CN203547419U - Novel security energy-saving hollow glass - Google Patents

Abstract

The utility model relates to novel security energy-saving hollow glass which sequentially comprises a first glass sheet and a second glass sheet from outside to inside in a parallel mode. A hollow cavity is formed between the first glass sheet and the second glass sheet through a closing spacer bar, two sides of the closing spacer bar are adhered to the first glass sheet and the second glass sheet through a sealant, the part at the outer side of the closing spacer bar and between the two glass sheets is filled with two sealants, a plurality of metal meshes with heights progressively decreased are parallelly and adjacently arranged in the hollow cavity from one side of the first glass sheet, the top end of each metal mesh is adhered to one fixing spacer bar through a sealant, and a sealant coats the other side of each fixing spacer bar and used for adhering the second glass sheet. The impact resistance of the glass can be improved, security effects are enhanced, and the hollow glass has an energy-saving function.

Description

A kind of novel security-monitoring energy-saving hollow glass

Technical field

The utility model glass processing technical field, is specifically related to a kind of novel security-monitoring energy-saving hollow glass.

Background technology

Along with the requirement of all many-sided performances such as the energy-saving and environmental protection of current building to glass, sound insulation is more and more higher, the novel glass kind that possesses several functions is also more and more abundanter.Hollow glass is because its good insulation, energy-conservation, soundproof effect are widely used.But when outdoor glass runs into the impact of rammer, be easy to cause whole glass breakings, and fragment flies out and easily causes indoor casualties.The common good glass of security protection effect is wire glass both at home and abroad at present, and it refers to and coordinates PVB or SGP to use method of laminating glass to be clipped in the middle of two sheet glass or a kind of safety glass that uses calendering technology to produce on iron wire or gauze wire cloth.Although wire glass can promote the shock resistance of glass, be difficult to coordinate the glass of other performances to use together, can not adapt to many-sided requirements such as the energy-saving effect of current building to glass, defening effect; In process of production, silk screen is easily oxidized by hyperthermia radiation, and yellow and the bubble that " rust staining " is the same likely appears in glass surface; This complex process, cost are high in addition, can not promote the use of on a large scale.

Summary of the invention

The utility model, for the problems referred to above, provides a kind of novel security-monitoring energy-saving hollow glass.

To achieve these goals, technical solution adopted in the utility model is: a kind of novel security-monitoring energy-saving hollow glass, by outdoor layer one sheet glass and layer two sheet glass that be arranged in parallel of comprising successively to indoor order, between described layer one sheet glass and layer two sheet glass, by one, close sheet spacer bar and form a hollow cavity, described both sides of closing sheet spacer bar are bonding with described layer one sheet glass and layer two sheet glass by one fluid sealant, and described in close sheet spacer bar outside between two sheet glass, be filled with two road fluid sealants; In described hollow cavity, by layer one sheet glass one side, start the parallel adjacent wire lath that some height successively decrease that is provided with, the top of each described wire lath is all by one fluid sealant and a fixed intervals bar bonding, each described fixed intervals bar opposite side is also coated with fluid sealant one, for bonding with described layer two sheet glass.

Further, a kind of novel security-monitoring energy-saving hollow glass of the utility model can also comprise layer three sheet glass that be arranged in parallel with described layer one sheet glass and layer two sheet glass, between described layer three sheet glass and layer two sheet glass, also by one, close sheet spacer bar and form a hollow cavity, and these both sides of closing sheet spacer bar are also bonding with layer three sheet glass by one fluid sealant and described layer of two sheet glass, and this outside of closing sheet spacer bar is also filled with two road fluid sealants between layer two and 3 two sheet glass of layer.

Further, the number of the wire lath of described parallel adjacent setting is 1-3.

Wherein, in described hollow cavity, be that air, argon gas or Krypton are filled.

Wherein, any in described wire lath chosen from Fe silk screen, gauze wire cloth, stainless (steel) wire.

Wherein, described in, close sheet spacer bar and fixed intervals bar and be all selected from any in aluminum strip, stainless steel strip, warm edge strip.

Wherein, described one fluid sealant is hot melt butyl rubber, and described two road fluid sealants are structural silicone adhesive or poly-sulphur glue.

Further, described layer one sheet glass is selected from any in tempered glass, coated glass, described layer two sheet glass are selected from any in tempered glass, coated glass, float glass or laminated glass, any in described layer three sheet glass tempered glass, coated glass, float glass or laminated glass, the film plating layer of wherein said coated glass is adjacent with described hollow cavity.

Further, the film plating layer of described coated glass is LOW-E film or solar control film.

Further, the interlayer film in described laminated glass is PVB film (polyvinyl butyral film) or SGP film (Dupont

film).

Further, the difference in height on every adjacent two described wire lath tops equals the thickness of the fixed intervals bar bonding with wherein highly larger wire lath, for closing sheet spacer bar and fixed intervals bar continuously every adjacent setting between described layer one sheet glass and layer two sheet glass, and for Er road fluid sealant between described layer one sheet glass and layer two sheet glass, the thickness sum of closing sheet spacer bar and fixed intervals bar equals for Er road fluid sealant and the thickness sum of closing sheet spacer bar between described layer two sheet glass and layer three sheet glass, so that the height at two hollow cavity iuuminting positions is consistent.

The top of novel security-monitoring energy-saving hollow glass described in the utility model and bottom be for being arranged symmetrically with, described wire lath, close sheet spacer bar, fixed intervals bar, two road fluid sealants at the top of hollow glass and low side for being arranged symmetrically with.

The beneficial effects of the utility model have: 1) the utility model is placed in hollow structure inside by wire lath, and in dry sealing state, therefore wire lath is difficult for oxidizedly, causes the defects such as rust staining; 2) when being positioned at outdoor layer one sheet glass and being inwardly subject to clashing into, broken sheet glass is subject to stopping of wire lath, can not cause a large amount of sheet glass inwardly to splash; Simultaneously, wire lath can deform because being subject to external force in the position of hollow cavity, forms the radian to indoor bending, thereby reduces the inside impact force of foreign, reduce further destroyed possibility of inner layer glass, played good security protection effect; 3) by composite film coating glass, make the utility model have good energy-saving effect; 4) by composite intermediate layer glass, make the utility model have good anti-ultraviolet function; 5) the utility model adopts hollow structure, has splendid soundproof effect; 6)

Processing is simple, quick, and cost and energy consumption are low.

Accompanying drawing explanation

Fig. 1 is the utility model embodiment mono-structural representation.

Fig. 2 is the utility model embodiment bis-structural representations.

Fig. 3 is the utility model embodiment tri-structural representations.

Fig. 4 is the utility model embodiment tetra-structural representations.

In figure, 2 layer of two sheet glass of 1 layer of one sheet glass

3 hollow cavity 4 wire laths

5 close sheet spacer bar 6 fixed intervals bars

7 one fluid sealant 8 two road fluid sealant

9 layer of three sheet glass 10 interlayer film

11 film plating layers

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is made to brief description.

Embodiment mono-

A kind of novel security-monitoring energy-saving hollow glass as shown in Figure 1, by outdoor layer one sheet glass (1) and layer two sheet glass (2) that be arranged in parallel of comprising successively to indoor order, between described layer one sheet glass (1) and layer two sheet glass (2), by closing sheet spacer bar (5), form a hollow cavity (3), the both sides of closing sheet spacer bar (5) are bonding with described layer one sheet glass (1) and layer two sheet glass (2) by one fluid sealant (7), and described in close outside sheet spacer bar (5) and between two sheet glass, be filled with two road fluid sealants (8); In described hollow cavity (3), be provided with a wire lath identical with this hollow cavity area (4), described wire lath (4) top is slightly less than by specification the fixed intervals bar (6) that closes sheet spacer bar (5) and is fixed on described layer one sheet glass (1) one side, the both sides of described fixed intervals bar (6) are also coated with one fluid sealant (7), for bonding with described wire lath (4) and described layer two sheet glass (2) respectively.

The present embodiment middle level one sheet glass (1) adopts 12mm simple glass; Layer two sheet glass (2) adopt 8mm coated glass, and described in this, layer two sheet glass (2) side adjacent with hollow cavity (3) is coated with film plating layer (11), and in the present embodiment, this film plating layer (11) is LOW-E film; Close sheet spacer bar (5) and fixed intervals bar (6) and adopt stainless steel strip, width is respectively 12mm and 9mm; Wire lath in the present embodiment (4) is stainless (steel) wire; One fluid sealant (7) He Er road fluid sealant (8) is respectively hot melt butyl rubber and structural silicone adhesive.

Embodiment bis-

As shown in Figure 2, on the basis of embodiment mono-, in hollow cavity (3), set up a wire lath, the fixed intervals bar that the described wire lath top that this is set up is 6mm by a width is fixed.

Embodiment tri-

Another embodiment of the present utility model as shown in Figure 3, on the double-decker basis of layer one sheet glass and layer two sheet glass, also comprise layer three sheet glass (9) that be arranged in parallel with described layer one sheet glass (1) and layer two sheet glass (2), between these layer three sheet glass (9) and layer two sheet glass (2), also by closing sheet spacer bar (5), form a hollow cavity (3).

The present embodiment middle level one sheet glass (1) adopts 10mm tempered glass; Layer two sheet glass (2) adopt 8mm coated glass, and described in this, the film plating layer (11) of layer two sheet glass (2) is with to be positioned at hollow cavity (3) between layer three sheet glass (9) and layer two sheet glass (2) adjacent, and in the present embodiment, this film plating layer (11) is solar control film; Layer three sheet glass (9) adopt laminated glass, and two sheet thickness of this laminated glass are 6mm, and described in this, interlayer film (10) in layer three sheet glass (9) is PVB film; Be positioned at and close sheet spacer bar (5) and fixed intervals bar (6) continuously every adjacent setting between layer one sheet glass (1) and layer two sheet glass (2), close sheet spacer bar (5) and fixed intervals bar (6) width is respectively 12mm and 9mm, thickness is 5mm, and two kinds of spacer bars are all selected aluminum strip; Thickness for Er road fluid sealant (8) between described layer one sheet glass (1) and layer two sheet glass (2) is set to 5mm, thickness for Er road fluid sealant (8) between described layer two sheet glass (2) and layer three sheet glass (9) is set to 10mm, so that hollow cavity one is consistent with the height at hollow cavity two iuuminting positions.

In addition, in embodiment tri-, the thickness of interlayer film (10) is preferably 0.38mm-3.04mm.

Embodiment tetra-

As shown in Figure 4, on the basis of embodiment tri-, in hollow cavity (3), set up a wire lath, the described wire lath top that this is set up is respectively 6mm by a width and thickness and 5mm fixed intervals bar is fixed.In addition, in the present embodiment, for the thickness of Er road fluid sealant (8) between described layer one sheet glass (1) and layer two sheet glass (2), be still 5mm, and be set to 15mm for the thickness of Er road fluid sealant (8) between described layer two sheet glass (2) and layer three sheet glass (9), so that hollow cavity one is consistent with the height at hollow cavity two iuuminting positions.

Above instantiation of the present utility model is had been described in detail, but described content is only preferred embodiment of the present utility model, can not be considered to for limiting practical range of the present utility model.All equalization variations of doing according to the utility model application range and improvement etc., within all should still belonging to patent covering scope of the present utility model.

Claims (10)

1. a novel security-monitoring energy-saving hollow glass, by outdoor layer one sheet glass and layer two sheet glass that be arranged in parallel of comprising successively to indoor order, between described layer one sheet glass and layer two sheet glass, by one, close sheet spacer bar and form a hollow cavity, described both sides of closing sheet spacer bar are bonding with described layer one sheet glass and layer two sheet glass by one fluid sealant, and described in close sheet spacer bar outside between two sheet glass, be filled with two road fluid sealants; In described hollow cavity, by layer one sheet glass one side, start the parallel adjacent wire lath that some height successively decrease that is provided with, the top of each described wire lath is all by one fluid sealant and a fixed intervals bar bonding, each described fixed intervals bar opposite side is also coated with fluid sealant one, for bonding with described layer two sheet glass.

2. the novel security-monitoring energy-saving hollow glass of one according to claim 1, it is characterized in that: also comprise layer three sheet glass that be arranged in parallel with described layer one sheet glass and layer two sheet glass, between described layer three sheet glass and layer two sheet glass, also by one, close sheet spacer bar and form a hollow cavity, and the described both sides that this closes sheet spacer bar are also bonding with layer three sheet glass by one fluid sealant and described layer of two sheet glass, and the described outside that this closes sheet spacer bar is also filled with two road fluid sealants between layer two and 3 two sheet glass of layer.

3. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, is characterized in that: the number of the wire lath of described parallel adjacent setting is 1-3.

4. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, is characterized in that: in described hollow cavity, be air, argon gas or Krypton filling.

5. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, is characterized in that: any in described wire lath chosen from Fe silk screen, gauze wire cloth, stainless (steel) wire.

6. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, is characterized in that: described in close sheet spacer bar and fixed intervals bar and be all selected from any in aluminum strip, stainless steel strip, warm edge strip.

7. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, is characterized in that: described one fluid sealant is hot melt butyl rubber, and described two road fluid sealants are structural silicone adhesive or poly-sulphur glue.

8. the novel security-monitoring energy-saving hollow glass of one according to claim 1 and 2, it is characterized in that: described layer one sheet glass is selected from any in tempered glass, coated glass, described layer two sheet glass are selected from any in tempered glass, coated glass, float glass or laminated glass, any in described layer three sheet glass tempered glass, coated glass, float glass or laminated glass, the film plating layer of wherein said coated glass is adjacent with described hollow cavity.Preferably, the film plating layer of described coated glass is LOW-E film or solar control film.

9. the novel security-monitoring energy-saving hollow glass of one according to claim 8, is characterized in that: the interlayer film in described laminated glass is PVB film or SGP film.

10. the novel security-monitoring energy-saving hollow glass of one according to claim 2, it is characterized in that: the difference in height on every adjacent two described wire lath tops equals the thickness of the fixed intervals bar bonding with wherein highly larger wire lath, for closing sheet spacer bar and fixed intervals bar continuously every adjacent setting between described layer one sheet glass and layer two sheet glass, and for Er road fluid sealant between described layer one sheet glass and layer two sheet glass, the thickness sum of closing sheet spacer bar and fixed intervals bar equals for Er road fluid sealant and the thickness sum of closing sheet spacer bar between described layer two sheet glass and layer three sheet glass, so that the height at two hollow cavity iuuminting positions is consistent.

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