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Tempered glass refrigerator partition based on light-guide printing ink silk-screen printing

A technology of tempered glass and light-guiding ink, which is applied in the direction of ink, lighting and heating equipment, supports, etc., can solve the problems of unable to realize the surface irradiation of light, blocking the irradiation of lighting lamps, and poor safety performance, so as to achieve good lighting effects and increase Safety, reasonable formula and effect

Inactive Publication Date: 2013-09-25
合肥恒通玻璃制品有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Existing refrigerator partitions generally include a glass body and a frame around the glass body, and the glass body is an ordinary glass layer, which not only has poor safety performance, but also has poor decoration
[0004] In addition, conventional refrigerators are generally provided with one or more lighting lamps on the top or side of the cabinet. This kind of refrigerator lighting device wastes energy and cannot realize the surface irradiation of light. When there are many items, it will block the illumination of the lighting light, which will cause inconvenience

Method used

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  • Tempered glass refrigerator partition based on light-guide printing ink silk-screen printing
  • Tempered glass refrigerator partition based on light-guide printing ink silk-screen printing

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] The ink that screen printing ink layer 2 of the present invention uses comprises the component of following weight part:

[0033] 20 parts by weight of polymethacrylic resin; 3 parts by weight of polyester acrylate; 10 parts by weight of polymethylsiloxane microspheres with a particle size of 0.5-15 μm; the solvent is butyl diglycol-ether: 50 parts by weight; The flux is titanium oxide: 5 parts by weight.

[0034] When preparing the light-guiding ink of this example, weigh each component according to the above weight parts, control the reaction temperature at 40-50 degrees (heated in a water bath), stir the speed at 300-400R / min, and control the reaction time at 1-50°C. between 2 hours.

[0035] When the light guide ink of this embodiment is screen-printed on the glass layer 1, the technological process mainly includes: pre-press treatment → plate making → glaze preparation → silk screen → baking → finished product; wherein, the pre-press treatment methods on the surfa...

Embodiment 2

[0039] The ink used in the screen printing ink layer 2 of the present invention includes the following components by weight: 30 parts by weight of polymethacrylic resin; 5 parts by weight of polyester acrylate; polymethylsiloxane microspheres with a particle size of 0.5-15 μm 20 parts by weight; the solvent is butyl diglycol-diethyl ether: 50 parts by weight; the flux is titanium oxide and zirconia in a weight ratio of 1:1: 5 parts by weight.

[0040] When preparing the light-guiding ink of this example, weigh each component according to the above weight parts, control the reaction temperature at 40-50 degrees (heated in a water bath), stir the speed at 300-400R / min, and control the reaction time at 1-50°C. between 2 hours.

[0041] When the light guide ink of this embodiment is screen-printed on the glass layer 1, the technological process mainly includes: pre-press treatment → plate making → glaze preparation → silk screen → baking → finished product; wherein, the pre-press ...

Embodiment 3

[0043] The ink that screen printing ink layer 2 of the present invention uses comprises the component of following weight part:

[0044] 15 parts by weight of polymethacrylic resin; 3 parts by weight of polyester acrylate; 5 parts by weight of polymethylsiloxane microspheres with a particle size of 0.5-15 μm; the solvent is butyl diglycol-ether: 40 parts by weight; The flux is titanium oxide: 5 parts by weight.

[0045] When preparing the light-guiding ink of this example, weigh each component according to the above weight parts, control the reaction temperature at 40-50 degrees (heated in a water bath), stir the speed at 300-400R / min, and control the reaction time at 1-50°C. between 2 hours.

[0046] When the light guide ink of this embodiment is screen-printed on the glass layer 1, the technological process mainly includes: pre-press treatment → plate making → glaze preparation → silk screen → baking → finished product; wherein, the pre-press treatment methods on the surfac...

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Abstract

The invention discloses a tempered glass refrigerator partition based on light-guide printing ink silk-screen printing. The tempered glass refrigerator partition comprises a tempered glass layer and frames fixed on the left and the right of the glass layer. A silk-screen printing ink layer is disposed on one surface of the glass layer. An LED decorating lamp strip is disposed in each frame. Due to the fact that light-guide printing ink is printed on the surface of tempered glass through the silk-screen printing, when the tempered glass is used as the refrigerator partition, the refrigerator partition is safe and reliable, lighting of the whole partition is achieved, and good lighting effect is achieved. The tempered glass with a light-guide function is widely applicable to advertising boards, internal and external parts of household appliances, and indoor and outdoor decoration, and can replace light guide plates made of other materials.

Description

[0001] technical field [0002] The invention relates to a tempered glass refrigerator partition, in particular to a tempered glass refrigerator partition based on light guide ink silk screen printing. Background technique [0003] In order to make full use of the space, most of the existing refrigerators are provided with multi-layer partitions in the refrigerator compartment and the freezer compartment. At the same time, it is very convenient to take and put the food. Existing refrigerator partitions generally include a glass body and a frame around the glass body, and the glass body is an ordinary glass layer, which not only has poor safety performance, but also has poor decoration. [0004] In addition, conventional refrigerators are generally provided with one or more lighting lamps on the top or side of the cabinet. This kind of refrigerator lighting device wastes energy and cannot realize the surface irradiation of light. When there are many items, it will block the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25D25/02C09D11/10
Inventor 王佑旺
Owner 合肥恒通玻璃制品有限责任公司