CN107825782B

CN107825782B - Self-cleaning glass of antidetonation

Info

Publication number: CN107825782B
Application number: CN201710882548.7A
Authority: CN
Inventors: 李锦亮
Original assignee: Dongguan Taisheng Glass Co Ltd
Current assignee: Dongguan Taisheng Glass Co Ltd
Priority date: 2017-09-26
Filing date: 2017-09-26
Publication date: 2019-12-10
Anticipated expiration: 2037-09-26
Also published as: CN107825782A

Abstract

The invention provides anti-seismic self-cleaning glass, which comprises an upper glass base layer and a lower glass base layer, and is characterized in that: an interval layer is arranged between the upper glass base layer and the lower glass base layer, a woven layer covers the interval layer and edge sealing glue is poured into the interval layer, the woven layer is tightly wrapped by the edge sealing glue, and the upper glass base layer and the lower glass base layer are tightly attached together; a frosted surface is formed on the upper surface of the upper glass base layer, a fluorescent powder layer is printed on the frosted surface, and a self-cleaning film layer is printed on the upper surface of the fluorescent powder layer; the weaving layer is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the hollow profiled fibers are used as warp fibers, the metal fibers and the ceramic fibers are used as weft fibers, and the hollow profiled fibers, the weft metal fibers and the ceramic fibers are sequentially interwoven into plain weave units by adopting a plain weave method. The invention has the beneficial effects that: through setting up the weaving layer, promote the holistic anti-seismic performance of glass.

Description

Self-cleaning glass of antidetonation

Technical Field

The invention relates to the technical field of composite glass, in particular to anti-seismic self-cleaning glass.

background

In the market, the composite glass is mainly applied to the field of decorative building materials and furniture and is an ideal novel substitute product for solid wood boards and marble boards. Belongs to the field of safety glass. The novel environment-friendly table top and panel are provided for the furniture industry, such as table tops of dining tables and tea tables, table tops of film and television cabinets, cabinet door panels and the like; the safety artistic glass of the guardrail, the decorative door plate and the like are provided for the architectural decoration industry; the glass provides artistic decoration glass for the home decoration industry, such as decoration partitions, movie and television walls, bathroom walls, indoor skirting lines, stage table tops and the like; provides a new advertisement carrier for the advertising industry such as: advertisement table, advertisement wall hanging, artistic photo, etc.

In the prior art, in order to improve the anti-seismic performance of glass, the main mode has: set up the rete that takes precautions against earthquakes, set up multilayer PVB and press from both sides the glue film, set up the buffer layer, the anti-seismic performance of these modes is relatively poor, awaits urgently a structure that can promote glass anti-seismic performance.

Disclosure of Invention

Based on the above, the invention aims to provide the anti-seismic self-cleaning glass, and the overall anti-seismic performance of the glass is improved by arranging the braid layer.

The invention provides anti-seismic self-cleaning glass, which comprises an upper glass base layer and a lower glass base layer, and is characterized in that: an interval layer is arranged between the upper glass base layer and the lower glass base layer, a woven layer is arranged in the interval layer, and edge sealing glue is filled in the interval layer, tightly wraps the woven layer and tightly adheres the upper glass base layer and the lower glass base layer together; a frosted surface is formed on the upper surface of the upper glass base layer, a fluorescent powder layer is printed on the frosted surface, and a self-cleaning film layer is printed on the upper surface of the fluorescent powder layer; the weaving layer is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the hollow profiled fibers are used as warp fibers, the metal fibers and the ceramic fibers are used as weft fibers, and the hollow profiled fibers, the weft metal fibers and the ceramic fibers are sequentially interwoven into plain weave units by adopting a plain weave method.

Preferably, the edge sealing glue is acid-resistant and alkali-resistant, and the edge sealing glue is poured into the spacing layer and then baked for 6-8 minutes at the temperature of 60-70 ℃ by a dryer.

Preferably, the edge sealing glue is poured into the spacing layer and then baked for 7 minutes by a dryer at the temperature of 65 ℃.

Preferably, the warp fibers and the weft fibers have a warp-weft density ratio of 1: 1.

Preferably, the frosted surface is manufactured by adopting a chemical etching mode.

Preferably, the phosphor layer is printed by screen printing, and the mesh size of the screen printing tool is gradually reduced.

as the preferred scheme, the lower surface of the lower glass substrate is provided with a self-cleaning film layer in an attaching mode.

The invention has the beneficial effects that:

1. The woven layer is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the metal fibers have high elasticity and high wear resistance, the ceramic fibers have the characteristics of high strength, strong corrosion resistance, good flexibility and the like, the hollow profiled fibers can enhance the cohesive force among the fibers and improve the fluffiness and air permeability of the fibers, and the woven layer formed by the three fibers is combined with the space layer and then filled with edge sealing glue to enhance the shock resistance and the reinforcing performance of the glass;

2. A frosted surface is formed on the upper surface of the upper glass base layer, and a fluorescent powder layer is printed on the frosted surface, so that one surface of the glass has a frosted fluorescent effect, and the decorative performance of the glass is enhanced;

3. The upper surface of the fluorescent powder layer is printed with a self-cleaning film layer, so that the outer surface of the glass has a self-cleaning effect.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of embodiment 2 of the present invention.

The reference signs are: the self-cleaning glass substrate comprises an upper glass substrate layer 10, a lower glass substrate layer 11, a spacing layer 12, edge sealing glue 13, a woven layer 14, a frosted surface 15, a fluorescent powder layer 16 and a self-cleaning film layer 17.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

In embodiment 1, please refer to fig. 1: an anti-seismic self-cleaning glass comprises an upper glass base layer 10 and a lower glass base layer 11, wherein an interval layer 12 is arranged between the upper glass base layer 10 and the lower glass base layer 11, a woven layer 14 is arranged in the interval layer 12, edge sealing glue 13 is filled in the interval layer, the woven layer 14 is tightly wrapped by the edge sealing glue 13, and the upper glass base layer 10 and the lower glass base layer 11 are tightly attached together; the upper surface of the upper glass substrate 10 is formed with a frosted surface 15 by chemical etching. The frosted surface 15 is printed with a fluorescent powder layer 16, the fluorescent powder layer 16 is printed in a screen printing mode, and the size of the adopted screen printing tool gradually decreases. The upper surface of the fluorescent powder layer 16 is printed with a self-cleaning film layer 17. The woven layer 14 is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the hollow profiled fibers are used as warp fibers, the metal fibers and the ceramic fibers are used as weft fibers, the hollow profiled fibers, the weft metal fibers and the ceramic fibers are sequentially interwoven into plain weave units by adopting a plain weave method, and the warp-weft density ratio of the hollow profiled fibers to the metal fibers and the ceramic fibers is 1: 1.

The edge sealing glue 13 is acid-resistant alkali-resistant edge sealing glue 13, the edge sealing glue 13 is poured into the spacing layer 12 and then is baked for 6-8 minutes at the temperature of 60-70 ℃, and as a preferred embodiment, the edge sealing glue 13 is poured into the spacing layer 12 and then is baked for 7 minutes at the temperature of 65 ℃.

according to the invention, the woven layer is formed by weaving the hollow profiled fibers, the metal fibers and the ceramic fibers, the metal fibers have high elasticity and high wear resistance, the ceramic fibers have the characteristics of high strength, strong corrosion resistance, good flexibility and the like, the hollow profiled fibers can enhance the cohesive force among the fibers and improve the fluffiness and air permeability of the fibers, and the woven layer formed by the three fibers is combined with the space layer and then filled with the edge sealing glue to enhance the shock resistance and the reinforcing performance of the glass; a frosted surface is formed on the upper surface of the upper glass base layer, and a fluorescent powder layer is printed on the frosted surface, so that one surface of the glass has a frosted fluorescent effect; the upper surface of the fluorescent powder layer is printed with a self-cleaning film layer, so that the outer surface of the glass has a self-cleaning effect.

In embodiment 2, please refer to fig. 2: an anti-seismic self-cleaning glass comprises an upper glass base layer 10 and a lower glass base layer 11, wherein an interval layer 12 is arranged between the upper glass base layer 10 and the lower glass base layer 11, a woven layer 14 is arranged in the interval layer 12, edge sealing glue 13 is filled in the interval layer, the woven layer 14 is tightly wrapped by the edge sealing glue 13, and the upper glass base layer 10 and the lower glass base layer 11 are tightly attached together; the upper surface of the upper glass substrate 10 is formed with a frosted surface 15 by chemical etching. The frosted surface 15 is printed with a fluorescent powder layer 16, the fluorescent powder layer 16 is printed in a screen printing mode, and the size of the adopted screen printing tool gradually decreases. The upper surface of the fluorescent powder layer 16 is printed with a self-cleaning film layer 17. The woven layer 14 is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the hollow profiled fibers are used as warp fibers, the metal fibers and the ceramic fibers are used as weft fibers, the hollow profiled fibers, the weft metal fibers and the ceramic fibers are sequentially interwoven into plain weave units by adopting a plain weave method, and the warp-weft density ratio of the hollow profiled fibers to the metal fibers and the ceramic fibers is 1: 1. The edge sealing glue 13 is acid-resistant alkali-resistant edge sealing glue 13, the edge sealing glue 13 is poured into the spacing layer 12 and then is baked for 6-8 minutes at the temperature of 60-70 ℃, and as a preferred embodiment, the edge sealing glue 13 is poured into the spacing layer 12 and then is baked for 7 minutes at the temperature of 65 ℃. The lower surface of the lower glass substrate 11 is provided with a self-cleaning film layer 17 in an attaching manner. The upper surface and the lower surface of the glass are both provided with self-cleaning film layers 17, so that the glass has a good self-cleaning function.

The above examples only show two embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a self-cleaning glass of antidetonation, includes upper glass substrate (10) and lower glass substrate (11), its characterized in that: an interval layer (12) is arranged between the upper glass base layer (10) and the lower glass base layer (11), a woven layer (14) is arranged in the interval layer (12) and edge sealing glue (13) is poured in the woven layer, and the woven layer (14) is tightly wrapped by the edge sealing glue (13) and the upper glass base layer (10) and the lower glass base layer (11) are tightly attached together; a frosted surface (15) is formed on the upper surface of the upper glass base layer (10), a fluorescent powder layer (16) is printed on the frosted surface (15), and a self-cleaning film layer (17) is printed on the upper surface of the fluorescent powder layer (16); the weaving layer (14) is formed by weaving hollow profiled fibers, metal fibers and ceramic fibers, the hollow profiled fibers are used as warp fibers, the metal fibers and the ceramic fibers are used as weft fibers, and the hollow profiled fibers, the weft metal fibers and the ceramic fibers are sequentially interwoven into plain weave units by adopting a plain weave method.

2. An anti-seismic self-cleaning glass according to claim 1, characterized in that: the edge sealing glue (13) is acid-resistant alkali-resistant edge sealing glue (13), and the edge sealing glue (13) is poured into the spacing layer (12) and then is baked for 6-8 minutes at the temperature of 60-70 ℃ by a dryer.

3. An anti-seismic self-cleaning glass according to claim 2, characterized in that: and after the edge sealing glue (13) is poured into the spacing layer (12), baking for 7 minutes at the temperature of 65 ℃ by using a dryer.

4. An anti-seismic self-cleaning glass according to claim 1, characterized in that: the warp fibers and the weft fibers have a warp-weft density ratio of 1: 1.

5. An anti-seismic self-cleaning glass according to claim 1, characterized in that: the frosted surface (15) is manufactured in a chemical etching mode.

6. An anti-seismic self-cleaning glass according to claim 1, characterized in that: the fluorescent powder layer (16) is printed in a screen printing mode, and the size of the mesh of the screen printing tool is gradually reduced.

7. An anti-seismic self-cleaning glass according to claim 1, characterized in that: the lower surface of the lower glass substrate (11) is provided with a self-cleaning film layer (17) in an attaching mode.