CN105185854B - Solar energy photovoltaic assembly taping type bonding sealing structure - Google Patents

Abstract

A solar energy photovoltaic assembly taping type bonding sealing structure comprises a plurality of solar energy photovoltaic assemblies; each solar energy photovoltaic assembly comprises a square solar panel assembly and four frame section bars arranged on four edges of the solar panel assembly; the outer walls of the four frame section bars is provided with a splicing wings used for splicing with adjacent solar energy photovoltaic assemblies; the top of the inner wall of the four frame section bars is provided with a bearing plate used for bearing the solar panel assembly; a solar panel fixing tape used for fixing the solar panel assembly is arranged above the bearing plate; the solar panel assembly is placed on the bearing plate, and the top surface of the solar panel assembly is higher than the top of the frame section bar; the adjacent solar energy photovoltaic assemblies are spliced in a non-contact manner through the splicing wings on each frame section bar; waterproof glue is arranged in the gap of splicing wings of two adjacent solar energy photovoltaic assemblies. The advantages are that the solar energy photovoltaic assembly taping type bonding sealing structure can generate power, is waterproof, dustproof, energy saving, and environment friendly.

Description

Solar photovoltaic assembly moulding formula adhering and sealing structure

Technical field

The present invention relates to solar energy, after referring in particular to polylith solar photovoltaic assembly is stitched together, adjacent solar energy Volt assembly top be respective solar panels assembly is docked with marine glue after can play the structure of sealing effectiveness.

Background technology

Continuous exploitation with non-renewable energy resources such as oil and coals and consumption, the utilization of this regenerative resource of solar energy More spread to each local.As shown in Figure 1, 2, solar photovoltaic assembly at this stage includes solar panels assembly 10 and uses To fixedly mount the four edges frame section 20 of solar panels assembly 10, to be provided with and can supply in the upper end of four edges frame-type 20 inwall Solar panels assembly 10 snaps onto its interior draw-in groove, is in 45 degree of inclined-plane at the two ends of each edge frame section, passes through between them Two ends insert the corner brace of respective corner brace slot to be attached respectively；When by solar photovoltaic assembly assembly to roof, first Support is loaded onto on roof, then is fixed to use on support by solar photovoltaic assembly, big according to the area of building roof Little longitudinally, laterally arranging placement solar photovoltaic assembly one by one by certain spacing, then fix them to support respectively On, until till the quantity of solar photovoltaic assembly required for installing.

But with solar energy under construction using increasingly increasing, in order to reduce material and installation cost, people are by the sun Photovoltaic module can combine with building roof, form solar photovoltaic building integration, be by polylith photovoltaic group Part converts solar energy into electrical energy playing after being stitched together or can also use as roof while other energy, and this is just Need the problem in view of waterproof, in being intended to be filled into institute with marine glue in the gap between every piece of solar photovoltaic assembly Some solar photovoltaic assemblies are stitched together, simultaneously in order to prevent rainwater from oozing from the space between solar panels assembly and draw-in groove Enter in draw-in groove, the place being close to the perpendicular wall of draw-in groove top fastening station on the solar panels assembly surface of every piece of solar photovoltaic assembly can be filled out Fill last layer marine glue；The mode currently filling marine glue in the gap between adjacent solar photovoltaic assembly is first at every piece too Fill in foam 40 in underclearance between sun energy photovoltaic module, then again marine glue 30 is filled in positioned at foam 40 top In gap, to complete all of solar photovoltaic assembly splicing；But due to the solar energy on current solar photovoltaic assembly Board component is installed in the inside of four edges frame section, is by respective shape of peripheral frame between therefore adjacent solar photovoltaic assembly Come to splice, and have trickle space in 45 degree of junctions 50 of four edges frame section, this trickle space is cannot Filled with marine glue and carry out waterproof, such rainwater will be from the sky of the shape of peripheral frame junction 50 of every piece of solar photovoltaic assembly After penetrating in draw-in groove in gap, it is flowed in house, therefore this solar photovoltaic assembly is not suitable as roof to use, For this applicant has invented a kind of adhering and sealing structure of the solar photovoltaic assembly being capable of waterproof.

Content of the invention

The purpose of the present invention is to be to overcome the deficiencies in the prior art, there is provided a kind of rational in infrastructure, can waterproof too Sun energy photovoltaic module moulding formula adhering and sealing structure, makes the solar photovoltaic building being built into integration roofing have energy-conserving and environment-protective Advantage.

In order to solve above-mentioned technical problem, the present invention adopts following technical proposals:

A kind of solar photovoltaic assembly moulding formula adhering and sealing structure, it is by some pieces of solar photovoltaic assembly splicings Become, every piece of described solar photovoltaic assembly includes square solar panels assembly and is located at solar panels assembly four side Four edges frame section, is provided with the splicing for splicing adjacent solar photovoltaic assembly on the outer wall of described four edges frame section The wing, is provided with the supporting plate for support solar panels assembly in the upper end of the inwall of described four edges frame section, described The top of supporting plate is provided with the solar panels fixing glue for fixing solar panels assembly；Described solar panels assembly is placed on After on supporting plate, its upper surface exceeds the top of shape of peripheral frame；Described adjacent solar photovoltaic assembly passes through respective frame type The splicing wing on material non-contiguously splices；Between the upper end gap of adjacent two pieces of solar photovoltaic assemblies, between the docking wing Between gap, and the solar panels assembly on adjacent solar photovoltaic assembly exceeds and sets between table above shape of peripheral frame top There is marine glue.

In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, before described supporting plate Slightly towards upwarping at end.

In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, described four edges frame-type The splicing wing on the outer wall of material is opening up upper overlap joint groove or downward opening lower overlap joint groove, described adjacent solar energy Volt assembly pass through upper and lower overlap joint groove non-contiguously snap together after, upper and lower overlap joint groove vertical edge outer wall with its each faced by Shape of peripheral frame outer wall does not contact；Adjacent solar photovoltaic assembly overlap on being located at be filled between the gap of the above position of groove anti- Glue.

In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, described four edges frame-type The splicing wing on the outer wall of material is the relatively low lower overlap joint block of the higher upper overlap joint block in position or position, described adjacent solar energy Volt assembly passes through after upper and lower overlap joint block is mutually staggered not in contact with ground splicing, the upper and lower overlap joint vertical edge outer wall of block and its respective face To shape of peripheral frame outer wall do not contact, and described lower overlap joint block leading section extend into overlap joint block bottom；The adjacent sun Photovoltaic module can overlap on being located at and be filled with marine glue between the gap of the above position of block.

In the improvement project to above-mentioned solar photovoltaic assembly moulding formula adhering and sealing structure, in described four edges frame The splicing wing on the outer wall of section bar is the contour docking wing；Described adjacent solar photovoltaic assembly passes through on respective shape of peripheral frame The docking wing non-contiguously dock after, be provided with the gap of adjacent solar photovoltaic assembly upper end can by this to docking the wing Between the pad that shelters from of gap；It is filled with marine glue between this described gap to docking wing upper end.

Compared with prior art, the invention has the beneficial effects as follows: the solar panels assembly due to it is being placed on supporting plate The top of shape of peripheral frame can be exceeded after upper, will be by the upper end of adjacent two pieces of solar photovoltaic assemblies when filling marine glue Solar panels assembly in portion gap and on adjacent solar photovoltaic assembly exceeds between the partly perpendicular wall of shape of peripheral frame top Fill up so that being by respective solar panels assembly waterproof between upper top in gap between adjacent solar photovoltaic assembly Glue carrying out bonding, such marine glue just by the solar panels assembly four of solar photovoltaic assembly while with per while corresponding frame In section bar between the gap between perpendicular wall, the gap of adjacent shape of peripheral frame junction and adjacent solar photovoltaic assembly between Gap all covers, and is not in space between four edges frame section junction for the rainwater and same photovoltaic group In solar panels assembly four corresponding shape of peripheral frame while per of part, the gap between perpendicular wall penetrates into the situation in house, makes After all solar photovoltaic assemblies must being spliced well, can also come as roof while playing and convert solar energy into electrical energy Use, so that solar photovoltaic assembly is built into solar photovoltaic building integration roofing, reach generating, waterproof and dustproof, section The effect of energy environmental protection.

[brief description]

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 the splicing schematic diagram between the adjacent solar photovoltaic assembly of the embodiment of the present invention one；

Fig. 4 is spliced top view between the embodiment of the present invention one polylith solar photovoltaic assembly；

Fig. 5 is the splicing schematic diagram between the adjacent solar photovoltaic assembly of the embodiment of the present invention two；

Fig. 6 is the splicing schematic diagram between embodiment of the present invention three adjacent solar photovoltaic assembly.

[specific embodiment]

A kind of solar photovoltaic assembly moulding formula adhering and sealing structure, as shown in Fig. 3 is to 6, it is by some blocks of solar energy Photovoltaic module 1 is spliced, and described every piece of 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 side, is provided with for splicing phase on the outer wall of described four edges frame section 3 The splicing wing of adjacent solar photovoltaic assembly, is provided with for support solar panels in the upper end of the inwall of described four edges frame section The supporting plate 4 of assembly 2, when installing solar panels assembly, first can fill the solar panels of q.s above supporting plate 4 Then the lower surface of solar panels assembly 2 is pasted and is fixed on supporting plate 4, install rear solar panels assembly 2 by fixing glue 7 Upper surface 21 exceed the top 36 of shape of peripheral frame, typically exceed 0.5-3mm；Described adjacent solar photovoltaic assembly passes through Each the splicing wing on shape of peripheral frame non-contiguously splices；Set between the upper end gap of adjacent two pieces of solar photovoltaic assemblies There is marine glue 5.The present invention, in assembly, first fixes one of solar photovoltaic assembly 1, is then existed according to the area on roof This block solar photovoltaic assembly is horizontal and vertical to be arranged to place solar photovoltaic assembly 1, in order to avoid cold by heat expansion one by one Contracting impact, toward horizontal and vertical put solar photovoltaic assembly during, respective on adjacent solar photovoltaic assembly The splicing wing on shape of peripheral frame will non-contiguously dock；After one piece of solar photovoltaic assembly of every placement, can first newly be put up Solar photovoltaic assembly be fixed on preprepared support, finally again marine glue 5 is filled into adjacent two blocks of solar energy Solar panels assembly in the upper end gap of photovoltaic module and on adjacent solar photovoltaic assembly exceeds shape of peripheral frame top Partly erect wall between, such marine glue just by the solar panels assembly four of solar photovoltaic assembly while with per while corresponding frame In section bar 3 between the gap between perpendicular wall, the gap of adjacent shape of peripheral frame junction and adjacent solar photovoltaic assembly between Gap all covered it can be seen that in the gap between adjacent solar photovoltaic assembly on push up between be by respective solar energy Board component 2 carries out bonding with marine glue, and after bonding, solar panels assembly and marine glue are fair, and whole roofing would not There is ponding, also will not make reduce generating efficiency because of bring dirty of ponding, so that generating efficiency remains stable.

From the aforegoing it can be seen that the marine glue of the present invention by the solar panels assembly four of solar photovoltaic assembly while with per while pair Gap between perpendicular wall, the gap of adjacent shape of peripheral frame junction and adjacent solar photovoltaic assembly in the shape of peripheral frame 3 answered Between gap all cover, thus without space between four edges frame section junction for the rainwater and same occur In the solar panels assembly four of solar photovoltaic assembly corresponding shape of peripheral frame 3 while per, the gap between perpendicular wall penetrates into room After situation in room is so that splice all solar photovoltaic assemblies well, go back while playing and convert solar energy into electrical energy Can use as roof, so that solar photovoltaic assembly is built into solar photovoltaic building integration roofing, reach and send out Electricity, waterproof and dustproof, the effect of energy-conserving and environment-protective.

To fill solar panels fixing glue to leave enough spaces above supporting plate, to reach solar panel group Part fixes stronger effect, as shown in Fig. 3,5,6, tilts slightly upwards at the described front end 41 of supporting plate 4.

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 to open Mouth upper overlap joint groove 31 upward or downward opening lower overlap joint groove 32, so upper and lower overlap joint groove plays the effect holding marine glue, Overcome current people to fill, using foam, the many disadvantages that gap is brought when building solar integration roofing；At this moment In order to avoid being affected by expanding with heat and contract with cold, adjacent solar photovoltaic assembly 1 is not connect by between upper and lower overlap joint groove 31,32 Contact to earth (be upper and lower overlap joint groove between horizontal direction and longitudinal direction between gap be intended 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 (i.e. in shape of peripheral frame Also enough gaps to be left in horizontal direction between outer vertical edge and the overlap joint groove vertical edge faced by it), thus can will prevent Glue is filled between the upper end gap of adjacent two pieces of solar photovoltaic assemblies, due to marine glue itself mobility and Toughness, it can partly be flowed between lower overlap joint groove and the shape of peripheral frame outer wall faced by it and may penetrate into upper and lower taking Between the gap of access slot, till being filled into the perpendicular wall of the upper surface 21 that solar panels assembly exceeds shape of peripheral frame top always.

In the present embodiment two, as shown in figure 5, it is higher to be provided with position on the outer wall of described four edges frame section 3 Upper overlap joint block 33 or the relatively low lower overlap joint block 34 in position, so upper and lower overlap joint block 33,34 mainly plays the work holding marine glue With overcoming current people to fill, using foam, the many disadvantages that gap is brought when building solar integration roofing. At this moment in order to avoid being affected by expanding with heat and contract with cold, described adjacent solar photovoltaic assembly is by upper and lower overlap joint block 33,34 Mutually it is staggered and non-contiguously (between the longitudinal direction of upper and lower overlap joint block, all leave gap) and overlap, upper and lower overlap joint after overlap joint is good The vertical edge outer wall of block 33,34 with its each faced by shape of peripheral frame outer wall do not contact (i.e. the upper and lower overlap joint vertical edge outer wall of block and its Also enough gaps will be had in the horizontal direction between shape of peripheral frame outer wall faced by each), and before described lower overlap joint block 34 End extend into the bottom of overlap joint block 33；So just can be from adjacent solar photovoltaic assembly being located in filling marine glue It is filled between the gap of the overlap joint above position of block, due to mobility and the toughness of marine glue itself, then it will portion It is diverted into overlapping in the gap between the vertical edge outer wall of block 33 and the shape of peripheral frame outer wall faced by it, and may penetrate into In gap between upper and lower overlap joint block 33,34, it is filled into the upper surface that solar panels assembly exceeds shape of peripheral frame top always Till 21 perpendicular wall.

In the present embodiment three, as shown in fig. 6, the splicing wing on the outer wall of described four edges frame section 3 is contour The docking wing 35；At this moment in order to avoid being affected by expanding with heat and contract with cold, adjacent solar photovoltaic assembly is by respective frame type The docking wing on material non-contiguously docks, and being provided with the gap of adjacent solar photovoltaic assembly upper end after docking can be by This pad 6 that gap between docking wing is sheltered from, described pad 6 mainly plays the effect holding marine glue, and right The effect connecing the wing is support pad 6, overcome current people build solar integration roofing when using foam to fill between The many disadvantages that gap is brought；So just can be filled with waterproof between this gap to docking wing upper end in filling marine glue Glue 6, till being filled into the perpendicular wall of the upper surface 21 that solar panels assembly exceeds shape of peripheral frame top always.

Although the present invention is described in detail with reference to above example, by the disclosure, those skilled in the art are shown And be clear to, and in the case of the principle in the present invention limiting without departing from described claim and scope, 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 is used for limiting The present invention, but it is defined by the subject-matter of the claims the scope of protection.

Claims (5)

1. a kind of solar photovoltaic assembly moulding formula adhering and sealing structure is it is characterised in that it is by some pieces of photovoltaics Assembly (1) is spliced, and described every piece of solar photovoltaic assembly (1) includes square solar panels assembly (2) and sets In the four edges frame section (3) on solar panels assembly (2) four side, the outer wall of described four edges frame section (3) is provided with use To splice the splicing wing of adjacent solar photovoltaic assembly, to be provided with for support in the upper end of the inwall of described four edges frame section The supporting plate (4) of solar panels assembly (2), is provided with for fixing solar panels assembly (2) in the top of described supporting plate (4) Solar panels fixing glue (7)；Described solar panels assembly (2) is placed on upper rear its upper surface (21) of supporting plate (4) and exceeds The top (36) of shape of peripheral frame；Described adjacent solar photovoltaic assembly is not contacted by the splicing wing on respective shape of peripheral frame Ground splicing；Between the upper end gap of adjacent two pieces of solar photovoltaic assemblies, between the gap of the docking wing, and the adjacent sun Solar panels assembly on photovoltaic module can exceed and be provided with marine glue between the perpendicular wall of upper surface (21) of shape of peripheral frame top (5).

2. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 is it is characterised in that described holds Front end (41) place of supporting plate (4) is slightly towards upwarping.

3. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2 is it is characterised in that described The outer wall of four edges frame section (3) on splicing the wing be opening up upper overlap joint groove (31) or downward opening lower overlap joint groove (32) after, described adjacent solar photovoltaic assembly (1) is non-contiguously snapped together by upper and lower overlap joint groove (31), (32), Upper and lower overlap joint groove (31), the vertical edge outer wall of (32) with its each faced by shape of peripheral frame outer wall do not contact；Adjacent photovoltaic Assembly overlaps on being located at and is filled with marine glue between the gap of the above position of groove.

4. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2 is it is characterised in that described The outer wall of four edges frame section (3) on the splicing wing be the relatively low lower overlap joint block of the higher upper overlap joint block (33) in position or position (34), described adjacent solar photovoltaic assembly passes through upper and lower overlap joint block (33), (34) are mutually staggered not in contact with ground splicing Afterwards, upper and lower overlap joint block (33), the vertical edge outer wall of (34) with its each 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)；Adjacent solar photovoltaic assembly overlaps block on being located at (33) it is filled with marine glue between the gap of above position.

5. solar photovoltaic assembly moulding formula adhering and sealing structure according to claim 1 and 2 is it is characterised in that in institute The splicing wing on the outer wall of four edges frame section (3) stated is the contour docking wing (35)；Described adjacent photovoltaic group After part is non-contiguously docked by the docking wing on respective shape of peripheral frame, in the gap of adjacent solar photovoltaic assembly upper end It is provided with the pad (6) that this can be sheltered to the gap between the docking wing；Described this to the gap of docking wing upper end it Between be filled with marine glue.