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Energy-saving improved double silver insulating glass coating film and preparation method thereof

An improved, glass technology, applied in the coating and other directions, can solve the problem of not taking into account the energy saving effect and good lighting performance, and achieve the effect of good energy saving effect, good lighting performance and reduced heat transfer coefficient

Inactive Publication Date: 2019-10-25
JIANGYIN MUXIANG ENERGY SAVING DECORATION MATER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although its heat transfer coefficient can reach a low value of 1.2, it still cannot take into account the two points of good energy saving effect and good lighting performance

Method used

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  • Energy-saving improved double silver insulating glass coating film and preparation method thereof
  • Energy-saving improved double silver insulating glass coating film and preparation method thereof
  • Energy-saving improved double silver insulating glass coating film and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] like figure 1 As shown, the present invention is an energy-saving improved double-silver insulating glass coating, including a first silicon nitride film layer 1, a first zinc oxide film layer 2, a first silver film layer 3, The first nickel chromium film layer 4 , the second zinc oxide film layer 5 , the second silver film layer 6 , the second nickel chromium film layer 7 and the second silicon nitride film layer 8 . The thickness of the first silicon nitride film layer 1 is 0.6-0.7 nm, the thickness of the first zinc oxide film layer 2 is 8-10 nm, and the thickness of the first silver film layer 3 is

[0034] 11-17nm, the thickness of the first nickel chromium film layer 4 is 0.4-0.8nm, the thickness of the second zinc oxide film layer 5 is 8-10nm, and the thickness of the second silver film layer 6 is 11-17nm, The thickness of the second nickel chromium film layer 7 is 0.4-0.8 nm, and the thickness of the second silicon nitride film layer 8 is 0.6-0.7 nm.

[0035] ...

Embodiment 2

[0041] The difference from Embodiment 1 is that, as Figure 2 to Figure 4 As shown, the coating of the energy-saving improved double-silver insulating glass includes a first coating layer 9 and a second coating layer 10 respectively arranged on the outside and inside of the glass substrate 11, and the layers of the first coating layer 9 and the second coating layer 10 The structure is the same, including the first silicon nitride film layer 1, the first zinc oxide film layer 2, the first silver film layer 3, the first nickel chromium film layer 4, and the second zinc oxide film layer arranged in sequence from outside to inside. Layer 5, the second silver film layer 6, the second nickel chromium film layer 7 and the second silicon nitride film layer 8.

[0042] In step S1, a slot 13 for vertically placing the glass substrate 11 is provided on the base 12 of the magnetron sputtering coating substrate;

[0043] In the S2 step, the second silicon nitride film layer 8 and the firs...

Embodiment 3

[0046] The difference from the embodiment is that, as Figure 5 to Figure 8 As shown, the coating of the energy-saving improved double-silver insulating glass includes a first coating layer 9 and a second coating layer 10 respectively arranged on the outside and inside of the glass substrate 11, and the first coating layer 9 is the first coating layer 9 from outside to inside. Silicon nitride film layer 1, the first zinc oxide film layer 2, the first silver film layer 3 and the first nickel chromium film layer 4; the second coating film layer 10 is the second zinc oxide film layer 5, The second silver film layer 6 , the second nickel chromium film layer 7 and the second silicon nitride film layer 8 .

[0047] In step S1, a slot 13 for vertically placing the glass substrate 11 is provided on the base 12 of the magnetron sputtering coating substrate;

[0048] In the S2 step, first place the glass substrate 11 horizontally on the substrate placement seat 12 and sputter the first...

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Abstract

The invention discloses an energy-saving improved double silver insulating glass coating film. The energy-saving improved double silver insulating glass coating film includes insulating glass, a firstcoating layer and a second coating layer, wherein the first coating layer is arranged on the insulating glass used as outdoor side glass, and the second coating layer is arranged on the insulating glass used as indoor side glass; and the first coating layer and the second coating layer have the same hierarchical structure and correspondingly include first silicon nitride film layers, first zinc oxide film layers, first silver film layers, first nickel chromate film layers, second zinc oxide film layers, second silver film layers, second nickel chromate film layers and silicon nitride film layers which are arranged successively from the outside to the inside. According to the energy-saving improved double silver insulating glass coating film, the prepared double silver insulating glass isincreased in visible light transmission ratio, decreased in heat transfer coefficient and decreased in shading coefficient, so that the energy-saving effect of the insulating glass is significantly enhanced, lighting performance is better, and production capacity is improved.

Description

technical field [0001] The invention relates to a coating film of an energy-saving improved double-silver hollow glass and a preparation method thereof. Background technique [0002] Coated glass is a kind of glass that changes the optical properties of the glass and meets specific requirements by coating one or more layers of metal, alloy or metal compound thin films on the surface of the glass substrate. However, the current double-silver insulating glass, due to its unreasonable film structure design, its energy-saving effect is not enough, and its lighting performance is also average, especially it is difficult to achieve both energy-saving effect and good lighting performance of coated insulating glass; Generally around 50%, the heat transfer coefficient is 1.7, and the shading coefficient is 0.5. The patent with the publication number CN107759108A: an off-line light gray double-silver coated glass with low light transmittance and its preparation method. The coated gla...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C17/36
CPCC03C17/3639C03C17/3644C03C17/3649C03C2218/156
Inventor 郭博郭亚霓郭超
Owner JIANGYIN MUXIANG ENERGY SAVING DECORATION MATER