CN206917023U - Architectural engineering solar double-glass assemblies - Google Patents
Architectural engineering solar double-glass assemblies Download PDFInfo
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- CN206917023U CN206917023U CN201720831573.8U CN201720831573U CN206917023U CN 206917023 U CN206917023 U CN 206917023U CN 201720831573 U CN201720831573 U CN 201720831573U CN 206917023 U CN206917023 U CN 206917023U
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- frame
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- glass
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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
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
Architectural engineering solar double-glass assemblies, including solar double-glass assemblies body and component framework, component framework surround the edge of solar double-glass assemblies body;The edge of solar double-glass assemblies body includes upper edge, lower edge portion, left edge portions, the right edge, corner portion one, corner portion two, corner portion three and corner portion four, upper edge is caught in upper side frame, lower edge portion is caught in lower frame, left edge portions are caught in left frame, and the right edge is caught in left frame;Corner portion one is caught in the upper end of left frame, and the upper end of left frame is connected in the left part of upper side frame;Corner portion two is caught in the upper end of left frame, and the upper end of left frame is connected in the right part of upper side frame;Corner portion three is caught in the bottom of left frame, and the bottom of left frame is connected in the left part of lower frame;Corner portion four is caught in the bottom of left frame, and the bottom of left frame is connected in the right part of lower frame;Glass back plate is supported by main supporting rod, and main supporting rod offers mounting hole.
Description
Technical field
The utility model belongs to field of photovoltaic technology, is related to a kind of architectural engineering solar double-glass assemblies.
Background technology
Solar energy is the most abundant regenerative resource of resource, has unique advantage and huge developing and utilizingpotentiality.Too
Positive energy battery has had been to be concerned by more and more people as reproducible eco-friendly power source.The application of photovoltaic generation in the last few years is
Develop via traditional power station to roof power station, building integrated photovoltaic, therefore to solar components and construction material and building
The integrated requirement proposed of itself, and solar double-glass assemblies are exactly the good replacement for the glass curtain wall commonly used in building.
EVA resin meets water and starts to decompose in photovoltaic module, and its catabolite contains acetic acid, and acetic acid corrodes on photovoltaic cell
Silver grating line, convergent belt etc., the generating efficiency of component is set to decline year by year, therefore the encapsulation of photovoltaic module is always in production process
Great points for attention, especially solar double-glass assemblies are to integrate to apply on building body, month after month need to be subjected to wind and frost sleet throughout the year, its envelope
Packing quality is even more important.
Solar double-glass assemblies are because two sides is all smooth glass, so weight is big, it is inconvenient to carry, in transport and installation
Will significant care, collide and be easily broken, and be not easy to reprocess, secondly when mounted, due to need and building in itself
Integrated, existing solar double-glass assemblies are all that installation is fixed with architectural skeleton in its edge, i.e., traditional builds
Glass mounting means is built, still, this mode insufficient strength, for the building under adverse circumstances, it is desirable to provide higher
Compressive property, and the compressive property of existing solar double-glass assemblies is poor, or even weather-resistant properties such as poor waterproof, protection against the tide etc. one be present
Series of problems, cause the service life of product relatively low, the high standard that architectural engineering uses can not be met, this be those skilled in the art urgently
The problem of to be solved.
Utility model content
The purpose of this utility model is above mentioned problem be present for existing technology, it is proposed that a kind of double glass of architectural engineering
Component, for solving the problems, such as that service life is short in engineer applied.
The purpose of this utility model can be realized by following technical proposal:
Architectural engineering solar double-glass assemblies, including solar double-glass assemblies body and component framework, component framework surround solar double-glass assemblies
The edge of body;Solar double-glass assemblies body includes face glass, glued membrane one, cell piece, glued membrane two, glass back plate and wiring
Box, the front of cell piece is bonding by glued membrane one and face glass, and the back side of cell piece passes through glued membrane two and glass back plate phase
Bonding, cell piece conflux in terminal box;The edge of solar double-glass assemblies body include upper edge, lower edge portion, left edge portions,
The right edge, corner portion one, corner portion two, corner portion three and corner portion four, the connected left edge portions of the turnover of corner portion one and top
Edge, the connected upper edge of the turnover of corner portion two and the right edge, the connected left edge portions of the turnover of corner portion three and lower edge portion, turn
The connected the right edge of the turnover of corner four and lower edge portion;Component framework includes upper side frame, lower frame, left frame and left frame, on
Edge part is caught in and is sealed in upper side frame, and lower edge portion is caught in and is sealed in lower frame, and left edge portions are caught in and are sealed in
In left frame, the right edge is caught in and is sealed in left frame;Corner portion one is caught in and is sealed in the upper end of left frame, left
The upper end of frame is connected in the left part of upper side frame;Corner portion two is caught in and is sealed in the upper end of left frame, left frame
Upper end be connected in the right part of upper side frame;Corner portion three is caught in and is sealed in the bottom of left frame, under left frame
End is connected in the left part of lower frame;Corner portion four is caught in and is sealed in the bottom of left frame, the bottom of left frame
It is connected in the right part of lower frame;Component framework also includes multiple main supporting rods, and main supporting rod is distributed in glass back plate
Rear side, one end of main supporting rod are connected to left frame, and the other end of main supporting rod is connected to left frame, main supporting rod against and prop up
Glass back plate is supportted, main supporting rod offers mounting hole.
In above-mentioned architectural engineering solar double-glass assemblies, two adjacent main supporting rods are connected by secondary support rod, pair supporting
Bar offers mounting hole against simultaneously supporting back board, secondary support rod.
In above-mentioned architectural engineering solar double-glass assemblies, the back of left frame and the back of left frame offer mounting groove.
In above-mentioned architectural engineering solar double-glass assemblies, the back of upper side frame and the back of lower frame offer mounting groove.
In above-mentioned architectural engineering solar double-glass assemblies, glued membrane one and glued membrane two are all EVA adhesive films.
Compared with prior art, the technical program has the advantage that:
1st, the face glass of solar double-glass assemblies body and glass back plate can resist the intrusion of steam, and the four of solar double-glass assemblies body
Individual rotation angle position is the dual packaged by component framework, and the mutual clamping of upper side frame, lower frame, left frame, left frame is formed
One component framework compact-sized and that sealing is excellent so that solar double-glass assemblies body has excellent waterproof, moisture resistance
Can, the invasion and attack that wind and frost sleet can be resisted when in architectural engineering are applied, beneficial to raising service life;
2nd, component framework has mounting hole, mounting groove, and component framework is not only to play further solar double-glass assemblies body
Encapsulation effect, ensures the waterproof and dampproof performance of solar double-glass assemblies body, and is that solar double-glass assemblies body is applied in architectural engineering
Installing matrix, it can preferably be more convenient and more firmly realize the integrated installation with building body, reduce installation difficulty.
Brief description of the drawings
Fig. 1 is the side view of architectural engineering solar double-glass assemblies of the present utility model.
Fig. 2 is the structural representation of the solar double-glass assemblies body of architectural engineering solar double-glass assemblies of the present utility model.
Fig. 3 is the front view of architectural engineering solar double-glass assemblies of the present utility model.
Fig. 4 is the structural representation of architectural engineering solar double-glass assemblies of the present utility model.
Fig. 5 is the rearview of architectural engineering solar double-glass assemblies of the present utility model.
In figure, 1, solar double-glass assemblies body;2nd, face glass;3rd, glued membrane one;4th, cell piece;5th, glued membrane two;6th, glass back plate;
7th, terminal box;8th, upper edge;9th, lower edge portion;10th, left edge portions;11st, the right edge;12nd, corner portion one;13rd, corner portion
Two;14th, corner portion three;15th, corner portion four;16th, upper side frame;17th, lower frame;18th, left frame;19th, left frame;20th, main supporting
Bar;21st, mounting hole;22nd, secondary support rod;23rd, mounting groove.
Embodiment
It is specific embodiment of the utility model and with reference to accompanying drawing below, the technical solution of the utility model is made further
Description, but the utility model is not limited to these embodiments.
As shown in Figures 1 to 5, the utility model provides a kind of architectural engineering solar double-glass assemblies, including solar double-glass assemblies body 1
And component framework, component framework detachably surround the edge of solar double-glass assemblies body 1;What solar double-glass assemblies body 1 used can
To be existing structure, solar double-glass assemblies body 1 is including face glass 2, glued membrane 1, cell piece 4, glued membrane 25, glass back plate 6 and connects
Line box 7, the front of cell piece 4 is bonding by glued membrane 1 and face glass 2, and the back side of cell piece 4 passes through glued membrane 25 and glass
Glass backboard 6 is bonding, and cell piece 4 is confluxed in terminal box 7 by reflux condition;Glued membrane 1 and glued membrane 25 are all EVA adhesive films;Front
Glass 2 has antireflective coating, and for reducing the mirror-reflection of face glass 2, the welding on cell piece 4 uses reflective solder strip, double
The edge of glass component body 1 selectively installs butyl rubber belt additional, for improving the sealing of solar double-glass assemblies body 1.
The edge of solar double-glass assemblies body 1 includes upper edge 8, lower edge portion 9, left edge portions 10, the right edge 11,
Corner portion 1, corner portion 2 13, corner portion 3 14 and corner portion 4 15, the turnover of corner portion 1 are connected left edge portions 10 and upper
Edge part 8, the connected upper edge 8 of the turnover of corner portion 2 13 and the right edge 11, the connected left edge portions 10 of the turnover of corner portion 3 14
With lower edge portion 9, the connected the right edge 11 of the turnover of corner portion 4 15 and lower edge portion 9.
Component framework includes upper side frame 16, lower frame 17, left frame 18 and left frame 19, upper side frame 16, lower frame 17, a left side
Frame 18 and left frame 19 offer the neck for installation solar double-glass assemblies body 1, and upper edge 8 is caught in and is sealed in upper side frame
In 16 neck, lower edge portion 9 is caught in and is sealed in the neck of lower frame 17, and left edge portions 10 are caught in and are sealed in left frame
In 18 neck, the right edge 11 is caught in and is sealed in the neck of left frame 19;Corner portion 1 is caught in and is sealed in the left side
In the neck of the upper end of frame 18, the upper end of left frame 18 is connected in the neck of the left part of upper side frame 16;Corner portion 2 13
It is caught in and is sealed in the neck of the upper end of left frame 19, the upper end of left frame 19 is connected in the right part of upper side frame 16
Neck;Corner portion 3 14 is caught in and is sealed in the neck of the bottom of left frame 18, and the bottom of left frame 18 is connected in down
The neck of the left part of frame 17;Corner portion 4 15 is caught in and is sealed in the neck of the bottom of left frame 19, left frame 19
Bottom be connected in lower frame 17 right part neck.The left part and right part of upper side frame 16 bend it is downwardly projecting,
The left part and right part of lower frame 17 bend protruding upward, and the upper end reduced diameter of left frame 18 is to match upper side frame 16
Left part, the bottom reduced diameter of left frame 18 is to match the left part of lower frame 17, the upper end external diameter of left frame 19
Reduce to match the right part of upper side frame 16, the bottom reduced diameter of left frame 19 is to match the right part of lower frame 17.
The face glass 2 of solar double-glass assemblies body 1 is photovoltaic safety glass, and glass back plate 6 is float glass process safety glass, can be supported
The intrusion of water vapor, four rotation angle positions of solar double-glass assemblies body 1 are corner portion 1, corner portion 2 13, the and of corner portion 3 14
Corner portion 4 15 is the dual packaged by component framework, and corner portion 1 is encapsulated again by the first of left frame 18, secondly
Encapsulated again by the second of upper side frame 16;Corner portion 2 13 is encapsulated again by the first of left frame 19, secondly by upper side frame 16
Second encapsulate again;Corner portion 3 14 is encapsulated again by the first of left frame 18, is secondly encapsulated again by the second of lower frame 17,
Corner portion 4 15 is encapsulated again by the first of left frame 19, is secondly encapsulated again by the second of lower frame 17;Left frame 18 with it is upper
Frame 16 is distinguished clamping with lower frame 17 and is connected, and left frame 19 is distinguished clamping with upper side frame 16 and lower frame 17 and is connected, upper side frame
16th, lower frame 17, left frame 18 and left frame 19 form a component framework compact-sized and that sealing is excellent, upper side frame
16th, spring seal strip is selectively embedded in the neck of lower frame 17, left frame 18 and left frame 19, elastic sealing strip contradicts
And the edge of solar double-glass assemblies body 1 is surrounded, further improve sealing effectiveness so that solar double-glass assemblies body 1 has excellent
Waterproof, humidity resistance, apply the invasion and attack that wind and frost sleet can be resisted when in architectural engineering.
It is noted that component framework also includes multiple main supporting rods 20, main supporting rod 20 is distributed in the glass back of the body
The rear side of plate 6, the length of the upper and lower ends of solar double-glass assemblies are more than the width of its left and right ends, and one end of main supporting rod 20 is connected to
Left frame 18, the other end of main supporting rod 20 are connected to left frame 19, main supporting rod 20 against and support glass back plate 6, main branch
Hold bar 20 and offer mounting hole 21.The back side of main supporting rod 20 and the back side of left frame 18 and left frame 19 are flush, the left side
The sidepiece of frame 18 and the sidepiece of left frame 19 offer the connecting hole of installation main supporting rod 20, the end card of main supporting rod 20
Enter connecting hole just easily can be connected with left frame 18 and left frame 19, and main supporting rod 20 not only provides branch to glass back plate 6
Support acts on, and when it is arranged on building body, main supporting rod 20 can improve the compressive resistance of solar double-glass assemblies, can resist windage,
Make solar double-glass assemblies to keep firm installment state indeformable all the time, secondly offer mounting hole 21 on main supporting rod 20, should
Mounting hole 21 is to be used to match with building support, for realizing installation of the solar double-glass assemblies on building body, adds double glass groups
The exposure level of part and building body, improves installation strength so that the service life of solar double-glass assemblies is ensured.
Two adjacent main supporting rods 20 are connected by secondary support rod 22, and secondary support rod 22 supports against simultaneously supporting back board, pair
The back side of bar 22 and the back side of left frame 18 and left frame 19 are flush, and secondary support rod 22 offers mounting hole 21, main supporting
Bar 20 offers the connecting hole for installing secondary support rod 22, and secondary support rod 22 is perpendicular to main supporting rod 20, for further improving
Intensity.
Selectively, the back of left frame 18 and the back of left frame 19 offer mounting groove 23, the back of upper side frame 16
Mounting groove 23 is offered with the back of lower frame 17.Mounting groove 23 is used to realize installation of the solar double-glass assemblies on building body, that is, exists
In the utility model, component framework is not only to play solar double-glass assemblies body 1 further encapsulation effect, ensures solar double-glass assemblies sheet
The waterproof and dampproof performance of body 1, and be the installing matrix that solar double-glass assemblies body 1 is applied in architectural engineering, can preferably more
Convenient and more firmly realization and the integrated installation of building body.In addition, main supporting rod 20 and secondary support rod 22 are in the glass back of the body
The back side of plate 6, it can also subtract at least part of light losing, beneficial to raising electricity conversion.
Solar double-glass assemblies of the present utility model can both meet certain daylighting demand, can generate electricity again, and photoelectric transformation efficiency is high, performance
It is stabilization, long lifespan, safe and reliable, it is particularly suitable for photovoltaic glass curtain wall, photovoltaic glass lighting roof and photovoltaic carport, photovoltaic and waits
All kinds of buildings such as booth use.
Specific embodiment described herein is only to the utility model spirit explanation for example.The utility model institute
Category those skilled in the art can make various modifications or supplement to described specific embodiment or using similar
Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.
Although solar double-glass assemblies body 1 has more been used herein;Face glass 2;Glued membrane 1;Cell piece 4;Glued membrane 25;
Glass back plate 6;Terminal box 7;Upper edge 8;Lower edge portion 9;Left edge portions 10;The right edge 11;Corner portion 1;Corner portion
2 13;Corner portion 3 14;Corner portion 4 15;Upper side frame 16;Lower frame 17;Left frame 18;Left frame 19;Main supporting rod 20;Peace
Fill hole 21;Secondary support rod 22;The grade term of mounting groove 23, but it is not precluded from the possibility using other terms.Use these terms
Just for the sake of more easily describing and explaining essence of the present utility model;It is construed as any additional limitation all
Disagreed with the utility model spirit.
Claims (5)
1. architectural engineering solar double-glass assemblies, it is characterised in that including solar double-glass assemblies body and component framework, component framework surrounds
The edge of solar double-glass assemblies body;Solar double-glass assemblies body includes face glass, glued membrane one, cell piece, glued membrane two, glass back plate
And terminal box, the front of cell piece is bonding by glued membrane one and face glass, and the back side of cell piece passes through glued membrane two and glass
Backboard is bonding, and cell piece confluxes in terminal box;The edge of solar double-glass assemblies body includes upper edge, lower edge portion, a left side
Edge part, the right edge, corner portion one, corner portion two, corner portion three and corner portion four, the connected left edge portions of the turnover of corner portion one
And upper edge, the turnover of corner portion two are connected upper edge and the right edge, the turnover of corner portion three is connected left edge portions and following
Edge, the connected the right edge of the turnover of corner portion four and lower edge portion;Component framework includes upper side frame, lower frame, left frame and the right side
Frame, upper edge are caught in and are sealed in upper side frame, and lower edge portion is caught in and is sealed in lower frame, and left edge portions are caught in simultaneously
It is sealed in left frame, the right edge is caught in and is sealed in left frame;Corner portion one is caught in and is sealed in the upper end of left frame
In portion, the upper end of left frame is connected in the left part of upper side frame;Corner portion two is caught in and is sealed in the upper end of left frame,
The upper end of left frame is connected in the right part of upper side frame;Corner portion three is caught in and is sealed in the bottom of left frame, the left side
The bottom of frame is connected in the left part of lower frame;Corner portion four is caught in and is sealed in the bottom of left frame, left frame
Bottom is connected in the right part of lower frame;Component framework also includes multiple main supporting rods, and main supporting rod is distributed in glass
The rear side of backboard, one end of main supporting rod are connected to left frame, and the other end of main supporting rod is connected to left frame, and main supporting rod supports
Lean on and support glass back plate, main supporting rod offers mounting hole.
2. architectural engineering solar double-glass assemblies according to claim 1, it is characterised in that two adjacent main supporting rods pass through pair
Support rod is connected, and secondary support rod offers mounting hole against simultaneously supporting back board, secondary support rod.
3. architectural engineering solar double-glass assemblies according to claim 1, it is characterised in that the back of left frame and left frame
Back offers mounting groove.
4. architectural engineering solar double-glass assemblies according to claim 1, it is characterised in that the back of upper side frame and lower frame
Back offers mounting groove.
5. architectural engineering solar double-glass assemblies according to claim 1, it is characterised in that glued membrane one and glued membrane two are all EVA
Glued membrane.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720831573.8U CN206917023U (en) | 2017-07-11 | 2017-07-11 | Architectural engineering solar double-glass assemblies |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720831573.8U CN206917023U (en) | 2017-07-11 | 2017-07-11 | Architectural engineering solar double-glass assemblies |
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CN206917023U true CN206917023U (en) | 2018-01-23 |
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ID=61336329
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CN201720831573.8U Active CN206917023U (en) | 2017-07-11 | 2017-07-11 | Architectural engineering solar double-glass assemblies |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108661219A (en) * | 2018-06-25 | 2018-10-16 | 钱辉 | A kind of glass curtain wall steel structure frame |
-
2017
- 2017-07-11 CN CN201720831573.8U patent/CN206917023U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108661219A (en) * | 2018-06-25 | 2018-10-16 | 钱辉 | A kind of glass curtain wall steel structure frame |
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