CN216490312U - Splicing structure for installing BIPV assembly - Google Patents

Abstract

The utility model discloses a splicing structure for installing BIPV components, which comprises a plurality of photovoltaic component units spliced in sequence, wherein each photovoltaic component unit comprises a photovoltaic component and side frames arranged at two sides of the photovoltaic component, the splicing component is arranged between the two adjacent side frames, the splicing component comprises an inserting groove arranged on one of the two adjacent side frames and a splicing piece arranged on the other side frame and matched with the inserting groove, the length of the inserting groove is arranged along the length direction of the side frames, the inserting groove is used for limiting the movement of the splicing piece in the width direction and the height direction, the splicing structure can realize the connection between the two adjacent side frames by a splicing mode, does not need fastening of fasteners, has simpler operation process, improves the convenience in installation, also reduces the distance between the two adjacent side frames, and can install more photovoltaic components in a limited space, thereby, the power generation efficiency can be improved.

Description

Splicing structure for installing BIPV assembly

Technical Field

The utility model belongs to the technical field of the BIPV installation and specifically relates to a mosaic structure for installing BIPV subassembly is related to.

Background

Building integrated photovoltaics is a technology that integrates solar power (photovoltaic) products into a building, Building Integrated Photovoltaics (BIPV) is different from the form of photovoltaic systems attached to buildings, and can be divided into two major categories: the combination of the photovoltaic square matrix and the building is a common form, particularly the combination with a building roof.

In order to install the BIPV subassembly, chinese utility model patent that publication number is CN202022896432.9 discloses a BIPV photovoltaic part, including various steel tile, anchor clamps, briquetting, a plurality of photovoltaic module, various steel tile has the assembly area of a plurality of step, and a plurality of assembly interval separate the distribution, every the top in assembly area has the installation to collude. The clamp comprises a first clamping piece and a second clamping piece, and the first clamping piece and the second clamping piece are fixedly connected and clamp the mounting hook together. The pressing block covers the clamp, and the pressing block is fixedly connected with at least one of the first clamping piece and the second clamping piece. Every photovoltaic module all includes that panel and card are located the frame at panel border, in the photovoltaic module of two adjacent, the frame on a photovoltaic module's right side, another photovoltaic module's left frame are located the both sides that the installation colluded, and by same the bottom card of briquetting is supported same the assembly area, the briquetting includes roof and two curb plates, the roof with anchor clamps are connected through first fastener, two the curb plate is stopped respectively to support in two the frame is connected roof and anchor clamps through the fastener, makes the briquetting can be fixed by anchor clamps, and two curb plates of briquetting stop to support on two frames, can carry out the spacing of vertical direction to the frame.

But two adjacent frames of above-mentioned device need be connected through fastener and briquetting, have increased operating procedure, have reduced the convenience, and lead to the distance between two adjacent frames great for distance grow between two photovoltaic module, thereby only can install the photovoltaic module of less quantity in limited space, thereby produced the influence to generating efficiency, reduced the practicality.

Accordingly, there is a need for an improved splicing structure for mounting BIPV modules in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the defect that exists among the prior art, provide a mosaic structure for installing BIPV subassembly, improved the convenience when installing, also reduced the distance between the photovoltaic module, improved the generated energy.

In order to realize the technical effects, the utility model adopts the technical scheme that: the utility model provides a mosaic structure for installing BIPV subassembly, includes a plurality of photovoltaic module units of splicing in proper order, the photovoltaic module unit includes photovoltaic module and sets up in the frame of photovoltaic module both sides, is provided with the concatenation subassembly between two adjacent frames, the concatenation subassembly including set up in one of them inserting groove in two adjacent frames, set up on another with inserting groove assorted splicing piece, the length of inserting groove sets up along the length direction of frame, the inserting groove is used for restricting splicing piece width direction's removal and direction of height's removal.

Preferably, the insertion groove is a T-shaped groove.

Preferably, a connecting structure is connected between the splicing piece and the frame.

Preferably, the connecting structure comprises a slot arranged on the frame and a connecting piece arranged in the slot and connected with the splicing piece, the connecting piece is in clearance fit with the slot, an opening for the splicing piece to pass through is formed in the slot, the cross section of the connecting piece is circular, and the diameter of the connecting piece is larger than the width of the opening.

Preferably, a reinforcing part is arranged on the inner wall of the cavity of the frame, and the length of the reinforcing part extends along the length direction of the frame.

Preferably, the number of the splicing assemblies is at least two, and the splicing assemblies are distributed along the height direction of the frame.

Preferably, the splicing assemblies are arranged in a staggered mode.

To sum up, the utility model is used for installing the mosaic structure of BIPV subassembly compares with prior art, and this mosaic structure can realize the connection between two adjacent frames through the mode of concatenation, need not the fastener fastening, and operation process is more simple, has improved the convenience when installing, has also reduced the distance between two adjacent frames, can install more photovoltaic module in limited space to can improve the generating efficiency.

Drawings

Fig. 1 is a schematic structural view of a splicing structure for mounting BIPV modules according to the present invention;

fig. 2 is an enlarged view of a portion a of fig. 1.

In the figure: 1. the photovoltaic module, 2 the frame, 3 the splice, 4 the connecting piece, 5 the reinforcement.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-2, a mosaic structure for installing a BIPV assembly comprises a plurality of photovoltaic assembly units spliced in sequence, wherein each photovoltaic assembly unit comprises a photovoltaic assembly 1 and frames 2 arranged on two sides of the photovoltaic assembly 1, a mosaic assembly is arranged between every two adjacent frames 2, the mosaic assembly comprises an insertion groove arranged on one of the two adjacent frames 2 and a mosaic member 3 arranged on the other frame and matched with the insertion groove, the length of the insertion groove is arranged along the length direction of the frames 2, and the insertion groove is used for limiting the movement of the mosaic member 3 in the width direction and the movement of the mosaic member in the height direction.

In fact, the frames 2 are provided with clamping ports, two sides of the photovoltaic assembly 1 are respectively inserted into the clamping ports on the two frames 2, so that the function of clamping the photovoltaic assembly 1 by the frames 2 is realized, then the splicing piece 3 on one frame 2 in the two adjacent frames 2 is inserted into the inserting groove on the other frame 2, so that the splicing piece 3 cannot move back and forth in the inserting groove and cannot shake up and down, the two adjacent frames 2 can be abutted against each other, the splicing of the two adjacent frames 2 is realized, a plurality of photovoltaic assembly units can be spliced into a whole, and then the whole is installed on a building roof together, so that the installation work can be completed, the connection between the two adjacent frames 2 is completed by adopting a splicing mode, fasteners are not needed, the operation steps are reduced, the operation is simpler, and the convenience is improved, also reduced the clearance between two frames 2, not only can install more photovoltaic module 1 in limited space, improved generating efficiency, also can realize waterproof purpose for the rainwater can not flow through between two adjacent frames 2.

Preferably, the insertion groove is a T-shaped groove.

It should be noted that the splicing groove can be a T-shaped groove or a dovetail groove, and the splicing element 3 can be prevented from being separated from the splicing groove.

Preferably, a connecting structure is connected between the splicing member 3 and the frame 2.

Preferably, the connecting structure comprises a slot arranged on the frame 2 and a connecting piece 4 arranged in the slot and connected with the splicing piece 3, the connecting piece 4 is in clearance fit with the slot, an opening for the splicing piece 3 to pass through is formed in the slot, the cross section of the connecting piece 4 is circular, and the diameter of the connecting piece 4 is larger than the width of the opening.

It should be noted that the connection manner of the connecting member 4 and the frame 2 is as follows: insert connecting piece 4 in the slot of frame 2 earlier, install two stoppers respectively at the both ends of connecting piece 4 again, two stoppers are located the slot and just take place to lean on with frame 2 outside to can make connecting piece 4 can not shift out from the slot, but can rotate or remove in the slot, thereby can accomplish the work that connecting piece 4 installed in the slot of frame 2.

Through the connecting piece 4 that sets up, the connecting piece 4 can take place to rotate and remove in the slot, but the connecting piece 4 can not shift out from the slot to make and be in swing joint's state between splice 3 and the frame 2, when making frame 2 warp, splice 3 also can be very smooth insert the inserting groove in, avoid frame 2 to warp and cause the resistance for the concatenation work, thereby improved the smoothness degree of concatenation work.

Preferably, a reinforcing member 5 is arranged on the inner wall of the cavity of the frame 2, and the length of the reinforcing member 5 extends along the length direction of the frame 2.

Through the reinforcement 5 that sets up, can carry out a work of strengthening firm to frame 2, reduce the probability that deformation phenomenon appears in frame 2, avoid producing the resistance for concatenation work, improved the reliability.

Preferably, the number of the splicing assemblies is at least two, and the splicing assemblies are distributed along the height direction of the frame 2.

It should be noted that the number of the splicing assemblies may be one, two, or more than two, and the splicing connection between two adjacent frames 2 may be achieved.

Through setting up a plurality of concatenation subassemblies, increased the tie point between two adjacent frames 2 to can improve the stability of the concatenation connection between two adjacent frames 2.

Preferably, the splicing assemblies are arranged in a staggered mode.

It should be noted that, the inserting grooves in the splicing assembly can be arranged on the same frame 2, and also can be alternately and respectively arranged on two frames 2, so that the splicing assembly forms a staggered arrangement form, and the splicing connection between two adjacent frames 2 can be realized by the two arrangement modes.

Through setting up two adjacent inserting grooves on two frames 2 in turn, can be so that two adjacent frames 2 are spacing mutually to promote the effect of concatenation, make the concatenation that two adjacent frames 2 can be better together.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a mosaic structure for installing BIPV subassembly, includes a plurality of photovoltaic module units of splicing in proper order, the photovoltaic module unit includes photovoltaic module (1) and sets up in frame (2) of photovoltaic module (1) both sides, is provided with splicing assembly, its characterized in that between two adjacent frames (2):

the splicing assembly comprises an insertion groove formed in one of the two adjacent frames (2) and a splicing piece (3) arranged on the other frame and matched with the insertion groove, the length of the insertion groove is arranged along the length direction of the frames (2), and the insertion groove is used for limiting the movement of the splicing piece (3) in the width direction and the movement of the splicing piece in the height direction.

2. The splice structure for mounting BIPV assemblies as claimed in claim 1, wherein: the inserting groove is a T-shaped groove.

3. The splice structure for mounting BIPV assemblies as claimed in claim 1, wherein: and a connecting structure is connected between the splicing piece (3) and the frame (2).

4. The splicing structure for mounting BIPV assemblies according to claim 3, wherein: the connecting structure comprises a slot arranged on the frame (2) and a connecting piece (4) arranged in the slot and connected with the splicing piece (3), the connecting piece (4) is in clearance fit with the slot, an opening used for the splicing piece (3) to penetrate is formed in the slot, the cross section of the connecting piece (4) is circular, and the diameter of the connecting piece (4) is larger than the width of the opening.

5. The splice structure for mounting BIPV assemblies as claimed in claim 1, wherein: be equipped with reinforcement (5) on the inner wall of the die cavity of frame (2), the length of reinforcement (5) extends along the length direction of frame (2).

6. The splice structure for mounting BIPV assemblies as claimed in claim 1, wherein: the number of the splicing assemblies is at least two, and the splicing assemblies are distributed along the height direction of the frame (2).

7. The splicing structure for mounting BIPV assemblies according to claim 6, wherein: the splicing assemblies are arranged in a staggered mode.

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