CN103204623A - Energy-saving, safe and vacuum glass and processing technology - Google Patents
Energy-saving, safe and vacuum glass and processing technology Download PDFInfo
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- CN103204623A CN103204623A CN2013101301251A CN201310130125A CN103204623A CN 103204623 A CN103204623 A CN 103204623A CN 2013101301251 A CN2013101301251 A CN 2013101301251A CN 201310130125 A CN201310130125 A CN 201310130125A CN 103204623 A CN103204623 A CN 103204623A
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Abstract
The invention belongs to the technical field of vacuum glass and in particular relates to energy-saving, safe and vacuum glass and a processing technology. The energy-saving, safe and vacuum glass disclosed by the invention comprises a first board and a second board located on two surfaces of the vacuum glass and connected with each other, support objects arranged between the first board and the second board, a vacuum layer formed between the first board and the second board, a seal soldering flux layer filled around the vacuum layer and an air exhausting opening communicated with the vacuum layer. The energy-saving, safe and vacuum glass disclosed by the invention is characterized in that at least one of the first board and the second board is a clamping glue Low-E glass layer or a clamping glue solar control film glass layer. By adopting the energy-saving, safe and vacuum glass disclosed by the invention, the glass surface is relatively smooth and beautiful. By adopting a structure with double board or single board clamping glue and the Low-E film layer/solar control film in the vacuum glass, the clamping glue, the Low-E glass/solar control film and the vacuum glass are combined together and the good thermal property and optical property of the low-radiation glass and the solar control film or excellent tenacity and strong cohesive force of the clamping glue glass are synthesized, so that the vacuum glass disclosed by the invention becomes the environment-friendly, energy-saving and safe vacuum glass.
Description
Technical field
The invention belongs to the vacuum glass technical field, be specifically related to a kind of energy-saving safety vacuum glass and complete processing.
Background technology
The basic structure of traditional vacuum glass is with around the sealing of low melting point braze by two ordinary plate glass, the gap of 0.1-0.2mm is evacuated between two glass, eliminate gas heat-transfer and transaudient effect, become the product of heat-and sound-insulating excellent performance, but this structure and dangerous.
Structure referring to disclosed existing vacuum glass among Fig. 1, combine by special weldering fiber material around leaving vacuum gap layer 10, two sheet glass that a bleeding point, layer glass intermediary matrix Boulez upholder 6, layer glass enclose therein on the glass coating.When vacuum glass is used for the glass of building curtain wall, can not tempering because form the plate face of vacuum glass, cause this traditional vacuum glass to have great potential safety hazard as building curtain wall, because the unexpected vacuum tightness that makes vacuum layer descends or when disappearing, feasible barometric point minimizing or the disappearance that is added in inner layer glass n and the glass outer m of vacuum layer both sides, only depend on the sealing of low melting point braze between therefore inside and outside layer glass, intensity is lower, and glass outer cracking easily drops.Present curtain wall for building is plated film Low-e(low emissivity glass) glass, because coated glass all presents certain color, if use ordinary plate glass to cause this building and building on every side to seem incompatible with.The thermal characteristics of ordinary plate glass or doubling vacuum glass and optical property are not so good as Low-E glass simultaneously, and not enough environmental protection and energy saving.
Summary of the invention
Technical purpose of the present invention is to overcome the problems of the prior art, a kind of thermal characteristics and optical property of making simple, energy-saving safety, tool excellence is provided, makes on glass, lower surface more level and smooth energy-saving safety vacuum glass and complete processing attractive in appearance.
For realizing purpose of the present invention, the technical solution used in the present invention is: the energy-saving safety vacuum glass, the first plate face and the second plate face that comprises on the vacuum glass two sides and mutually link, be formed at vacuum layer between the first plate face and the second plate face, be communicated with the bleeding point of vacuum layer, it is characterized in that: the described first plate face and the second plate face have at least one to be doubling Low-E glass coating or doubling solar control film glass coating.
Aforesaid energy-saving safety vacuum glass, described doubling Low-E glass coating and doubling solar control film glass coating comprise at least two sheet glass substrates that are superimposed with each other, be positioned at Low-E rete between glass substrate or solar control film, film layers.
Aforesaid energy-saving safety vacuum glass, the described first plate face and the second plate face cave inward at the middle discontinuity surface of glass sides respectively and form half bleeding point, and half bleeding point of two plate faces closes up and is whole bleeding point.
Also be provided with the low melting glass brazing material layer around the aforesaid energy-saving safety vacuum glass, described bleeding point; Sealing is arranged at glass sides after the bleeding point exhaust.
Aforesaid energy-saving safety vacuum glass, the described first plate face and the second plate face are doubling Low-E glass coating or doubling solar control film glass coating; Perhaps a plate face is doubling Low-E glass coating or doubling solar control film glass coating, and another plate face is doubling glass layer or sheet glass layer.
Aforesaid energy-saving safety vacuum glass, described film layers is made of one or more layers PVB intermediate coat.
Aforesaid energy-saving safety vacuum glass, described upholder is arranged between the first plate face and the second plate face with the regular geometric array way.
The complete processing of aforesaid energy-saving safety vacuum glass, it is characterized in that, vacuum glass is linked by the first plate face and the second plate face, at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face and the second plate face, the concrete procedure of processing of this plate face is: be made up of at least two sheet glass substrates, plate Low-E rete or solar control film therein on a slice glass substrate earlier, the film layers by the centre connects to integral body with some glass substrates again.
The complete processing of aforesaid energy-saving safety vacuum glass is characterized in that, procedure of processing is as follows:
1) at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face and the second plate face;
2) the middle discontinuity surface at the first plate face and the second plate face sidepiece surrounds out bleeding point, is sealed by the low melting glass braze after the exhaust Glass tubing that the bleeding point place arranges is finished exhaust;
3) link the first plate face and the second plate face to form the energy-saving safety vacuum glass by the seal brazer layer.
The present invention is arranged at glass sides (but not upper and lower surface) with the vacuum glass bleeding point, makes glass surface not be subjected to the influence of bleeding point and seal process thereof, and glass surface is more smoothly attractive in appearance; Vacuum glass can adopt two plate face or veneer face doublings and add Low-E film layer structure or solar control film, with doubling, Low-E glass/solar control film, vacuum glass triplicity, combine excellent toughness and the strong cohesive force of the good thermal characteristics of low emissivity glass/solar control film and optical property and doubling glass, make it to become not only environmental protection and energy saving but also safe vacuum glass.Respectively form bleeding point half at the first plate face and the second plate face, obtain whole bleeding point after closing up, the first plate face and the second plate face structure can be similar, can realize making in enormous quantities and easy to assembly.Also can adopt veneer face doubling and add Low-E film layer structure/solar control film, another plate face adopts doubling glass or ordinary plate glass, designs flexible and varied.
Description of drawings
Fig. 1 is the structural representation of existing vacuum glass;
Fig. 2 is the structural representation of existing vacuum doubling glass;
Fig. 3 is the structure iron of existing vacuum doubling glass;
Fig. 4 is energy-saving safety vacuum glass one example structure figure of the present invention;
Fig. 5 is another example structure of energy-saving safety vacuum glass figure of the present invention;
Wherein, 2 bleeding points, 2 ' exhaust Glass tubing, 3 film layers, 3 ' film layers, 4 glass outer layer, 4 ' glass outer layer, 5 glass internal layers, 5 glass internal layers ', 6 upholders, 7 seal brazer layers, 8 low melting glass brazing material layers, 9Low-E rete or solar control film, 9 ' Low-E rete or solar control film, 10 vacuum layer.
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Embodiment
For technical scheme, technical characterictic that the present invention is realized, reach purpose and effect is easy to understand, below in conjunction with embodiment, further set forth the present invention.
Fig. 1 is the structure of existing vacuum glass openly, forms vacuum layer 10 between inner layer glass n and the glass outer m, and vacuum layer 10 also is provided with upholder 6 by 7 sealing of seal brazer layer between the internal and external layers of glass.Fig. 2 is the structure of existing vacuum doubling glass openly, is provided with film layers 3, and h1, h2 refer to inner layer glass and glass outer height.H refers to one deck thickness of glass among Fig. 3, and d refers to film layers 3 thickness.
According to Fig. 4-Fig. 5 preferred implementation of the present invention is described below.
The energy-saving safety vacuum glass, comprise being positioned at vacuum glass two sides and the first plate face A that mutually links and the second plate face A ', being arranged in upholder 6 between the first plate face A and the second plate face A ', being formed at vacuum layer between the first plate face A and the second plate face A ', being filled in seal brazer layer 7 around the vacuum layer, being communicated with the bleeding point 2 of vacuum layer with the regular geometric array way that it is characterized in that: the described first plate face A and the second plate face A ' have at least one to be doubling Low-E glass coating or doubling solar control film glass coating.Doubling Low-E glass coating and doubling solar control film glass coating comprise at least two sheet glass substrates that are superimposed with each other, are positioned at Low-E rete or solar control film (9,9 ') and film layers (3,3 ') between glass substrate.The PVB intermediate coat doubling that film layers (3,3 ') is tough and tensile by one or more layers, cohesive force is strong constitutes, and makes through High Temperature High Pressure.
The first plate face A and the second plate face A ' close up and are whole bleeding point 2 at cave inward half bleeding point 2 of forming half bleeding point 2, two plate face of the middle discontinuity surface of glass sides respectively, bleeding point 2 be shaped as regular polygon.(be exhaust Glass tubing 2 ' on every side) also is provided with low melting glass brazing material layer 8 around the bleeding point 2, and sealing is arranged at glass sides after bleeding point 2 exhausts.
The complete processing of aforesaid energy-saving safety vacuum glass, it is characterized in that, vacuum glass is linked by the first plate face A and the second plate face A ', at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face A and the second plate face A ', the concrete procedure of processing of this plate face is: be made up of at least two sheet glass substrates, plate Low-E rete or solar control film (9 therein on a slice glass substrate earlier, 9 '), by middle film layers (3,3 ') all glass substrates are connected to integral body again.When glass substrate was two, the plate face was divided into glass outer layer (4,4 ') and glass internal layer (5,5 ').Whole procedure of processing is as follows:
1) at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face A and the second plate face A ';
2) the middle discontinuity surface at the first plate face A and the second plate face A ' sidepiece surrounds out bleeding point 2, and the exhaust Glass tubing 2 ' that bleeding point 2 places arrange is sealed by low melting glass brazing material layer 8 after finishing exhaust;
3) fill seal brazer layer 7 to link the first plate face A and the second plate face A ', to form the energy-saving safety vacuum glass.
As preferably, according to Fig. 5, the first plate face A and the second plate face A ' are doubling Low-E glass coating or doubling solar control film glass coating; The first plate face A is made up of glass substrate a, b, and the second plate face A ' is made up of glass substrate a ', b '; During making, earlier form vacuum glass by glass substrate b and b', Low-E rete or solar control film (9,9 ') sputter on a and a ', are closely linked b, b' respectively by film layers (3,3 ') with a, a '.
As preferably, according to Fig. 4, a plate face is doubling Low-E glass coating or doubling solar control film glass coating among the first plate face A and the second plate face A ', and another plate face is doubling glass layer or sheet glass layer.Other is the same for preparation technology.
The present invention is arranged at glass sides (but not upper and lower surface) with vacuum glass bleeding point 2, makes glass surface not be subjected to the influence of bleeding point 2 and seal process thereof, and glass surface is more smoothly attractive in appearance; Vacuum glass can adopt two plate face or veneer face doublings and add Low-E film layer structure/solar control film, with doubling, Low-E glass/solar control film, vacuum glass triplicity, combine excellent toughness and the strong cohesive force of the good thermal characteristics of low emissivity glass and solar control film and optical property and doubling glass, make it to become not only environmental protection and energy saving but also safe vacuum glass.Respectively form bleeding point 2 half at the first plate face A and the second plate face A ', obtain whole bleeding point 2, the first plate face A after closing up and the second plate face A ' structure can be similar, can realize in enormous quantities make and easy to assembly.Also can adopt veneer face doubling and add Low-E film layer structure/solar control film, another plate face adopts doubling glass or ordinary plate glass, designs flexible and varied.
More than show and described ultimate principle of the present invention, principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; that describes in above-described embodiment and the specification sheets just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.The claimed scope of the present invention is defined by appending claims and equivalent thereof.
Claims (9)
1. energy-saving safety vacuum glass, the first plate face and the second plate face that comprises on the vacuum glass two sides and mutually link, be formed at vacuum layer between the first plate face and the second plate face, be communicated with the bleeding point of vacuum layer, it is characterized in that: the described first plate face and the second plate face have at least one to be doubling Low-E glass coating or doubling solar control film glass coating.
2. energy-saving safety vacuum glass according to claim 1 is characterized in that: described doubling Low-E glass coating and doubling solar control film glass coating comprise at least two sheet glass substrates that are superimposed with each other, be positioned at Low-E rete between glass substrate or solar control film, film layers.
3. energy-saving safety vacuum glass according to claim 1 and 2, it is characterized in that: the described first plate face and the second plate face cave inward at the middle discontinuity surface of glass sides respectively and form half bleeding point, and half bleeding point of two plate faces closes up and is whole bleeding point.
4. energy-saving safety vacuum glass according to claim 3 is characterized in that: also be provided with the low melting glass brazing material layer around the described bleeding point; Sealing is arranged at glass sides after the bleeding point exhaust.
5. energy-saving safety vacuum glass according to claim 1, it is characterized in that: the described first plate face and the second plate face are doubling Low-E glass coating or doubling solar control film glass coating; Perhaps a plate face is doubling Low-E glass coating or doubling solar control film glass coating, and another plate face is doubling glass layer or sheet glass layer.
6. energy-saving safety vacuum glass according to claim 2, it is characterized in that: described film layers is made of one or more layers PVB intermediate coat.
7. energy-saving safety vacuum glass according to claim 1, it is characterized in that: described upholder is arranged between the first plate face and the second plate face with the regular geometric array way.
8. the complete processing of any described energy-saving safety vacuum glass of claim 1-7, it is characterized in that, vacuum glass is linked by the first plate face and the second plate face, at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face and the second plate face, the concrete procedure of processing of this plate face is: be made up of at least two sheet glass substrates, plate Low-E rete or solar control film therein on a slice glass substrate earlier, the film layers by the centre connects to integral body with some glass substrates again.
9. the complete processing of energy-saving safety vacuum glass according to claim 8 is characterized in that, procedure of processing is as follows:
1) at least one plate face is processed as doubling Low-E glass coating or doubling solar control film glass coating in the first plate face and the second plate face;
2) the middle discontinuity surface at the first plate face and the second plate face sidepiece surrounds out bleeding point, is sealed by the low melting glass braze after the exhaust Glass tubing that the bleeding point place arranges is finished exhaust;
3) link the first plate face and the second plate face to form the energy-saving safety vacuum glass by the seal brazer layer.
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CN2013101301251A CN103204623A (en) | 2013-04-15 | 2013-04-15 | Energy-saving, safe and vacuum glass and processing technology |
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CN2013101301251A CN103204623A (en) | 2013-04-15 | 2013-04-15 | Energy-saving, safe and vacuum glass and processing technology |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104341094A (en) * | 2014-10-31 | 2015-02-11 | 太阳真空玻璃有限公司 | Energy-saving sheet material and manufacturing method thereof |
CN104527302A (en) * | 2014-12-17 | 2015-04-22 | 江门市江海区金达玻璃文化有限公司 | Production method of double-layered vacuum glass handiwork with colored drawing |
CN110605885A (en) * | 2019-09-12 | 2019-12-24 | 惠州市凯博玻璃工程有限公司 | Laminated composite glass with multilayer structure |
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CN201626916U (en) * | 2010-03-03 | 2010-11-10 | 左树森 | Vacuum glass edge sealing structure |
CN102476925A (en) * | 2010-11-23 | 2012-05-30 | 东莞市银通玻璃有限公司 | Vacuum glass and its manufacturing method |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104341094A (en) * | 2014-10-31 | 2015-02-11 | 太阳真空玻璃有限公司 | Energy-saving sheet material and manufacturing method thereof |
CN104527302A (en) * | 2014-12-17 | 2015-04-22 | 江门市江海区金达玻璃文化有限公司 | Production method of double-layered vacuum glass handiwork with colored drawing |
CN110605885A (en) * | 2019-09-12 | 2019-12-24 | 惠州市凯博玻璃工程有限公司 | Laminated composite glass with multilayer structure |
CN110605885B (en) * | 2019-09-12 | 2022-03-25 | 惠州市凯博玻璃工程有限公司 | Laminated composite glass with multilayer structure |
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Application publication date: 20130717 |