CN213234750U - Temperable sun-shading LOW-E glass - Google Patents

Abstract

The utility model relates to a temperable sunshade LOW-E glass, which belongs to the technical field of glass, and comprises a glass layer and a protective frame wrapped outside the periphery of the glass layer, wherein the glass layer comprises an outdoor tempered glass layer and an indoor LOW-E glass layer, an electrochromic glass layer is arranged between the LOW-E glass layer and the tempered glass layer, the periphery of the electrochromic glass layer is clamped in a groove at the inner side of the protective frame, one side of the electrochromic glass layer, which faces the LOW-E glass layer, is tightly attached with a first glass sheet, and a first vacuum cavity is arranged between the first glass sheet and the LOW-E glass layer; the utility model relates to a rationally, set up electrochromic glass layer between toughened glass layer and LOW-E glass layer, can be at any time according to people's wish or outdoor illumination intensity, the depth of automatic regulation and control glass colour improves indoor natural illumination luminance, has better sunshade effect, and the design reinforcing sound insulation and heat insulation effect on two-layer vacuum layer, better satisfies the user demand.

Description

Temperable sun-shading LOW-E glass

Technical Field

The utility model belongs to the technical field of glass, concretely relates to sunshade LOW-E glass can temper.

Background

The existing common glass has low sunlight transmittance, large transmittance and drift amount after tempering, large color deviation and poor sun-shading effect. The LOW-E glass is characterized in that a layer of metal silver is deposited on the surface of float glass to serve as a functional layer, and the functional layer plays a role in emitting near infrared rays in sunlight and far infrared rays in a living environment, so that the absorption rate and the radiance of the glass to the infrared rays are reduced, and therefore the LOW-E glass is called as LOW-radiation coated glass and can be applied to family windows, glass curtain walls of shops, office buildings, high-grade hotels and other places.

The existing single-silver LOW-E glass has an unobvious sun-shading function, and light can be completely blocked by using a curtain, so that most of environments cannot be met, and the application range of the single-silver LOW-E glass is limited.

Therefore, the toughened sun-shading LOW-E glass is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but tempering sunshade LOW-E glass to solve the problem that proposes among the above-mentioned background art.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a tempered sunshade LOW-E glass comprises a glass layer and a protective frame wrapped outside the periphery of the glass layer, wherein the glass layer comprises an outdoor tempered glass layer and an indoor LOW-E glass layer, an electrochromic glass layer is arranged between the LOW-E glass layer and the tempered glass layer, the periphery of the electrochromic glass layer is clamped in an inner side groove of the protective frame, one side of the electrochromic glass layer, which faces the LOW-E glass layer, is tightly attached with a first glass sheet, a first vacuum cavity is arranged between the first glass sheet and the LOW-E glass layer, one side of the electrochromic glass layer, which faces the tempered glass layer, is provided with a second glass sheet, a second vacuum cavity is arranged between the second glass sheet and the tempered glass layer, the top end of the electrochromic glass layer is connected with a control switch through a conductive piece, and the control switch is positioned at the top end of an indoor outer wall of the protective frame, and a sealing mechanism for covering the mounting groove of the electrochromic glass layer is arranged at the top end of the protective frame.

As the utility model discloses a further optimization scheme, sealing mechanism is including sealed plugboard, sealed plugboard passes through hot melt adhesive layer seal installation on the top mounting groove of protective frame, and the inside both sides of mounting groove all are equipped with built-in groove, and built-in inslot portion is equipped with spring and baffle, and the baffle is located the mounting groove.

As a further optimization scheme of the utility model, the contact jaw of the inside both sides baffle of mounting groove is unsmooth cooperation.

As the utility model discloses a further optimization scheme, toughened glass layer, LOW-E glass layer, first glass piece and second glass piece around and be equipped with the articulamentum between the protective frame, the articulamentum is made for carbon fiber material.

As a further optimization scheme of the utility model, toughened glass layer is from indoor to outdoor including preventing ultraviolet layer, toughened glass basic unit, hardness layer and soft glue film in proper order.

As a further optimization scheme of the utility model, LOW-E glass layer includes LOW-E glass basic unit, first protective layer, oxidation resisting layer, metallic silver layer, second protective layer, explosion-proof layer, wearing layer from indoor to outdoor in proper order.

The beneficial effects of the utility model reside in that: the utility model provides a but tempering sunshade LOW-E glass, reasonable in design sets up electrochromic glass layer between toughened glass layer and LOW-E glass layer, can be at any time according to people's wish or outdoor illumination intensity, the depth of automatic regulation and control glass colour improves indoor natural illumination luminance, better sunshade effect has, the design reinforcing sound insulation and heat insulation effect on two-layer vacuum layer, and electrochromic glass layer convenient to install and dismantle, the artificial control of being convenient for, satisfied user demand that can be better.

Drawings

FIG. 1 is a schematic structural view of the temperable sunshade LOW-E glass of the utility model;

FIG. 2 is a schematic view of a toughened glass layer of the temperable sunshade LOW-E glass of the present invention;

FIG. 3 is a schematic view of a LOW-E glass layer of the temperable sunshade LOW-E glass of the present invention;

fig. 4 is a partially enlarged schematic view of fig. 1 of the temperable sunshade LOW-E glass of the present invention.

In the figure: 1. a tempered glass layer; 101. tempering the glass substrate; 102. an ultraviolet-resistant layer; 103. a hardness layer; 104. a soft adhesive layer; 2. a LOW-E glass layer; 201. a LOW-E glass substrate; 202. a first protective layer; 203. an anti-oxidation layer; 204. a metallic silver layer; 205. a second protective layer; 206. an explosion-proof layer; 207. a wear layer; 3. a protective frame; 4. an electrochromic glass layer; 5. a first glass sheet; 6. a second glass sheet; 7. a first vacuum chamber; 8. a second vacuum chamber; 9. a control switch; 10. a connecting layer; 11. a built-in groove; 12. a spring; 13. a baffle plate; 14. a sealing plug plate; 15. a hot melt adhesive layer.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

A temperable sunshade LOW-E glass:

as shown in figure 1, the glass comprises a glass layer and a protective frame 3 wrapped outside the periphery of the glass layer, the glass layer comprises a toughened glass layer 1 facing outdoors and a LOW-E glass layer 2 facing indoors, an electrochromic glass layer 4 is arranged between the LOW-E glass layer 2 and the toughened glass layer 1, the periphery of the electrochromic glass layer 4 is clamped in a groove at the inner side of the protective frame 3, one side of the electrochromic glass layer 4 facing the LOW-E glass layer 2 is provided with a first glass sheet 5 in a clinging manner, a first vacuum cavity 7 is arranged between the first glass sheet 5 and the LOW-E glass layer 2, one side of the electrochromic glass layer 4 facing the toughened glass layer 1 is provided with a second glass sheet 6, a second vacuum cavity 8 is arranged between the second glass sheet 6 and the toughened glass layer 1, a connecting layer 10 is arranged between the peripheries of the toughened glass layer 1, the LOW-E glass layer 2, the first glass sheet 5 and the second glass sheet 6 and the protective frame 3, the articulamentum 10 is made for carbon fiber material, the holistic connection steadiness of glass has been improved, form the space of installation electrochromic glass layer 4 between first glass piece 5 and the second glass piece 6, the design reinforcing sound insulation and heat insulation effect on two sets of vacuum layers, electrically conductive piece connection control switch 9 is passed through on the top on electrochromic glass layer 4, and control switch 9 is located protective frame 3 and is located indoor outer wall top, thereby adjust the electric field intensity in electrochromic glass layer 4 through control switch 9 electric current, thereby reach the effect that electrochromic glass layer 4 discolours, protective frame 3's top is equipped with the sealing mechanism who covers electrochromic glass layer 4 mounting grooves, electrochromic glass layer 4 inside electrolyte stability is unstable, when the installation is changed and is dismantled, the accessible is opened sealing mechanism and is changed alone, do not destroy the glass wholly.

As shown in fig. 4, the sealing mechanism includes a sealing plug plate 14, the sealing plug plate 14 is hermetically installed on the top end installation groove of the protection frame 3 through a hot melt adhesive layer 15, both sides of the inside of the installation groove are provided with built-in grooves 11, springs 12 and baffle plates 13 are arranged inside the built-in grooves 11, the baffle plates 13 are located in the installation groove, contact ends of the baffle plates 13 on both sides of the inside of the installation groove are in concave-convex fit, so that the connection between the baffle plates 13 is tighter, when the electrochromic glass layer 4 is put in or taken out, as long as the electrochromic glass layer 4 is taken out or put down, the baffle plates 13 are immediately closed due to the springs 12, argon gas filling treatment can be performed on the inside of the installation groove through thin pipes after installation and putting in, then the sealing plug plate 14 with the hot melt adhesive layer 15 coated at the bottom end.

As shown in fig. 2, the toughened glass layer 1 sequentially includes, from indoor to outdoor, an ultraviolet-proof layer 102, a toughened glass base layer 101, a hardness layer 103, and a soft glue layer 104: the ultraviolet-proof layer 102 is an UV layer with the thickness of 5-10nm, most of ultraviolet rays are filtered, and the damage of the ultraviolet rays to the indoor space and the glass is greatly reduced; the hardness layer 103 is a carbon layer with the thickness of 70-80nm, is high-temperature resistant and shock-resistant, and prevents glass from being scratched in the outdoor installation process; the soft adhesive layer 21 of the soft adhesive layer 104 sequentially comprises a polyester film, a silicone adhesive and an epoxy resin film from outside to inside, so that the glass main body can be effectively protected from being scratched, broken fragments are bonded when the toughened glass base layer 101 is damaged by impact, and people are prevented from being injured by falling.

As shown in fig. 3, the LOW-E glass layer 2 sequentially comprises a LOW-E glass base layer 201, a first protective layer 202, an oxidation resistant layer 203, a metallic silver layer 204, a second protective layer 205, an explosion-proof layer 206 and a wear-resistant layer 207 from indoor to outdoor: the first protective layer 202 or the second protective layer 205 is formed by compounding a chromium nickel layer and a zinc oxide layer, has the thickness of 40-50nm, and plays a role in protecting a functional layer, namely the metal silver layer 204; the antioxidation layer 203 is a silicon nitride layer with the thickness of 20-30nm, so that the physical property and the antioxidation property of the glass are improved, and the glass has good mechanical durability; the explosion-proof layer 22 is a polyvinyl butyral glue layer, the thickness is 70-80nm, the adhesive force is good, the impact strength can be improved, fragments of the explosion-proof layer do not fall off or splash during crushing, the damage to a human body can be effectively prevented or reduced, and the wear-resistant layer 207 is a silicon nitride layer, so that the wear resistance of the functional layer is improved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (6)

1. The utility model provides a but tempering sunshade LOW-E glass, includes glass layer and parcel at glass layer outer protective frame (3) all around, the glass layer is including towards outdoor toughened glass layer (1) and towards indoor LOW-E glass layer (2), characterized in that, be equipped with electrochromic glass layer (4) between LOW-E glass layer (2) and toughened glass layer (1), block all around of electrochromic glass layer (4) in protective frame (3) inboard groove, the one side of electrochromic glass layer (4) towards LOW-E glass layer (2) is hugged closely and is equipped with first glass piece (5), and be equipped with first vacuum cavity (7) between first glass piece (5) and LOW-E glass layer (2), one side of electrochromic glass layer (4) towards toughened glass layer (1) is equipped with second glass piece (6), and a second vacuum cavity (8) is arranged between the second glass sheet (6) and the toughened glass layer (1), the top end of the electrochromic glass layer (4) is connected with a control switch (9) through a conductive piece, the control switch (9) is positioned on the top end of the indoor outer wall of the protection frame (3), and a sealing mechanism for covering the installation groove of the electrochromic glass layer (4) is arranged on the top end of the protection frame (3).

2. The temperable sun-shading LOW-E glass according to claim 1, wherein the sealing mechanism comprises a sealing plug plate (14), the sealing plug plate (14) is hermetically mounted on a mounting groove at the top end of the protective frame (3) through a hot melt adhesive layer (15), built-in grooves (11) are respectively arranged on two sides of the inside of the mounting groove, springs (12) and baffles (13) are arranged inside the built-in grooves (11), and the baffles (13) are positioned in the mounting groove.

3. The temperable sunshade LOW-E glass as claimed in claim 2, wherein the contact ends of the side baffles (13) inside the mounting groove are in concave-convex fit.

4. The temperable sun-shading LOW-E glass according to claim 1, wherein a connecting layer (10) is arranged between the peripheries of the tempered glass layer (1), the LOW-E glass layer (2), the first glass sheet (5) and the second glass sheet (6) and the protective frame (3), and the connecting layer (10) is made of carbon fiber materials.

5. The temperable sun-shading LOW-E glass as claimed in claim 1, wherein the tempered glass layer (1) comprises an ultraviolet-proof layer (102), a tempered glass base layer (101), a hardness layer (103) and a soft rubber layer (104) from indoor to outdoor in sequence.

6. The temperable sun-shading LOW-E glass as claimed in claim 1, wherein the LOW-E glass layer (2) comprises a LOW-E glass base layer (201), a first protective layer (202), an oxidation resistant layer (203), a metal silver layer (204), a second protective layer (205), an explosion-proof layer (206) and a wear-resistant layer (207) in sequence from indoor to outdoor.

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