CN205028908U - Solar PV modules moulding formula sticking sealing structure - Google Patents

Solar PV modules moulding formula sticking sealing structure Download PDF

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Publication number
CN205028908U
CN205028908U CN201520809676.5U CN201520809676U CN205028908U CN 205028908 U CN205028908 U CN 205028908U CN 201520809676 U CN201520809676 U CN 201520809676U CN 205028908 U CN205028908 U CN 205028908U
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China
Prior art keywords
solar photovoltaic
photovoltaic assembly
assembly
solar
overlap joint
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Inventor
刘汉林
徐晖
曹宏州
杨海映
徐张弛
郑珊珊
黎志萍
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Guangdong New Energy Technology Co Ltd
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Guangdong New Energy Technology Co Ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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  • Roof Covering Using Slabs Or Stiff Sheets (AREA)
  • Photovoltaic Devices (AREA)

Abstract

The utility model provides a that solar PV modules moulding formula sticking sealing structure, it is formed by a plurality of solar PV modules concatenations every solar PV modules including square solar panel element with establish four frame section bars at the solar panel element four sides the outer wall of four frame section bars on be equipped with the concatenation wing that is used for splicing adjacent solar PV modules the upper end of inner wall of four frame section bars be equipped with and be used for bearing solar panel element's bearing board the top of bearing board be equipped with and be used for fixed solar panel element's fixed glue of solar panel, solar panel element place on the bearing board top that its upper surface of back exceeds the frame section bar, adjacent solar PV modules do not splice through the concatenation wing contactless ground on the frame section bar separately, clearance more than two piece adjacent solar PV modules's the butt joint wing is equipped with the marine glue. The utility model has the advantages that can reach electricity generation, waterproof, dustproof, energy -concerving and environment -protective effect.

Description

Solar photovoltaic assembly moulding formula adhering and sealing structure
Technical field
The utility model relates to solar energy, refers in particular to after being stitched together by polylith solar photovoltaic assembly, adjacent solar photovoltaic assembly top be respective solar panels assembly marine glue is docked after can play the structure of sealing effectiveness.
Background technology
Along with continuous exploitation and the consumption of the non-renewable energy resources such as oil and coal, the utilization of this regenerative resource of solar energy spreads to each place more.As shown in Figure 1, 2, the solar photovoltaic assembly of present stage includes solar panels assembly 10 and is used for fixing the four edges frame section 20 installing solar panels assembly 10, the draw-in groove that can snap onto for solar panels assembly 10 in it is provided with in the upper end of four edges frame-type 20 inwall, on the inclined-plane that the two ends of every bar shape of peripheral frame are 45 degree, the corner brace inserting respective corner brace slot respectively by two ends between them connects; By assembled for solar photovoltaic assembly to roof time, first on roof, load onto support, then solar photovoltaic assembly is fixed on support and uses, size according to building roof longitudinally, is laterally arranging placement solar photovoltaic assembly one by one by certain spacing, respectively they are fixed on support again, till the quantity of the solar photovoltaic assembly required for installing.
But along with solar energy use under construction increases day by day, in order to reduce material and installation cost, solar photovoltaic assembly combines with building roof by people, the integration of formation solar photovoltaic building, namely be after polylith solar photovoltaic assembly is stitched together play convert solar energy into electrical energy or other energy while can also be used as roof to use, this just needs to consider anti-water problem, so all solar photovoltaic assemblies are stitched together in the gap being filled between every block solar photovoltaic assembly with marine glue, simultaneously in order to prevent rainwater from penetrating in draw-in groove from the space between solar panels assembly and draw-in groove, be close to the place that draw-in groove top fastening station erects wall on the solar panels assembly surface of every block solar photovoltaic assembly and can fill last layer marine glue, the mode of filling marine glue in the gap between current adjacent solar photovoltaic assembly fills in foam 40 in first underclearance between every block solar photovoltaic assembly, and then marine glue 30 is filled in the gap be arranged in above foam 40, carry out all solar photovoltaic assemblies splicings, but because the solar panels assembly on current solar photovoltaic assembly is the inside being contained in four edges frame section, therefore be spliced by respective shape of peripheral frame between adjacent solar photovoltaic assembly, and have trickle space in 45 degree of junctions 50 of four edges frame section, this trickle space cannot fill with marine glue to carry out waterproof, such rainwater will penetrate into after in draw-in groove from the space of the shape of peripheral frame junction 50 of every block solar photovoltaic assembly, flow in house, therefore this solar photovoltaic assembly is not suitable as roof to use, applicant has invented for this reason a kind of can the adhering and sealing structure of solar photovoltaic assembly of waterproof.
Summary of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art, provide a kind of rational in infrastructure, can the solar photovoltaic assembly moulding formula adhering and sealing structure of waterproof, make the solar photovoltaic building integration roofing be built into have the advantage of energy-conserving and environment-protective.
In order to solve the technical problem of above-mentioned existence, the utility model adopts following technical proposals:
A kind of solar photovoltaic assembly moulding formula adhering and sealing structure, it is spliced by some pieces of solar photovoltaic assemblies, described every block solar photovoltaic assembly includes square solar panels assembly and is located at the four edges frame section on solar panels assembly four limit, the outer wall of described four edges frame section is provided with the splicing wing for splicing adjacent solar photovoltaic assembly, the supporting plate for support solar panels assembly is provided with in the upper end of the inwall of described four edges frame section, the solar panels fixing glue being used for fixing solar panels assembly is provided with above described supporting plate, described solar panels assembly is placed on its upper surface after on supporting plate and exceeds the top of shape of peripheral frame, described adjacent solar photovoltaic assembly is spliced non-contiguously by the splicing wing on respective shape of peripheral frame, between the gap, upper end of adjacent two pieces of solar photovoltaic assemblies, between the gap of the docking wing, and the solar panels assembly on adjacent solar photovoltaic assembly exceed shape of peripheral frame top be above provided with marine glue between table.
In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, the front end place of described supporting plate is slightly to upwarping.
In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, the splicing wing on the outer wall of described four edges frame section is opening up upper overlap joint groove or downward opening lower overlap joint groove, after described adjacent solar photovoltaic assembly is snapped together non-contiguously by upper and lower overlap joint groove, the vertical edge outer wall of upper and lower overlap joint groove with its separately faced by shape of peripheral frame outer wall do not contact; Adjacent solar photovoltaic assembly is filled with marine glue between the gap in the upper above position of overlap joint groove.
In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, the splicing wing on the outer wall of described four edges frame section is the lower lower overlap joint block in the higher upper overlap joint block in position or position, described adjacent solar photovoltaic assembly staggered mutually by upper and lower overlap joint block and non-contiguously splicing after, the vertical edge outer wall of upper and lower overlap joint block with its separately faced by shape of peripheral frame outer wall do not contact, and described lower overlap joint block leading section extend into the bottom of overlap joint block; Adjacent solar photovoltaic assembly is filled with marine glue between the gap in the upper above position of overlap joint block.
In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, the splicing wing on the outer wall of described four edges frame section is the contour docking wing; After described adjacent solar photovoltaic assembly is docked non-contiguously by the docking wing on respective shape of peripheral frame, in the gap of adjacent solar photovoltaic assembly upper end, be provided with the pad that this can be sheltered from the gap between the docking wing; Marine glue is filled with between described this is to the gap of docking wing upper end.
Compared with prior art, the beneficial effects of the utility model are: because its solar panels assembly is being placed on the top that can exceed shape of peripheral frame after on supporting plate, will erect between wall in the part solar panels assembly in the gap, upper end of adjacent two pieces of solar photovoltaic assemblies and on adjacent solar photovoltaic assembly being exceeded shape of peripheral frame top when filling marine glue and fill up, make to go up most between top in the gap between adjacent solar photovoltaic assembly is that solar panels assembly marine glue by respective is bonding to carry out, such marine glue is just by the gap in shape of peripheral frame corresponding with every limit for solar panels assembly four limit of solar photovoltaic assembly between perpendicular wall, the gap of adjacent edge frame section junction, and the gap between adjacent solar photovoltaic assembly has all covered, there will not be rainwater from the space between four edges frame section junction, and the gap in the shape of peripheral frame corresponding with every limit of solar panels assembly four limit of same solar photovoltaic assembly between perpendicular wall penetrates into the situation in house, make all solar photovoltaic assemblies splice well, play convert solar energy into electrical energy while can also be used as roof to use, thus make solar photovoltaic assembly be built into solar photovoltaic building integration roofing, reach generating, waterproof, dust-proof, the effect of energy-conserving and environment-protective.
[accompanying drawing explanation]
Fig. 1 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of prior art;
Fig. 2 is spliced vertical view between prior art polylith solar photovoltaic assembly;
Fig. 3 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of the utility model embodiment one;
Fig. 4 is spliced vertical view between the utility model embodiment one polylith solar photovoltaic assembly;
Fig. 5 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of the utility model embodiment two;
Fig. 6 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of the utility model embodiment three.
[embodiment]
A kind of solar photovoltaic assembly moulding formula adhering and sealing structure, as shown in Fig. 3 to 6, it is spliced by some pieces of solar photovoltaic assemblies 1, described every block solar photovoltaic assembly 1 includes square solar panels assembly 2 and is located at the four edges frame section 3 on solar panels assembly 2 four limit, the outer wall of described four edges frame section 3 is provided with the splicing wing for splicing adjacent solar photovoltaic assembly, the supporting plate 4 for support solar panels assembly 2 is provided with in the upper end of the inwall of described four edges frame section, when installing solar panels assembly, the solar panels fixing glue 7 of q.s first can be filled above supporting plate 4, then being pasted by the lower surface of solar panels assembly 2 is fixed on supporting plate 4, the upper surface 21 installing rear solar panels assembly 2 exceeds the top 36 of shape of peripheral frame, generally exceed 0.5-3mm, described adjacent solar photovoltaic assembly is spliced non-contiguously by the splicing wing on respective shape of peripheral frame, marine glue 5 is provided with between the gap, upper end of adjacent two pieces of solar photovoltaic assemblies.The utility model is when assembled, first fix wherein one piece of solar photovoltaic assembly 1, then solar photovoltaic assembly 1 is placed according to the area on roof in the horizontal and vertical arrangement one by one of this block solar photovoltaic assembly, in order to avoid the impact of being expanded with heat and contract with cold, putting in the process of solar photovoltaic assembly toward horizontal and vertical, the splicing wing on the respective shape of peripheral frame on adjacent solar photovoltaic assembly will dock non-contiguously, after often placing one piece of solar photovoltaic assembly, can first the solar photovoltaic assembly newly put up be fixed on preprepared support, the part that solar panels assembly in the last gap, upper end again marine glue 5 being filled into adjacent two pieces of solar photovoltaic assemblies and on adjacent solar photovoltaic assembly exceeds shape of peripheral frame top is erected between wall, such marine glue is just by the gap in shape of peripheral frame 3 corresponding with every limit for solar panels assembly four limit of solar photovoltaic assembly between perpendicular wall, the gap of adjacent edge frame section junction, and the gap between adjacent solar photovoltaic assembly has all covered, can to find out in the gap between adjacent solar photovoltaic assembly to be undertaken bonding by respective solar panels assembly 2 marine glue between top, bonding rear solar panels assembly and marine glue are fair, whole roofing would not have ponding, also can not make reduce generating efficiency because of bring dirty of ponding, thus make generating efficiency remain stable.
As can be seen from above, marine glue of the present utility model is by the gap in shape of peripheral frame 3 corresponding with every limit for solar panels assembly four limit of solar photovoltaic assembly between perpendicular wall, the gap of adjacent edge frame section junction, and the gap between adjacent solar photovoltaic assembly has all covered, therefore there will not be rainwater from the space between four edges frame section junction, and the gap in the shape of peripheral frame 3 corresponding with every limit of solar panels assembly four limit of same solar photovoltaic assembly between perpendicular wall penetrates into the situation in house, make all solar photovoltaic assemblies splice well, play convert solar energy into electrical energy while can also be used as roof to use, thus make solar photovoltaic assembly be built into solar photovoltaic building integration roofing, reach generating, waterproof, dust-proof, the effect of energy-conserving and environment-protective.
In order to leave enough spaces to fill solar panels fixing glue above supporting plate, reach fixing for solar panels assembly more firmly effect, as shown in Fig. 3,5,6, front end 41 place of described supporting plate 4 is upturned a little.
In the present embodiment one, as shown in Figure 3,4, the splicing wing on the outer wall of described four edges frame section 3 is opening up upper overlap joint groove 31 or downward opening lower overlap joint groove 32, upper and lower like this overlap joint groove plays the effect of holding marine glue, overcomes current people adopt foam to bring to fill gap many disadvantages when building solar integration roofing, at this moment the impact in order to avoid being expanded with heat and contract with cold, adjacent solar photovoltaic assembly 1 is by upper, lower overlap joint groove 31, between 32 non-contiguously (on being namely, horizontal direction between lower overlap joint groove and longitudinally between gap all to leave enough gaps) carry out snapping, snapping well after between the outer vertical edge of shape of peripheral frame and the overlap joint groove vertical edge faced by it also otherwise contact (horizontal direction namely between the outer vertical edge of shape of peripheral frame and the overlap joint groove vertical edge faced by it also will leave enough gaps), so just marine glue can be filled between the gap, upper end of adjacent two pieces of solar photovoltaic assemblies, due to mobility and the toughness of marine glue self, it can partly flow between lower overlap joint groove and the shape of peripheral frame outer wall faced by it, and may infiltrate, between the gap of lower overlap joint groove, be filled into till solar panels assembly exceeds the perpendicular wall of the upper surface 21 of shape of peripheral frame top always.
In the present embodiment two, as shown in Figure 5, the outer wall of described four edges frame section 3 is provided with the lower lower overlap joint block 34 of the higher upper overlap joint block 33 in position or position, upper and lower like this overlap joint block 33,34 mainly plays the effect of holding marine glue, overcomes current people adopt foam to bring to fill gap many disadvantages when building solar integration roofing.At this moment the impact in order to avoid being expanded with heat and contract with cold, described adjacent solar photovoltaic assembly be by upper and lower overlap joint block 33,34 stagger mutually non-contiguously (namely between the longitudinal direction of upper and lower overlap joint block, all leaving gap) overlap, after overlap joint is good upper and lower overlap joint block 33,34 vertical edge outer wall with its separately faced by shape of peripheral frame outer wall do not contact (namely the vertical edge outer wall of upper and lower overlap joint block and its separately faced by shape of peripheral frame outer wall between also to have enough gaps in the horizontal direction), and described lower overlap joint block 34 leading section extend into the bottom of overlap joint block 33; Just can fill between the gap in the upper above position of overlap joint block from adjacent solar photovoltaic assembly at filling marine glue like this, due to mobility and the toughness of marine glue self, so it will partly flow in the gap between the vertical edge outer wall of overlap joint block 33 and the shape of peripheral frame outer wall faced by it, and in the gap that may penetrate between upper and lower overlap joint block 33,34, be filled into till solar panels assembly exceeds the perpendicular wall of the upper surface 21 of shape of peripheral frame top always.
In the present embodiment three, as shown in Figure 6, the splicing wing on the outer wall of described four edges frame section 3 is the contour docking wing 35; At this moment the impact in order to avoid being expanded with heat and contract with cold, adjacent solar photovoltaic assembly is docked non-contiguously by the docking wing on respective shape of peripheral frame, in the gap of adjacent solar photovoltaic assembly upper end, the pad 6 that this can be sheltered from the gap between the docking wing is provided with after docking, described pad 6 mainly plays the effect of holding marine glue, and the effect of docking the wing is support pad 6, overcome current people adopt foam to bring to fill gap many disadvantages when building solar integration roofing; Like this fill marine glue just can from this to the gap of docking wing upper end between be filled with marine glue 6, be filled into till solar panels assembly exceeds the perpendicular wall of the upper surface 21 of shape of peripheral frame top always.
Although reference above embodiment describes the utility model in detail, but be it will be apparent to one skilled in the art that by the disclosure, and when not departing from principle of the present utility model and the scope of described claim restriction, can make a variety of changes the utility model or revise.Therefore, the detailed description of disclosure embodiment is only used for explaining, instead of is used for limiting the utility model, but is defined by the subject-matter of the claims the scope of protection.

Claims (5)

1. a solar photovoltaic assembly moulding formula adhering and sealing structure, it is characterized in that, it is spliced by some pieces of solar photovoltaic assemblies (1), described every block solar photovoltaic assembly (1) includes square solar panels assembly (2) and is located at the four edges frame section (3) on solar panels assembly (2) four limit, the outer wall of described four edges frame section (3) is provided with the splicing wing for splicing adjacent solar photovoltaic assembly, the supporting plate (4) for support solar panels assembly (2) is provided with in the upper end of the inwall of described four edges frame section, the solar panels fixing glue (7) being used for fixing solar panels assembly (2) is provided with in the top of described supporting plate (4), described solar panels assembly (2) is placed on the top (36) that upper rear its upper surface (21) of supporting plate (4) exceeds shape of peripheral frame, described adjacent solar photovoltaic assembly is spliced non-contiguously by the splicing wing on respective shape of peripheral frame, between the gap, upper end of adjacent two pieces of solar photovoltaic assemblies, between the gap of the docking wing, and the solar panels assembly on adjacent solar photovoltaic assembly exceed the upper surface (21) of shape of peripheral frame top perpendicular wall between be provided with marine glue (5).
2. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1, it is characterized in that, front end (41) place of described supporting plate (4) is slightly to upwarping.
3. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2, it is characterized in that, the splicing wing on the outer wall of described four edges frame section (3) is opening up upper overlap joint groove (31) or downward opening lower overlap joint groove (32), after described adjacent solar photovoltaic assembly (1) is snapped together non-contiguously by upper and lower overlap joint groove (31), (32), the vertical edge outer wall of upper and lower overlap joint groove (31), (32) with its separately faced by shape of peripheral frame outer wall do not contact; Adjacent solar photovoltaic assembly is filled with marine glue between the gap in the upper above position of overlap joint groove.
4. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2, it is characterized in that, the splicing wing on the outer wall of described four edges frame section (3) is the lower lower overlap joint block (34) in the higher upper overlap joint block (33) in position or position, described adjacent solar photovoltaic assembly is by upper, lower overlap joint block (33), (34) stagger mutually and non-contiguously splicing after, on, lower overlap joint block (33), (34) vertical edge outer wall with its separately faced by shape of peripheral frame outer wall do not contact, and described lower overlap joint block (34) leading section extend into the bottom of overlap joint block (33), marine glue is filled with between the gap that adjacent solar photovoltaic assembly overlaps block (33) above position on being positioned at.
5. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2, is characterized in that, the splicing wing on the outer wall of described four edges frame section (3) is the contour docking wing (35); After described adjacent solar photovoltaic assembly is docked non-contiguously by the docking wing on respective shape of peripheral frame, in the gap of adjacent solar photovoltaic assembly upper end, be provided with the pad (6) that this can be sheltered from the gap between the docking wing; Marine glue is filled with between described this is to the gap of docking wing upper end.
CN201520809676.5U 2015-10-19 2015-10-19 Solar PV modules moulding formula sticking sealing structure Active CN205028908U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105185854A (en) * 2015-10-19 2015-12-23 广东大粤新能源科技股份有限公司 Solar energy photovoltaic assembly taping type bonding sealing structure

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105185854A (en) * 2015-10-19 2015-12-23 广东大粤新能源科技股份有限公司 Solar energy photovoltaic assembly taping type bonding sealing structure
CN105185854B (en) * 2015-10-19 2017-01-18 广东大粤新能源科技股份有限公司 Solar energy photovoltaic assembly taping type bonding sealing structure

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