CN207859645U - A kind of typhoon protection glass structure - Google Patents

Abstract

The utility model discloses a kind of typhoon protection glass structures, the support element of glass body, the heat insulator along the setting of glass body edge and support glass body, glass body includes first foundation layer, the second basal layer, it is hollow layer between first foundation layer and the second basal layer, the side of the nearly hollow layer of first foundation layer is equipped with the first antispray layer, side of the first foundation layer far from hollow layer is equipped with the first protecting against shock layer, the side of the nearly hollow layer of second basal layer is equipped with the second antispray layer, and side of second basal layer far from hollow layer is equipped with the second protecting against shock layer.The utility model, as protecting against shock layer, improves the Anti-Typhoon performance of typhoon protection glass using high strength glass, and is designed with antispray layer in parent glass layer, even if glass breakage, is also possible to prevent splashing glass, reduces the impaired rear secondary injury of typhoon glass.

Description

A kind of typhoon protection glass structure

Technical field

The utility model is related to glass art, especially a kind of typhoon protection glass structure.

Background technology

Vacuum glass is a kind of widely used glass product, can be applicable to building, automobile, furnishing fields, is a kind of excellent Good heat-barrier material.Common vacuum glass is to be sealed two panels plate glass surrounding, is then taken out between two sheet glass true Sky can will be preferably minimized through the above way by vacuum glass heat transfer, convection current, radiation mode dispersed heat, still, In actual application, the sealing station of this vacuum glass surrounding edge is easy heat losses, reduces vacuum glass Heat insulation, and vacuum glass deals with easy gas leakage improperly, loses vacuum heat-insulation effect.

In typhoon region, the glass of glass exterior window, curtain wall and design of glass lighting roof by the splashing that after typhoon, can explode, It can not only influence to build firmness, and be likely to result in multiple infringement, the safety of life and property of the people is endangered in eye.

Utility model content

The technical problem to be solved by the present invention is to provide a kind of typhoon protection glass structure, which is not only able to meet Traditional hollow glass low heat conductivity performance, and intensity is high, prevents from splashing, anti-typhoon capacity is strong.

In order to solve the above-mentioned technical problem, the utility model provides a kind of typhoon protection glass structure, glass body, along glass The heat insulator of glass body edges setting and the support element of the support glass body, the glass body includes first foundation Layer, the second basal layer, are hollow layer between the first foundation layer and the second basal layer, and the first foundation layer is close described hollow The side of layer is equipped with the first antispray layer, and the side of the first foundation layer far from the hollow layer is equipped with the first protecting against shock layer, institute State the closely described hollow layer of the second basal layer side be equipped with the second antispray layer, second basal layer far from the hollow layer one Side is equipped with the second protecting against shock layer.

Preferably, first antispray layer is equipped with film layer close to the side of the hollow layer.

Preferably, the film layer is that film layer is isolated in infrared ray, and the thickness of the film layer is the first foundation layer 1/50th~a thirtieth.

Preferably, second antispray layer is equipped with film plating layer close to the side of the hollow layer.

Preferably, the film plating layer is visible optical confinement layer, and the thickness of the film plating layer is the five of second basal layer 1/10th~a thirtieth.

Preferably, the thickness of the first foundation layer and the second basal layer is identical, and the thickness of the hollow layer is more than described The thickness of first foundation layer half, and less than the half of the sum of the first foundation layer and the second base layer thickness.

Preferably, the heat insulator is equipped with the first bound edge for extending into the first protecting against shock layer, first bound edge Width is 1-5mm, and the surface of first bound edge is pasted to by adhesive-layer on the first protecting against shock layer.

Preferably, the heat insulator is equipped with the second bound edge for extending into the second protecting against shock layer, second bound edge Width is 1-5mm, and the surface of second bound edge is pasted to by adhesive-layer on the second protecting against shock layer.

Preferably, the support element is section material framework, is set on the end face that the section material framework is contacted with the glass body It is fluted.

The technique effect of the utility model：

1, the utility model improves the Anti-Typhoon performance of typhoon protection glass using high strength glass as protecting against shock layer, and And it is designed with antispray layer in parent glass layer, even if glass breakage, it is also possible to prevent splashing glass, it is impaired to reduce typhoon glass Secondary injury afterwards, support element there is stronger supporting role, glass to have slight crack, can also stay in the groove of support element glass, Meet the use of typhoon environment.

2, the structure of the utility model has work(that is heat-insulated, reducing heat transfer in such a way that plated film and film are combined Can, the energy is saved, and edge is equipped with heat insulator, reduces heat loss.

3, film layer is that film layer is isolated in infrared ray, and the thickness of film layer is 1/50th~the 30 of the first base glass layer / mono-, the thickness of film layer can either meet the needs of infrared ray isolation, and will not be because of the blocked up increasing process costs of thickness.

4, film plating layer is visible optical confinement layer, the thickness of film plating layer be the second base glass layer 1/50th~30/ One, the thickness of film plating layer can either meet visible optically isolated isolation requirement, and will not be because of the blocked up increasing process costs of thickness.

5, the utility model heat insulator forms the warming edge in outside, avoids hollow glass hollow layer and conducts heat outward, It can ensure the vacuum degree of hollow cavity for a long time, reduce heat losses, improve the heat insulation of hollow glass.

6, the utility model has the first bound edge and the second bound edge respectively on the first protecting against shock layer and the second protecting against shock layer, the One bound edge and the second bound edge can ensure the heat preservation and insulation of the first protecting against shock layer and the second protecting against shock layer, reduce heat transfer.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Figure label explanation：

1- first foundation layers, the second basal layers of 2-, 3- hollow layers, 4- the first protecting against shock layers, 5- the second protecting against shock layers, 6- One antispray layer, the second antispray layers of 7-, 8- film layers, 9- film plating layers, 10- heat insulators, the first bound edges of 101-, the second bound edges of 102-, 103- adhesive-layers, 11- support elements, 110- grooves.

Specific implementation mode

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model may be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

Embodiment

One embodiment of the typhoon protection glass of the utility model, primary structure as shown in Figure 1, glass body, along glass sheet The heat insulator 10 of body edge setting and the support element 11 of the above-mentioned glass body of support, above-mentioned glass body includes first foundation The 1, second basal layer 2 of layer is hollow layer 3 between 1 and second basal layer 2 of above-mentioned first foundation layer, on above-mentioned first foundation layer 1 is close The side for stating hollow layer 3 is equipped with the first antispray layer 6, and it is anti-that 1 side far from above-mentioned hollow layer 3 of above-mentioned first foundation layer is equipped with first The side of shock ply 4, the closely above-mentioned hollow layer 3 of above-mentioned second basal layer 2 is equipped with the second antispray layer 7, and above-mentioned second basal layer 2 is separate The side of above-mentioned hollow layer is equipped with the second protecting against shock layer 5.

Above-mentioned first antispray layer 6 close to the side of above-mentioned hollow layer be equipped with film layer 8, above-mentioned film layer 8 be infrared ray every From film layer, the thickness of above-mentioned film layer 8 is 1/50th~a thirtieth of above-mentioned first foundation layer.Film layer 8 Thickness can either meet the needs of infrared ray isolation, and will not be because of the blocked up increasing process costs of thickness.

Above-mentioned second antispray layer 7 is equipped with film plating layer 9 close to the side of above-mentioned hollow layer.Above-mentioned film plating layer 9 be visible light every Absciss layer, the thickness of above-mentioned film plating layer 9 are 1/50th~a thirtieth of above-mentioned second basal layer.The thickness of film plating layer was both It disclosure satisfy that visible optically isolated isolation requirement, and will not be because of the blocked up increasing process costs of thickness.

Above-mentioned first foundation layer 1 is identical with the thickness of the second basal layer 2, and the thickness of above-mentioned hollow layer 3 is more than above-mentioned first The thickness of 1 half of basal layer, and less than the half of the sum of above-mentioned 1 and second basal layer of first foundation layer, 2 thickness.

Above-mentioned heat insulator 10 is equipped with the first bound edge 101 for extending into above-mentioned first protecting against shock layer 4, above-mentioned first bound edge 101 Width be 1-5mm, the surface of above-mentioned first bound edge 101 is pasted to by adhesive-layer 103 on above-mentioned first protecting against shock layer 4.

Above-mentioned heat insulator 10 is equipped with the second bound edge 102 for extending into above-mentioned second protecting against shock layer 5, above-mentioned second bound edge 10 Width is 1-5mm, and the surface of above-mentioned second bound edge is pasted to by adhesive-layer on above-mentioned second protecting against shock layer 5.

Heat insulator 10 forms the warming edge in outside, avoids the conduction heat outward of hollow glass hollow layer 3, can protect for a long time The vacuum degree of hollow cavity is demonstrate,proved, heat losses is reduced, improves the heat insulation of hollow glass.It is anti-in the first protecting against shock layer 4 and second There are the first bound edge 101 and the second bound edge 102, the first bound edge 101 and the second bound edge 102 that can ensure first on shock ply 5 respectively The heat preservation and insulation of protecting against shock layer 4 and the second protecting against shock layer 5 reduces heat transfer.

In the present embodiment, above-mentioned support element 11 is section material framework, and above-mentioned section material framework is contacted with above-mentioned glass body End face is equipped with groove 110.Support element 11 there is stronger supporting role, glass to have slight crack, can also stay in support element glass Groove 110 in, meet typhoon environment use.

Embodiment described above is only the preferred embodiment lifted to absolutely prove the utility model, the utility model Protection domain it is without being limited thereto.Those skilled in the art on the basis of the utility model made by equivalent substitute or change It changes, both is within the protection scope of the present invention.The scope of protection of the utility model is subject to claims.

Claims (9)

1. a kind of typhoon protection glass structure, which is characterized in that glass body, along glass body edge setting heat insulator and It includes first foundation layer, the second basal layer, the first foundation layer to support the support element of the glass body, the glass body And second be hollow layer between basal layer, the side of the closely described hollow layer of first foundation layer is equipped with the first antispray layer, described Side of the first foundation layer far from the hollow layer be equipped with the first protecting against shock layer, the one of the closely described hollow layer of the second basal layer Side is equipped with the second antispray layer, and the side of second basal layer far from the hollow layer is equipped with the second protecting against shock layer.

2. a kind of typhoon protection glass structure as described in claim 1, which is characterized in that first antispray layer is in described The side of dead level is equipped with film layer.

3. a kind of typhoon protection glass structure as claimed in claim 2, which is characterized in that the film layer is that infrared ray isolation applies Film layer, the thickness of the film layer are 1/50th~a thirtieth of the first foundation layer.

4. a kind of typhoon protection glass structure as described in claim 1, which is characterized in that second antispray layer is in described The side of dead level is equipped with film plating layer.

5. a kind of typhoon protection glass structure as claimed in claim 4, which is characterized in that the film plating layer is visible optically isolated Layer, the thickness of the film plating layer are 1/50th~a thirtieth of second basal layer.

6. typhoon protection glass structure as described in claim 1, which is characterized in that the first foundation layer and the second basal layer Thickness is identical, and the thickness of the hollow layer is more than the thickness of the first foundation layer half, and less than the first foundation layer and The half of the sum of second base layer thickness.

7. typhoon protection glass structure as described in claim 1, which is characterized in that the heat insulator is equipped with and extends into described first The width of first bound edge of basal layer, first bound edge is 1-5mm, and the surface of first bound edge is pasted to institute by adhesive-layer It states on first foundation layer.

8. typhoon protection glass structure as described in claim 1, which is characterized in that the heat insulator is equipped with and extends into described second The width of second bound edge of basal layer, second bound edge is 1-5mm, and the surface of second bound edge is pasted to institute by adhesive-layer It states on the second basal layer.

9. typhoon protection glass structure as described in claim 1, which is characterized in that the support element is section material framework, the type The end face that material frame is contacted with the glass body is equipped with groove.