CN103410414A - Hollow glass of bulletproof energy-saving door and window - Google Patents

Abstract

The invention relates to the field of energy-saving doors and windows, in particular to hollow glass of a bulletproof energy-saving door and window. The hollow glass of the bulletproof energy-saving door and window is formed by two or three glass layers with the clamped interlayer, the thickness of the hollow glass is 24-40mm, moreover, ultra-thin bulletproof glass is adopted at least as the outermost glass layer, the ultra-thin bulletproof glass is formed by bonding a plurality of layers of glass mutually, the overall thickness of the ultra-thin bulletproof glass is 11-17mm, the glass comprises 4-5 layers, from exterior to interior, the thickness of the outer layer is 5-6mm, the thickness of each of the inner layers is 2-4mm, and the whole glass surfaces of all the layers of glass are mutually bonded by arranging adhesive layers. According to the hollow glass of the bulletproof energy-saving door and window, the thickness of the bulletproof glass is greatly reduced, an explosion-proof film does not need to be pasted to the hollow glass, and after the hollow glass is impacted, all the splinters are stopped by the second layer of glass to fall into a hollow cavity.

Description

A kind of hollow glass of shellproof energy saving door and window

Technical field

The present invention relates to the energy saving door and window field, relate in particular to a kind of hollow glass of shellproof energy saving door and window.

Background technology

To the energy saving door and window field, it is 21mm ± 1mm that existing civilian bulletproof glass configuration is generally the 5mm+0.76mm+10mm+0.76mm+5mm gross thickness, this bulletproof glass adopts thickness of glass and common PVB film buffering to keep out the bullet impact, due to what adopt, be that the bulletproof glass of individual layer also needs to paste the injury that rupture pressure disc prevents that bullet impulse chamber inner glass from splashing and causing, pad pasting brings certain puzzlement to glass clean, and (film hardness does not have glass strong, than the easy scuffing of glass), moreover rete foaming phenomenon easily appears in long direct irradiation through sunlight of time one.Summer Indoor and outdoor excessive temperature differentials, owing in the middle of this bulletproof glass, lacking the adjustment layer, can cause the phenomenon of glass autoclasis to occur.The weight of this kind of glass and thickness have larger limitation and unworthiness to weighing load and the section bar of ORIENTED DOOR AND WINDOW DESIGN.This bulletproof glass can only adopt monolithic to use in most cases, thus the particularly outstanding waste that causes the energy of its heat transfer performance.

Summary of the invention

In order to solve above-mentioned technical problem, an object of the present invention is to provide a kind of hollow glass of shellproof energy saving door and window, bulletproof glass of the present invention has reduced the thickness of glass greatly, hollow glass is without pasting rupture pressure disc, and all splashes are all stopped and fall in cavity by second layer glass after being impacted.

In order to realize above-mentioned purpose, the present invention has adopted following technical scheme:

A kind of hollow glass of shellproof energy saving door and window, this hollow glass consists of bilayer or triplex glass layer folder hollow layer, the thickness of hollow glass is 24 ~ 40mm, and the outermost layer glassy layer adopts ultra-thin bulletproof glass at least, described ultra-thin bulletproof glass forms by compound glass is mutually bonding, the integral thickness of ultra-thin bulletproof glass is 11 ~ 17mm, the number of plies of glass is 4 ~ 5 layers, from outside to inside, outer field thickness is 5 ~ 6mm, the thickness of each layer of nexine is 2 ~ 4mm, by adhesive layer is set, mutually bonds between the whole glass surface of each layer glass.

As preferably, this hollow glass is two-layer, and in the layer glass layer, outside glass adopts ultra-thin bulletproof glass, and inner glass adopts monolithic glass.

As preferably, the number of plies of the glass of described ultra-thin bulletproof glass is 4 layers, and the thickness of each layer glass is followed successively by from outside to inside: 6mm, 2mm, 2mm, 2mm.

As preferably, the number of plies of the glass of described ultra-thin bulletproof glass is 4 layers, and the thickness of each layer glass is followed successively by from outside to inside: 5mm, 4mm, 3mm, 3mm.

As preferably, the number of plies of the glass of described ultra-thin bulletproof glass is 5 layers, and the thickness of each layer glass is followed successively by from outside to inside: 5mm, 3mm, 2mm, 2mm, 2mm.

As preferably, the material of described ultra-thin bulletproof glass adhesive layer adopts DG bonding adhesive, PVB bonding adhesive, EVA bonding adhesive, SGP bonding adhesive, TPU bonding adhesive, SGP bonding adhesive or TPU bonding adhesive.

As preferably, the material of described ultra-thin bulletproof glass compound glass adopts float glass or tempered glass.

As preferably, described ultra-thin bulletproof glass hollow glass, can match and adopt Low-E glass, and the installation site of low-e film is according to regional different demands and difference.

The ultra-thin bulletproof glass of the present invention be take emphatically the toughness of bonding glass layer material and is breach, do not adopt thickness of glass and density to stop, but adopting the bonding adhesive layer toughness of utilizing of compound glass to carry out the multilayer buffering to the bullet impact force, multilayer barrier is realized shellproof purpose.After the hollow glass finished product, thickness is between 22mm ± 1mm to 39mm ± 1mm, and glass is without pasting rupture pressure disc, and after being impacted, all splashes are all stopped and fall in cavity by second layer glass.

The present invention is owing to having adopted above-mentioned technical scheme, and described hollow glass finished product has following characteristics:

1, the heat conductivity of glass is controlled, the U value of hollow glass finished product is the 20%-30% of normal domestic bulletproof glass, energy conservation;

2, to the own wt of glass, the weight of hollow glass finished product is 65% of normal domestic bulletproof glass, can more convenient ORIENTED DOOR AND WINDOW DESIGN;

3, glass is without splash in the bullet impulse chamber, safer;

4, glass is without pasting rupture pressure disc, and easy cleaning is more convenient;

5, glass has hollow layer to regulate the temperature difference, prevents the excessive glass autoclasis of internal-external temperature difference;

6, apolegamy LOW-E glass prevents that ultraviolet ray from seeing through, and the ultraviolet reflection of LOW-E glass is 99.99%, prevents that indoor furniture from fading.

The accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention 1.

Fig. 2 is the structural representation of the embodiment of the present invention 2.

Fig. 3 is the structural representation of the embodiment of the present invention 3.

Fig. 4 is structural representation of the present invention.

Fig. 5 is use status architecture schematic diagram of the present invention.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is made a detailed explanation.

Embodiment 1

A kind of ultra-thin bulletproof glass as shown in Figure 1, this ultra-thin bulletproof glass forms by compound glass is mutually bonding, the integral thickness of described ultra-thin bulletproof glass is 12 ± 1mm, and the number of plies of glass is 4 layers, and the material of four-layer glass 1,2,3,4 all adopts Low-E glass.The thickness of each layer glass is followed successively by from outside to inside: 6mm, 2mm, 2mm, 2mm.Between the whole glass surface of each layer glass, by being set, DG-2 bonding adhesive 5 mutually bonds.

Embodiment 2

A kind of ultra-thin bulletproof glass as shown in Figure 2, this ultra-thin bulletproof glass forms by compound glass is mutually bonding, the integral thickness of described ultra-thin bulletproof glass is 15 ± 1mm, and the number of plies of glass is 4 layers, and the material of four-layer glass 1,2,3,4 all adopts Low-E glass.The thickness of each layer glass is followed successively by from outside to inside: 5mm, 4mm, 3mm, 3mm.Between the whole glass surface of each layer glass, by being set, DG-2 bonding adhesive 5 mutually bonds.

Embodiment 3

A kind of ultra-thin bulletproof glass as shown in Figure 3, this ultra-thin bulletproof glass forms by compound glass is mutually bonding, the integral thickness of described ultra-thin bulletproof glass is 15 ± 1mm, and the number of plies of glass is 5 layers, and the material of 5 layers of glass 1,2,3,4,6 all adopts Low-E glass.The thickness of each layer glass is followed successively by from outside to inside: 5mm, 3mm, 2mm, 2mm, 2mm.Between the whole glass surface of each layer glass, by being set, PVB bonding adhesive 7 mutually bonds.

Embodiment 4

The hollow glass of a kind of shellproof energy saving door and window as shown in Figure 4, this hollow glass 11 consists of double-layer glass layer 13 folder hollow layer 14, and the thickness of hollow glass 11 is between 22mm ± 1mm to 39mm ± 1mm.Layer glass layer 13 all adopts described ultra-thin bulletproof glass, the employing embodiment 1 of described ultra-thin bulletproof glass or 2 or 3 described ultra-thin bulletproof glasses.

Embodiment 5

A kind of shellproof energy saving door and window as shown in Figure 5, this energy saving door and window comprises window frame 8, sash 9, line ball 10 and hollow glass 11, hollow glass 11 is fixedly installed between sash 9 and line ball 10 by sealing joint strip 12 or gluing, and described hollow glass 11 adopts the described hollow glass 11 of embodiment 4.

Claims (8)

1. the hollow glass of a shellproof energy saving door and window, this hollow glass consists of bilayer or triplex glass layer folder hollow layer, it is characterized in that: the thickness of this hollow glass is 24 ~ 40mm, and the outermost layer glassy layer adopts ultra-thin bulletproof glass at least, described ultra-thin bulletproof glass forms by compound glass is mutually bonding, the integral thickness of ultra-thin bulletproof glass is 11 ~ 17mm, the number of plies of glass is 4 ~ 5 layers, from outside to inside, outer field thickness is 5 ~ 6mm, the thickness of each layer of nexine is 2 ~ 4mm, by adhesive layer is set, mutually bonds between the whole glass surface of each layer glass.

2. the hollow glass of a kind of shellproof energy saving door and window according to claim 1, it is characterized in that: this hollow glass is two-layer, and in the layer glass layer, outside glass adopts ultra-thin bulletproof glass, and inner glass adopts monolithic glass.

3. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2, it is characterized in that: the number of plies of the glass of ultra-thin bulletproof glass is 4 layers, and the thickness of each layer glass is followed successively by from outside to inside: 6mm, 2mm, 2mm, 2mm.

4. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2, it is characterized in that: the number of plies of the glass of ultra-thin bulletproof glass is 4 layers, and the thickness of each layer glass is followed successively by from outside to inside: 5mm, 4mm, 3mm, 3mm.

5. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2, it is characterized in that: the number of plies of the glass of ultra-thin bulletproof glass is 5 layers, and the thickness of each layer glass is followed successively by from outside to inside: 5mm, 3mm, 2mm, 2mm, 2mm.

6. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2, is characterized in that: adhesive layer employing DG bonding adhesive, PVB bonding adhesive, EVA bonding adhesive, SGP bonding adhesive, TPU bonding adhesive, SGP bonding adhesive or TPU bonding adhesive.

7. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2, is characterized in that: material employing float glass or the tempered glass of the compound glass of ultra-thin bulletproof glass.

8. the hollow glass of a kind of shellproof energy saving door and window according to claim 1 and 2 is characterized in that: this hollow glass can be matched and adopt Low-E glass, and the installation site of low-e film is according to regional different demands and difference.

Images