CN217300338U - Low-carbon environment-friendly laminated hollow building glass - Google Patents
Low-carbon environment-friendly laminated hollow building glass Download PDFInfo
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- CN217300338U CN217300338U CN202220352271.3U CN202220352271U CN217300338U CN 217300338 U CN217300338 U CN 217300338U CN 202220352271 U CN202220352271 U CN 202220352271U CN 217300338 U CN217300338 U CN 217300338U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B80/00—Architectural or constructional elements improving the thermal performance of buildings
- Y02B80/22—Glazing, e.g. vaccum glazing
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Abstract
The utility model discloses a low carbon environmental protection doubling cavity building glass, including first basic unit glass and second basic unit glass, the transparent conductive film of one side fixedly connected with first zinc oxide of first basic unit glass, the transparent conductive film of one side fixedly connected with second zinc oxide of second basic unit glass is provided with hollow aluminium frame between first zinc oxide transparent conductive film and the transparent conductive film of second zinc oxide, and the intussuseption of hollow aluminium frame is filled with the drier layer, be provided with the sealed glue film between first zinc oxide transparent conductive film and the transparent conductive film of second zinc oxide, and one side of first basic unit glass is provided with first connection glue film. The utility model has the advantages that can increase the thickness when this cavity building glass moves, when using cavity building glass for a long time, ensure low carbon environmental protection cavity building glass's intensity to prevent that glass from receiving to strike and appearing damaged phenomenon, promoted cavity building glass's application effect.
Description
Technical Field
The utility model relates to a cavity building glass technical field especially relates to a low carbon environmental protection doubling cavity building glass.
Background
In order to meet the requirements of sustainable development and energy conservation and emission reduction of national economy, the energy conservation and emission reduction of buildings become important subjects of attention, and the buildings use glass to face new challenges, the hollow glass widely adopted in the current building market comprises hollow glass consisting of double-sided white glass, one-sided toughened glass, one-sided white glass or double-sided toughened glass, and the hollow glass has certain sound insulation and heat insulation effects but poor environmental protection, so that the low-carbon environment-friendly laminated hollow building glass is designed.
At present, most of the existing hollow building glass has the following defects: when using cavity building glass for a long time, because low carbon environmental protection cavity building glass's intensity is not good for when glass receives the impact, easily damaged influences cavity building glass's application, and to sum up, current cavity building glass still can not agree with the actual need well mostly.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the defects existing in the prior art and providing low-carbon environment-friendly laminated hollow building glass.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a low carbon environmental protection doubling cavity building glass, includes first basic unit glass and second basic unit glass, the transparent conductive film of one side fixedly connected with first zinc oxide of first basic unit glass, the transparent conductive film of one side fixedly connected with second zinc oxide of second basic unit glass is provided with hollow aluminum frame between first zinc oxide transparent conductive film and the transparent conductive film of second zinc oxide, and hollow aluminum frame intussuseption is filled with the drier layer, be provided with sealed glue film between first zinc oxide transparent conductive film and the transparent conductive film of second zinc oxide, and one side of first basic unit glass is provided with first connection glue film, and one side of first connection glue film is provided with first toughened glass, one side of second basic unit glass is provided with the second and connects the glue film, and one side of second connection glue film is provided with second toughened glass.
Furthermore, one side of the first toughened glass is fixedly connected with a heat insulation film.
Furthermore, one side of the second toughened glass is fixedly connected with a silicon nitride film.
Furthermore, the heat insulation film, the first toughened glass, the first connection glue layer, the first base glass, the first zinc oxide transparent conductive film, the second base glass, the second zinc oxide transparent conductive film, the second connection glue layer, the second toughened glass and the silicon nitride film are fixedly connected with sealing strips on multiple sides.
Furthermore, one side integrated into one piece of sealing strip has a plurality of lugs, and the lug scarf joint is at the multilateral outer wall of sealant layer.
Furthermore, the top end of the hollow aluminum frame is sealed and inserted with a vent pipe.
Furthermore, a sealing plug is inserted at the top end of the vent pipe in a sealing manner.
Furthermore, the multi-side outer wall of the sealing strip is provided with a fixing frame.
The utility model has the advantages that:
1. the utility model discloses, through the setting of first basic unit glass, second basic unit glass, first connection glue film, first toughened glass, second connection glue film and second toughened glass intercombination to increase the thickness when this cavity building glass moves, when using cavity building glass for a long time, ensure low carbon environmental protection cavity building glass's intensity, in order to prevent that glass from receiving the impact and appearing damaged phenomenon, promoted cavity building glass's application effect.
2. The utility model discloses, through the setting of silicon nitride film and thermal-insulated membrane, not only have thermal-insulated energy-conservation, ultraviolet resistance, safe explosion-proof effect, secondly, can also insulate against heat and separate light, simultaneously, the silicon nitride film still has super high hardness, fine high temperature stability and high temperature resistance oxidability have further increased building glass's intensity.
3. The utility model discloses, the mode that is connected through sealing strip, lug and sealing glue film to it is fixed to increase the connection of thermal-insulated membrane, first toughened glass, first connection glue film, first basic unit glass, the transparent conductive film of first zinc oxide, second basic unit glass, the transparent conductive film of second zinc oxide, second connection glue film, second toughened glass and silicon nitride film, avoids glass in use's fracture, guarantees its safety in utilization.
Drawings
FIG. 1 is a schematic view of a left side three-dimensional structure of a low-carbon environment-friendly laminated hollow building glass provided by the present invention;
FIG. 2 is an enlarged schematic structural view of the position A of the low-carbon environment-friendly laminated hollow building glass provided by the utility model;
FIG. 3 is a schematic view of a right side three-dimensional structure of a low-carbon environment-friendly laminated hollow architectural glass provided by the utility model;
FIG. 4 is an enlarged schematic structural view of the low-carbon environmental-friendly laminated hollow building glass at the B position;
FIG. 5 is a schematic view of an explosion structure of a low-carbon environmental-friendly laminated hollow building glass provided by the present invention;
fig. 6 is a schematic view of a three-dimensional structure of a low-carbon environment-friendly laminated hollow building glass provided by the utility model.
In the figure: 1. a first base glass; 2. a second base glass; 3. a first zinc oxide transparent conductive film; 4. a second zinc oxide transparent conductive film; 5. a hollow aluminum frame; 6. a desiccant layer; 7. sealing the adhesive layer; 8. a first connecting glue layer; 9. first tempered glass; 10. a second connecting glue layer; 11. second tempered glass; 12. a silicon nitride film; 13. a heat insulating film; 14. a sealing strip; 15. a bump; the mode of connecting with 7, in order to increase 1-13 connection to fix, avoid the glass in use to split, guarantee its safety in utilization, 16, fixed frame; 17. a breather pipe; 18. and (4) sealing the plug.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-6, a low-carbon environment-friendly laminated hollow building glass comprises a first base glass 1 and a second base glass 2, wherein a first zinc oxide transparent conductive film 3 is bonded on one side of the first base glass 1, a second zinc oxide transparent conductive film 4 is bonded on one side of the second base glass 2, the first zinc oxide transparent conductive film 3 and the second zinc oxide transparent conductive film 4 have high transmittance and excellent conductivity, and have an obvious reflection effect on infrared light, so that solar heat can be reflected to prevent solar heat from permeating into a building, so as to reduce the use of air conditioners in the building, and further achieve the effects of energy saving and environment protection, a hollow aluminum frame 5 is arranged between the first zinc oxide transparent conductive film 3 and the second zinc oxide transparent conductive film 4, a desiccant layer 6 is filled in the hollow aluminum frame 5, and a sealing glue layer 7 is arranged between the first zinc oxide transparent conductive film 3 and the second zinc oxide transparent conductive film 4, and one side of first basic unit glass 1 is provided with first connection glue film 8, one side of first connection glue film 8 is provided with first toughened glass 9, one side of second basic unit glass 2 is provided with second connection glue film 10, one side of second connection glue film 10 is provided with second toughened glass 11, first basic unit glass 1, second basic unit glass 2, first connection glue film 8, first toughened glass 9, the design of second connection glue film 10 and second toughened glass 11 inter combination, in order to increase the thickness when this cavity building glass moves, when using cavity building glass for a long time, ensure low carbon environmental protection cavity building glass's intensity, in order to prevent that glass from receiving the impact and appearing the damaged phenomenon, cavity building glass's application effect has been increased.
One side of the first toughened glass 9 is bonded with a heat insulation film 13, one side of the second toughened glass 11 is bonded with a silicon nitride film 12, the silicon nitride film 12 and the heat insulation film 13 are designed to have the effects of heat insulation, energy conservation, ultraviolet resistance, safety and explosion prevention, and can also insulate heat and light, meanwhile, the silicon nitride film 12 also has ultrahigh hardness, good high-temperature stability and high-temperature oxidation resistance, and further increases the strength of the building glass, the heat insulation film 13, the first toughened glass 9, the first connecting glue layer 8, the first base glass 1, the first zinc oxide transparent conductive film 3, the second base glass 2, the second zinc oxide transparent conductive film 4, the second connecting glue layer 10, the sealing strips 14 are bonded on multiple sides of the second toughened glass 11 and the silicon nitride film 12, one side of the sealing strips 14 is integrally formed with a plurality of convex blocks 15, and the convex blocks 15 are embedded in the outer walls of the multiple sides of the sealing glue layer 7, the sealing strip 14, the mode that lug 15 and sealant layer 7 are connected, in order to increase thermal-insulated membrane 13, first toughened glass 9, first sealant layer 8, first basic unit glass 1, first transparent conductive thin film of zinc oxide 3, second basic unit glass 2, transparent conductive thin film of second zinc oxide 4, second sealant layer 10, the connection of second toughened glass 11 and silicon nitride film 12 is fixed, avoid the fracture of glass in use, guarantee its safety in utilization, the sealed grafting in top of hollow aluminum frame 5 has breather pipe 17, the sealed grafting in top of breather pipe 17 has sealing plug 18, the multi-side outer wall of sealing strip 14 is provided with fixed frame 16.
The working principle of the embodiment is as follows: when in use, the first base glass 1, the second base glass 2, the first connecting adhesive layer 8, the first toughened glass 9, the second connecting adhesive layer 10 and the second toughened glass 11 are combined with each other to increase the thickness of the hollow building glass during operation, ensure the strength of the low-carbon environment-friendly hollow building glass and prevent the glass from being damaged due to impact, meanwhile, the first zinc oxide transparent conductive film 3 and the second zinc oxide transparent conductive film 4 have high transmittance and excellent conductivity and have obvious reflection effect on infrared light, so that the solar heat energy can be reflected to prevent the solar heat energy from permeating into a building and reduce the use of air conditioners in the building, and further achieve the effects of energy saving and environment protection, and secondly, the silicon nitride film 12 and the heat insulation film 13 not only have the effects of heat insulation, energy saving, ultraviolet resistance, safety and explosion prevention, but also can insulate heat and light, meanwhile, the silicon nitride film 12 also has ultrahigh hardness, good high-temperature stability and high-temperature oxidation resistance, and further increases the strength of the building glass.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the figures, which are based on the orientations and positional relationships shown in the figures, and are used for convenience in describing the patent and for simplicity in description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the patent.
Claims (8)
1. A low-carbon environment-friendly laminated hollow building glass comprises a first base glass (1) and a second base glass (2), and is characterized in that one side of the first base glass (1) is fixedly connected with a first zinc oxide transparent conductive film (3), one side of the second base glass (2) is fixedly connected with a second zinc oxide transparent conductive film (4), a hollow aluminum frame (5) is arranged between the first zinc oxide transparent conductive film (3) and the second zinc oxide transparent conductive film (4), a drying agent layer (6) is filled in the hollow aluminum frame (5), a sealing adhesive layer (7) is arranged between the first zinc oxide transparent conductive film (3) and the second zinc oxide transparent conductive film (4), a first connecting adhesive layer (8) is arranged on one side of the first base glass (1), and a first toughened glass (9) is arranged on one side of the first connecting adhesive layer (8), one side of the second base glass (2) is provided with a second connecting glue layer (10), and one side of the second connecting glue layer (10) is provided with second toughened glass (11).
2. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 1, wherein a heat insulation film (13) is fixedly connected to one side of the first tempered glass (9).
3. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 2, wherein a silicon nitride film (12) is fixedly connected to one side of the second tempered glass (11).
4. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 3, wherein sealing strips (14) are fixedly connected to multiple sides of the heat insulation film (13), the first toughened glass (9), the first connection glue layer (8), the first base glass (1), the first zinc oxide transparent conductive film (3), the second base glass (2), the second zinc oxide transparent conductive film (4), the second connection glue layer (10), the second toughened glass (11) and the silicon nitride film (12).
5. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 4, wherein a plurality of projections (15) are integrally formed on one side of the sealing strip (14), and the projections (15) are embedded in the outer walls of the sealing glue layer (7) on multiple sides.
6. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 1, wherein a vent pipe (17) is hermetically inserted at the top end of the hollow aluminum frame (5).
7. The low-carbon environment-friendly laminated hollow building glass as claimed in claim 6, wherein a sealing plug (18) is hermetically inserted at the top end of the vent pipe (17).
8. A low-carbon environment-friendly laminated hollow building glass according to claim 5, characterized in that the outer wall of the sealing strip (14) on multiple sides is provided with a fixing frame (16).
Priority Applications (1)
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CN202220352271.3U CN217300338U (en) | 2022-02-22 | 2022-02-22 | Low-carbon environment-friendly laminated hollow building glass |
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CN202220352271.3U CN217300338U (en) | 2022-02-22 | 2022-02-22 | Low-carbon environment-friendly laminated hollow building glass |
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CN217300338U true CN217300338U (en) | 2022-08-26 |
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CN202220352271.3U Active CN217300338U (en) | 2022-02-22 | 2022-02-22 | Low-carbon environment-friendly laminated hollow building glass |
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- 2022-02-22 CN CN202220352271.3U patent/CN217300338U/en active Active
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