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Nano anti-ultraviolet heat insulation coated glass and production method thereof

An anti-ultraviolet, coating technology, applied in the field of separation and mixing, can solve the problems affecting the composition index of coating materials, unsatisfactory film forming effect, light pollution of insulating glass, etc. unobstructed effect

Inactive Publication Date: 2014-05-21
SHANGHAI CENXING IND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] The invention provides a nano-ultraviolet-proof and heat-insulating coated glass. The nano-ultraviolet-proof and heat-insulating coated glass needs to solve the problem of light pollution, low visible light transmission rate, and defoaming agent in the coating material of the heat-insulating glass in the prior art. Technical issues that affect the composition index of the coating material and the unsatisfactory film forming effect

Method used

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  • Nano anti-ultraviolet heat insulation coated glass and production method thereof
  • Nano anti-ultraviolet heat insulation coated glass and production method thereof
  • Nano anti-ultraviolet heat insulation coated glass and production method thereof

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Embodiment 1

[0014] Such as figure 1 As shown, the nano-ultraviolet-proof and heat-insulating coated glass of the present invention includes a glass plate 6, wherein the surface of the glass plate 6 is covered with a tin antimony oxide film 8, and the thickness of the tin antimony oxide film 8 is between Between 7-10 μm, a plurality of tin-antimony oxide particles are distributed in the tin-antimony oxide film 8 , and the diameter of any one of the tin-antimony oxide particles is between 1-100 nanometers.

[0015] The present invention also provides a method for producing the above-mentioned nano-ultraviolet-resistant heat-insulating coated glass, said method comprising a process of forming a tin-antimony oxide film on the glass plate 6 and dispersing the tin-antimony oxide particles in the water body In the step, the diameter of the tin antimony oxide particles is between 1 and 100 nanometers, wherein, in the process of forming the tin antimony oxide film on the glass plate 6, the glass p...

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Abstract

The invention relates to a nano anti-ultraviolet heat insulation coated glass which comprises a glass plate and a layer of tin antimony oxide film on the surface of the glass plate, wherein the thickness of the tin antimony oxide film is in the range of 7-10Mu m, a plurality of tin antimony oxide particles are distributed in the tin antimony oxide film, and the diameter of any one of the tin antimony oxide particles is in the range of 1-100 nm. The production method for the nano anti-ultraviolet heat insulation coated glass comprises the following steps: cleaning the glass plate by a glass washing machine, drying the clean glass plate, filtering and heating a water body containing tin antimony oxide particles by a liquid cycle filtering and heating device, making the water body form a liquid curtain by a surface spraying device and coating the glass plate with the liquid curtain, carrying out infrared radiation on the glass plate by a temperature control infrared radiation box, and cooling the glass plate. The nano anti-ultraviolet heat insulation coated glass is easy to produce and can achieve the heat insulation effect, does not influence indoor lighting and does not pollute environment.

Description

Technical field: [0001] The invention relates to the technical field of separation and mixing, in particular to the technology of coating film processing on glass, in particular to a nano-ultraviolet-resistant heat-insulating coated glass and a production method thereof. Background technique: [0002] In the prior art, heat-insulating glass such as coated glass, Low-E online glass and Low-E offline glass are widely used in energy-saving and heat-insulation measures for buildings and vehicles. Insulating glass includes glass, dielectric layer, protective layer and silver layer, among which the silver layer can reflect the infrared rays in sunlight and play the main role of heat insulation. However, the silver layer will cause light pollution, reduce the transmission rate of visible light, and affect lighting, and the material is expensive and easily oxidized and corroded in the air, with a short lifespan. Although a layer of titanium oxide can be sputtered on the surface to ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C17/23
Inventor 刘成军
Owner SHANGHAI CENXING IND
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