high temperature to form uniform bubble-free glass liquid;

s3, carrying out wire clamping treatment, namely cleaning the wire netting to ensure that the surface of the wire netting is clean and free from oil stains, drying the moisture on the wire netting, and then carrying out preheating treatment on the dried wire netting;

s4, processing and forming, namely pouring the molten glass into an injection mold for manufacturing the artware, pressing the preheated wire netting into the molten glass by a worker, and then cooling and forming in a mold cavity of the mold;

and S5, processing, sequentially carrying out annealing treatment, quenching treatment, cold treatment and surface processing treatment on the formed glass artware, and packaging the processed glass artware for convenient transportation.

2. The wired glass artwork processing technology of claim 1, wherein: the batching processing in S1 includes raw material preprocessing in which a lump of main raw material and auxiliary raw material are put into a crusher to be crushed, the crushed glass raw material is taken out and put into a dryer to dry the crushed raw material, the crushed raw material is ground into a powdery raw material, and the powdery raw material is put into a screening machine to be screened.

3. The wired glass artwork processing technology of claim 1, wherein: the batching treatment in the S1 comprises the steps of removing iron from the raw materials, removing iron from the crushed glass raw materials by using a magnetic separation method, and drying the glass raw materials.

4. The wired glass artwork processing technology of claim 1, wherein: the production main raw material in the S1 comprises the following components in parts by weight: 50-60 parts of quartz sand, 10-18 parts of barite, 8-10 parts of limestone, 3-5 parts of feldspar and 20-25 parts of soda ash.

5. The wired glass artwork processing technology of claim 1, wherein: the production auxiliary raw materials in the S1 are as follows: 0.5-1 part of clarifying agent, 3-5 parts of coloring agent, 1-2 parts of decoloring agent, 1-3 parts of opacifying agent and 4-6 parts of fluxing agent.

6. The wired glass artwork processing technology of claim 1, wherein: the heating temperature in S2 is 1450 and 1550 ℃.

7. The wired glass artwork processing technology of claim 1, wherein: the surface processing treatment of S5 includes cutting, grinding and cleaning.

Technical Field

The invention relates to the related field of glass products, in particular to a processing technology of wired glass artware.

Background

Wired glass is also known as shatter-resistant glass and wire glass. In the rolling production process, a silk screen is pressed into a semi-liquid glass ribbon to form special glass. The glass has the advantages that the glass has high strength compared with common glass, and when the glass is impacted or subjected to temperature drastic change, the glass is broken without being deficient and cracked without scattering, small pieces of angular fragments are prevented from flying out to hurt people, such as fire spread, and when the wired glass is heated and cracked, the glass can still keep a fixed state to play a role in isolating fire, so the glass is also called as fireproof glass. The disadvantage is that the screen is easily oxidized by high temperature radiation during the production process, and yellow and bubbles like rusty spots are likely to appear on the glass surface. Wired glass is commonly used for skylights, ceiling roofs, and shock-sensitive doors and windows.

In the existing glass processing process, the treatment of production raw materials is unqualified, the subsequent produced glass products are easily affected, the qualification rate of the glass products is reduced, and the service life of the produced glass is also affected.

Disclosure of Invention

The invention aims to provide a processing technology of wired glass artware to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a processing technology of wired glass artware comprises the following steps:

s1, batching, taking out the stored production raw materials of the glass, weighing a certain amount of production main raw materials and production auxiliary raw materials, processing the production main raw materials and the production auxiliary raw materials into powder, screening by a screening machine, conveying to a mixing stirrer, and uniformly stirring and mixing;

s2, processing and melting, namely adding the mixed raw materials into a container, and heating at high temperature to form uniform bubble-free glass liquid;

s3, carrying out wire clamping treatment, namely cleaning the wire netting to ensure that the surface of the wire netting is clean and free from oil stains, drying the moisture on the wire netting, and then carrying out preheating treatment on the dried wire netting;

s4, processing and forming, namely pouring the molten glass into an injection mold for manufacturing the artware, pressing the preheated wire netting into the molten glass by a worker, and then cooling and forming in a mold cavity of the mold;

and S5, processing, sequentially carrying out annealing treatment, quenching treatment, cold treatment and surface processing treatment on the formed glass artware, and packaging the processed glass artware for convenient transportation.

Preferably, the blending process in S1 includes raw material preprocessing in which a lump of main raw material and auxiliary raw material is put into a crusher and crushed, the crushed glass raw material is taken out and put into a dryer to dry the crushed raw material, the crushed raw material is ground into a powdery raw material, and the powdery raw material is put into a screening machine and screened.

Preferably, the compounding process in S1 includes a raw material iron removal process, in which the crushed glass raw material is subjected to an iron removal process using a magnetic separation method, and then the glass raw material is dried.

Preferably, the production main raw material in the S1 comprises the following components in parts by weight: 50-60 parts of quartz sand, 10-18 parts of barite, 8-10 parts of limestone, 3-5 parts of feldspar and 20-25 parts of soda ash.

Preferably, the production auxiliary raw materials in S1 are: 0.5-1 part of clarifying agent, 3-5 parts of coloring agent, 1-2 parts of decoloring agent, 1-3 parts of opacifying agent and 4-6 parts of fluxing agent.

Preferably, the heating temperature in S2 is 1450-1550 ℃.

Preferably, the S5 surfacing process includes cutting, grinding and cleaning.

Compared with the prior art, the invention has the beneficial effects that: through processing production raw materials, the qualification rate of the processed glass is improved, the service life of the produced glass is prolonged, the wire in the wire-clamping glass is cleaned and preheated, the production of the wire-clamping glass is facilitated, the internal performance and the appearance effect of the wire-clamping glass can be effectively improved, the service life of the manufactured artware is longer, the surface treatment is carried out on the manufactured artware, the appearance effect of the artware is improved, and the sale and the collection of the artware are facilitated.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.