CN105356835B - Solar photovoltaic assembly breach filler formula adhering and sealing structure - Google Patents
Solar photovoltaic assembly breach filler formula adhering and sealing structure Download PDFInfo
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- CN105356835B CN105356835B CN201510817815.3A CN201510817815A CN105356835B CN 105356835 B CN105356835 B CN 105356835B CN 201510817815 A CN201510817815 A CN 201510817815A CN 105356835 B CN105356835 B CN 105356835B
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- solar photovoltaic
- photovoltaic assembly
- solar
- breach
- adjacent
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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
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
-
- 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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- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Abstract
A kind of solar photovoltaic assembly breach filler formula adhering and sealing structure, due to being respectively equipped with breach along top fastening station and the perpendicular wall of draw-in groove at solar photovoltaic assembly shape of peripheral frame two ends, an open space will be surrounded in adjacent shape of peripheral frame junction after so adjacent shape of peripheral frame is connected;After the assembly well of all solar photovoltaic assemblies, while marine glue being filled in gap between adjacent photovoltaic component, marine glue can be in passing filled on open space, during the gap and the junction of adjacent shape of peripheral frame that so rainwater just cannot be between adjacent solar photovoltaic assembly penetrate into house, it is not in namely drainage, therefore after all of solar photovoltaic assembly is installed, can also be used as roof while playing and converting solar energy into electrical energy, so that solar photovoltaic assembly is built into solar photovoltaic building integration roofing, reach generating, waterproof, it is dust-proof, the effect of energy-conserving and environment-protective.
Description
Technical field
The present invention relates to solar energy, refer in particular to that after the stitching portion marine glue filling of shape of peripheral frame sealing can be played
The structure of effect.
Background technology
With the continuous exploitation and consumption of the non-renewable energy resources such as oil and coal, the utilization of this regenerative resource of solar energy
More spread to each place.As shown in Figure 1, 2, solar photovoltaic assembly at this stage includes solar panels component 10 and uses
To fixedly mount the four edges frame section 20 of solar panels component 10, the upper end of the inwall of four edges frame-type 20 be provided with by it is upper,
Low fastening station 30,40 constitutes and the draw-in groove in it can be snapped onto for solar panels component, is in 45 at the two ends of each edge frame section
The inclined-plane of degree, inserts the corner brace of respective corner brace slot to be attached respectively by two ends between them, therefore in four edges
There is trickle space in the junction 50 of frame section;When by solar photovoltaic assembly assembly to roof, first loaded onto on roof
, then be fixed to solar photovoltaic assembly on support to use by support, and the size according to building roof is longitudinally, laterally
Placement solar photovoltaic assembly is arranged one by one by certain spacing, then is fixed them on support respectively, until installing
Untill the quantity of required solar photovoltaic assembly.
But as solar energy use under construction increasingly increases, in order to reduce material and installation cost, people are by the sun
Energy photovoltaic module combines with building roof, forms solar photovoltaic building integration, is by polylith photovoltaic group
Part is converted solar energy into electrical energy playing after being stitched together or can also used as roof while other energy, and this is just
Need consider waterproof problem, then with marine glue 60 be filled into every piece of solar photovoltaic assembly between gap in general
All of solar photovoltaic assembly is stitched together, and the side of marine glue is filled in the gap between current adjacent solar photovoltaic assembly
Formula is first to fill in foam 70 in underclearance between every piece of solar photovoltaic assembly, then again fills marine glue 60 in place
All of solar photovoltaic assembly splicing is completed in gap above foam;It is simultaneously to prevent rainwater from solar panels
After being penetrated between the upper surface of component 10 and top fastening station 30, erected from solar panels component 10 and leak into room between wall and draw-in groove inwall
In room, also wall and draw-in groove inwall can be erected in the upper surface of solar panels component 10 and the inwall of top fastening station 30, solar panels component 10
Between the upper marine glue 60 of filling;But because there is trickle sky in the junction 50 of every piece of solar photovoltaic assembly four edges frame section
Gap, and this space is cannot to be filled to carry out waterproof with marine glue, and such rainwater will directly from every piece of photovoltaic
Penetrated into house in the space of the shape of peripheral frame junction of component, therefore this solar photovoltaic assembly is not suitable as roof
Use, being this can carry out the solar energy of waterproof by marine glue applicant has invented a kind of in the filling of shape of peripheral frame junction
Lie prostrate the adhering and sealing structure of component.
The content of the invention
It is to overcome the deficiencies in the prior art that the purpose of the present invention is, there is provided it is a kind of it is rational in infrastructure, can waterproof too
Positive energy photovoltaic module breach filler formula adhering and sealing structure, makes the solar photovoltaic building being built into integration roofing have energy-conservation
The advantage of environmental protection.
In order to solve above-mentioned technical problem, the present invention uses following technical proposals:
A kind of solar photovoltaic assembly breach filler formula adhering and sealing structure, it is spelled by some pieces of solar photovoltaic assemblies
Connect, every piece of described solar photovoltaic assembly includes square solar panels component and is located at solar panels component four
The four edges frame section on side, the card being made up of top fastening station and low fastening station is provided with the inwall upper end of described four edges frame section
Groove, described solar panels component is fixed in draw-in groove;At each shape of peripheral frame two ends along top fastening station and the perpendicular wall of draw-in groove
It is respectively equipped with breach;The adjacent shape of peripheral frame is defined on junction after connecting by respective breach can make solar panels
The open space that component corner is exposed;Described adjacent solar photovoltaic assembly is non-contiguously spliced;In the solar energy
It is anti-that open space beyond board component corner and being provided between the gap of adjacent two pieces of solar photovoltaic assemblies is connected
Glue.
In to the improvement project of above-mentioned solar photovoltaic assembly breach filler formula adhering and sealing structure, described top fastening station
On breach width no more than top fastening station width.
In to the improvement project of above-mentioned solar photovoltaic assembly breach filler formula adhering and sealing structure, in described perpendicular wall
On breach upper surface of the depth less than solar panels component, but higher than the least significant end of draw-in groove.
Compared with prior art, the beneficial effects of the invention are as follows:Due on solar photovoltaic assembly shape of peripheral frame two ends edge
Top fastening station and the perpendicular wall of draw-in groove are respectively equipped with breach, will connect in adjacent shape of peripheral frame after so adjacent shape of peripheral frame is connected
The place of connecing surrounds an open space, after solar panels component is installed in the draw-in groove of four edges frame section, four corner meetings
Outside is exposed to from the open space of each adjacent shape of peripheral frame junction;After by the assembly well of all solar photovoltaic assemblies,
While filling marine glue in gap between adjacent photovoltaic component, on open space that can be beyond solar panels component corner
Fill upper marine glue in passing, such rainwater just cannot be from the gap between adjacent solar photovoltaic assembly and adjacent shape of peripheral frame
Junction is penetrated into house, that is, is not in drainage, therefore is installed by all of solar photovoltaic assembly
Afterwards, can also be used as roof while playing and converting solar energy into electrical energy, so that solar photovoltaic assembly is taken
Solar photovoltaic building integration roofing is built up, the effect of generating, waterproof and dustproof, energy-conserving and environment-protective is reached.
【Brief description of the drawings】
Fig. 1 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of prior art;
Fig. 2 is spliced top view between prior art polylith solar photovoltaic assembly;
Fig. 3 is schematic perspective view of the invention;
Fig. 4 is 3 partial enlarged drawing I;
Fig. 5 is spliced top view between polylith solar photovoltaic assembly of the present invention;
Fig. 6 is the partial structural diagram of shape of peripheral frame of the invention;
Fig. 7 is by the buckled structural representation for being spliced between adjacent solar photovoltaic assembly of the invention;
Fig. 8 is the structural representation spliced by misconnection formula between adjacent solar photovoltaic assembly of the invention;
Fig. 9 is the structural representation spliced by dock between adjacent solar photovoltaic assembly of the invention.
【Specific embodiment】
A kind of solar photovoltaic assembly breach filler formula adhering and sealing structure, as shown in FIG. 3 to 7, it be by some pieces too
What positive energy photovoltaic module 1 was spliced, described every piece of solar photovoltaic assembly 1 includes the square He of solar panels component 2
The four edges frame section 3 on the side of solar panels component 2 four is located at, is provided with by upper in the inwall upper end of described four edges frame section 3
The draw-in groove 4 of chuck 41 and the composition of low fastening station 42, described solar panels component 2 is fixed in draw-in groove 4, when mounted, first
The marine glue in filling in the draw-in groove 4, then the insertion of solar panels component is installed in draw-in groove, finally being squeezed by solar panels component
The marine glue for pressing out is cleaned out;Laterally set respectively along the perpendicular wall of the longitudinal direction of top fastening station 41 and draw-in groove 4 at each shape of peripheral frame two ends
Jagged 5,6;The adjacent shape of peripheral frame is defined on junction after connecting by respective breach can make solar panel group
The open space 7 that the corner of part 2 is exposed, is four after solar panels component 2 is installed in the draw-in groove 4 of four edges frame section 3
Corner can be exposed to outside from the open space 7 of each adjacent shape of peripheral frame junction;Described adjacent solar photovoltaic assembly
Non-contiguously arranged;Open space and adjacent two pieces of photovoltaics beyond the corner of solar panels component 2
The marine glue 8 being connected is provided between the gap of component.On roof during installing solar photovoltaic component, first the one of roof
One of solar photovoltaic assembly 1 is fixed on individual angle, then the area according to roof is horizontal in this block solar photovoltaic assembly
Solar photovoltaic assembly 1 is placed to being arranged one by one with longitudinal direction, in order to avoid being influenceed by expanding with heat and contract with cold, past laterally and vertical
During solar photovoltaic assembly is put, the shape of peripheral frame of adjacent solar photovoltaic assembly is non-contiguously to be arranged
's;After one piece of solar photovoltaic assembly of every placement, the solar photovoltaic assembly that first will can newly put up is fixed on to be prepared in advance
On good support, after all solar photovoltaic assemblies are installed on the same face on roof, then at all adjacent two pieces too
It is positive to fill marine glue 8 in the gap of photovoltaic module, the open space in filling in passing beyond the corner of solar panels component 2
In also fill upper marine glue 8, as shown in figure 5, so as to by the gap between adjacent solar photovoltaic assembly to being sealed up, also phase
To being sealed up, such rainwater just cannot be between adjacent solar photovoltaic assembly for the space A of the junction of adjacent side frame section 3
The space A of gap and shape of peripheral frame junction is penetrated into house, the phenomenon of leak would not also occurs.
From the aforegoing it can be seen that due to being set respectively along top fastening station and the perpendicular wall of draw-in groove at solar photovoltaic assembly shape of peripheral frame two ends
It is jagged, will surround an open space in adjacent shape of peripheral frame junction after so adjacent shape of peripheral frame is connected;
After by the assembly well of all solar photovoltaic assemblies, while filling marine glue in the gap between adjacent photovoltaic component, can exist
Upper marine glue is filled on open space beyond solar panels component corner in passing, such rainwater just cannot be from adjacent solar energy
The junction in gap and adjacent shape of peripheral frame between volt component is penetrated into house, that is to say, that be not in drainage,
Therefore after all of solar photovoltaic assembly is installed, can also be as while playing and converting solar energy into electrical energy
Roof is used so that solar photovoltaic assembly is built into solar photovoltaic building integration roofing, reach generating, waterproof,
Dust-proof, energy-conserving and environment-protective effects.
As shown in fig. 6, in order to when toward filling marine glue on open space, prevent marine glue from flowing out to beyond open space
Place, the width of the width of breach 5 on described top fastening station 41 no more than top fastening station;In addition, in order that on open space
While marine glue preferably can live the gap seals of adjacent frame, do not interfere with solar panels component is fixed on card
Effect in groove, upper surface of the notch depth less than solar panels component 2 on described perpendicular wall, but it is minimum higher than draw-in groove 4
End.
For the ease of adjacent photovoltaic component splicing and more facilitate adjacent photovoltaic component gap fill marine glue, such as
Shown in Fig. 7, the upper overlap joint groove 31 or the lower overlap joint groove that Open Side Down of opening upwards are provided with the outer wall of each shape of peripheral frame 3
32, so all photovoltaic modulies just can non-contiguously carry out snapping by upper and lower overlap joint groove 31,32, again toward phase after snapping is good
The upper marine glue 8 of gap filling between adjacent photovoltaic module, and due to the mobility and toughness of marine glue itself, it can part
It is flowed into the gap between upper and lower overlap joint groove 31,32 and between lower overlap joint groove 32 and its shape of peripheral frame outer wall for facing;Such as
Shown in Fig. 8, can also be taken in the case where the upper overlap joint block 33 higher of set location on the outer wall of each shape of peripheral frame 3 or position are relatively low
Block 34 is connect, misconnection is carried out by way of upper and lower overlap joint block 33,34 is mutually staggered, again toward adjacent photovoltaic component after misconnection is good
Gap in fill marine glue, and due to the mobility and toughness of marine glue itself, it can part flow into and overlap block 33
Vertical edge outer wall and its shape of peripheral frame outer wall for facing between gap in, and penetrate into it is upper and lower overlap joint block 33,34 between
In gap;As shown in figure 9, the contour docking wing 35 can also be set on four outer walls of shape of peripheral frame 3, by docking the wing pair
The mode for connecing is spliced, and then places pad 9 in the top of the docking wing 35, thus can be toward adjacent photovoltaic component
Marine glue is filled between gap;As can be seen that be that snapping is carried out by upper and lower overlap joint groove regardless of solar photovoltaic assembly, also
It is that by upper, lower overlap joint block carries out misconnection, or completed to fetching the splicing of all photovoltaic modulies by docking the wing, past
When filling marine glue in the gap between adjacent photovoltaic component, upper and lower overlap joint groove, on, the pad on lower overlap joint block and the docking wing
Can play a part of to hold marine glue, so not only cause more to facilitate in splicing, while overcome current people building
The many disadvantages that gap is brought are filled when making solar integration roofing using foam.
It is aobvious for those skilled in the art by the disclosure although the present invention is described in detail with reference to above example
And be clear to, and in the case of the principle of the invention and scope for not departing from described claim restriction, can be right
The present invention makes a variety of changes or changes.Therefore, the detailed description of the embodiment of the present disclosure is only used for explaining, rather than for limiting
The present invention, but it is defined by the subject-matter of the claims the scope of protection.
Claims (3)
1. a kind of solar photovoltaic assembly breach filler formula adhering and sealing structure, it is characterised in that it is by some blocks of solar energy
Photovoltaic module(1)It is spliced, every piece of described solar photovoltaic assembly(1)Include square solar panels component(2)
Be located at solar panels component(2)The four edges frame section on four sides(3), in described four edges frame section(3)Inwall upper end
It is provided with by top fastening station(41)And low fastening station(42)The draw-in groove of composition(4), described solar panels component(2)It is fixed on draw-in groove
(4)In;At each shape of peripheral frame two ends along top fastening station(41)And draw-in groove(4)Perpendicular wall be respectively equipped with breach(5)、(6);The phase
Adjacent side frame section is defined on junction after connecting by respective breach can make solar panels component(2)What corner was exposed opens
Mouth space(7);Described adjacent solar photovoltaic assembly is non-contiguously spliced;In the solar panels component(2)Corner
The marine glue being connected is provided between open space in addition and the gap of adjacent two pieces of solar photovoltaic assemblies(8).
2. solar photovoltaic assembly breach filler formula adhering and sealing structure according to claim 1, it is characterised in that described
Top fastening station(41)On breach(5)Width no more than top fastening station width.
3. solar photovoltaic assembly breach filler formula adhering and sealing structure according to claim 1, it is characterised in that in institute
The breach on perpendicular wall stated(6)Depth be less than solar panels component(2)Upper surface, but higher than draw-in groove(4)Least significant end.
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CN201510817815.3A CN105356835B (en) | 2015-11-20 | 2015-11-20 | Solar photovoltaic assembly breach filler formula adhering and sealing structure |
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CN201510817815.3A CN105356835B (en) | 2015-11-20 | 2015-11-20 | Solar photovoltaic assembly breach filler formula adhering and sealing structure |
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CN105356835B true CN105356835B (en) | 2017-06-20 |
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Families Citing this family (3)
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CN108316575A (en) * | 2018-03-15 | 2018-07-24 | 武汉日新科技股份有限公司 | Double glass doubling photovoltaic roofs and photovoltaic apparatus |
CN112726846A (en) * | 2020-12-25 | 2021-04-30 | 凯盛光伏材料有限公司 | Hidden frame type power generation building component |
CN113691208A (en) * | 2021-08-30 | 2021-11-23 | 湖南坚致幕墙安装设计有限公司 | Solar photovoltaic panel fixing frame |
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CN2625537Y (en) * | 2003-06-09 | 2004-07-14 | 张进明 | Environment protection type multifunction energy-saving hermetic window |
CN201092711Y (en) * | 2007-12-29 | 2008-07-30 | 浙江八达建设集团有限公司 | Splitting structure of glass block |
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