CN107645274A - A kind of frame for being used to assemble photovoltaic battery panel - Google Patents

Abstract

The invention provides a kind of frame for being used to assemble photovoltaic battery panel, the frame includes the first grip block, the second grip block, substrate and at least two bulge-structures and at least two groove structures for connecting two adjacent photovoltaic components, and bulge-structure on two frames and groove structure can be mutually twisted connection；When adjacent photovoltaic module is attached by adjacent frame, one of frame overturns 180 ° relative to another frame.The frame at least has advantages below compared with prior art：Production cost is low, is easily installed maintenance, and can be directly mounted on the keel frame structure on domatic roof and be used as roof.

Description

A kind of frame for being used to assemble photovoltaic battery panel

Technical field

The present embodiments relate to solar-energy photo-voltaic cell accessory technical field, is used to assemble more particularly, to one kind The frame of photovoltaic battery panel.

Background technology

Photovoltaic power generation technology is according to photovoltaic effect principle, and solar energy is converted into electricity using solar cell Can, there is the advantages that reliability is high, and service life length, zero noise is convenient, flexible, green, in fossil energy increasingly depleted More prominent today, is widely used with environmental problem.

Solar photovoltaic cell panel is arranged on to the roof of factory building, house and public building, not only efficiently utilizes room Top area is generated electricity, and can reduce owner's electric cost expenditure, and the electric energy that can further send photovoltaic roof is sold to power network Company realizes profit.Existing photovoltaic roof is attached using traditional photovoltaic bracket, and photovoltaic battery panel is installed on plane roof Photovoltaic bracket on.

But it is plane that traditional photovoltaic bracket assembly method, which needs roof, while the weight of conventional photovoltaic rack body When also increasing the load-bearing requirements on roof, therefore using the installation of conventional photovoltaic support, structure is complex, and holistic cost is higher, and Not easy care.

The content of the invention

The embodiments of the invention provide it is a kind of overcome above mentioned problem or solve the above problems at least in part be used for fill Frame with photovoltaic battery panel.

The embodiments of the invention provide a kind of frame for being used to assemble photovoltaic battery panel, the photovoltaic battery panel includes multiple Photovoltaic cell, each photovoltaic cell form a photovoltaic module with corresponding one group of frame, and adjacent photovoltaic module passes through adjoining Frame be attached；

Each frame includes the first grip block, the second grip block, substrate and for connecting adjacent photovoltaic module extremely Few two bulge-structures and at least two groove structures；

First grip block and second grip block are located at the both sides up and down of the substrate, the frame protrusions knot The quantity of structure is identical with the quantity of groove structure, at least two bulge-structure and the substrate connection, and two sides Bulge-structure and groove structure on frame can be mutually twisted connection.

Wherein, the frame also includes the first sealing strip mounting groove, the second sealing strip mounting groove and two sealing strips, described Bulge-structure and groove structure in frame is between first sealing strip mounting groove and second sealing strip mounting groove； When adjacent photovoltaic module is attached by adjacent frame, one of frame is overturn relative to another frame 180 °, the side of each sealing strip and the first sealing strip mounting groove of frame one of them described are closely set with, described each close Second capillary groove of the opposite side of strip of paper used for sealing and frame another described is closely set with.

Wherein, the aerial one end of exposure is the cambered surface of evagination after each sealing strip installation.

Wherein, the frame includes two bulge-structures and two groove structures.

Wherein, the side of first grip block and second grip block is trapezoidal, and the two trapezoidal waists are with Angle between bottom is 45 °, and the upper bottom of first grip block and second grip block is set away from the substrate；Often The adjacent frame is connected by fastening bolt in one photovoltaic module.

Wherein, the gap between the frame adjacent in each photovoltaic module is less than 0.5mm.

It is provided in an embodiment of the present invention it is a kind of be used to assemble the frame of photovoltaic battery panel, by setting the first grip block and the Two grip blocks are used to be socketed with the edge of photovoltaic cell, bulge-structure is set and groove structure be used to realizing adjacent photovoltaic cell it Between connection, and need to only ensure that two frames mutually rotate 180 ° of assemblings, you can pass through the projection of connection unit on two frames Structure and groove structure are mutually twisted the connection for realizing two photovoltaic cells.Compared with prior art the frame at least have with Lower advantage：

(1) cost is low, the frame of the photovoltaic cell of same size only need out one set of die can mass production, be produced into This is low easy to spread；

(2) maintenance is easily installed, when wherein certain block photovoltaic cell damages, can be carried out more after need to only pulling out damage row Change, without dismantling monoblock photovoltaic battery panel；

(3) it is simple and light, it is not necessary to build extra photovoltaic support structure, the keel on domatic roof can be mounted directly Roof is used as on frame.

Brief description of the drawings

Fig. 1 is a kind of sectional view for being used to assemble the frame of photovoltaic battery panel provided in an embodiment of the present invention；

Fig. 2 is the sectional view after frame assembling described in two Fig. 1 in the embodiment of the present invention；

Fig. 3 is the sectional view of sealing strip in the embodiment of the present invention；

Fig. 4 is the schematic three dimensional views of two frames adjacent on a photovoltaic module in the embodiment of the present invention；

Fig. 5 is the schematic three dimensional views after two photovoltaic module assemblings in the embodiment of the present invention；

Reference：

The grip blocks of 1- first；The grip blocks of 2- second；

3- substrates；4- bulge-structures；

5- groove structures；The sealing strip mounting grooves of 6- first

The sealing strip mounting grooves of 7- second；8- sealing strips.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is explicitly described, it is clear that described embodiment be the present invention Part of the embodiment, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not having The every other embodiment obtained under the premise of creative work is made, belongs to the scope of protection of the invention.

Fig. 1 is a kind of sectional view for being used to assemble the frame of photovoltaic battery panel provided in an embodiment of the present invention, such as Fig. 1 institutes Show, a kind of to be used to assembling the frame of photovoltaic battery panel, the photovoltaic battery panel includes multiple photovoltaic cells, each photovoltaic cell and Corresponding one group of frame forms a photovoltaic module, and adjacent photovoltaic module is attached by adjacent frame；

Each frame includes the first grip block 1, the second grip block 2, substrate 3 and for connecting adjacent photovoltaic module At least two bulge-structures 4 and at least two groove structures 5；

First grip block 1 and second grip block 2 are located at the both sides up and down of the substrate 3, the frame convexity Play that the quantity of structure 4 is identical with the quantity of groove structure 5, and at least two bulge-structure 4 is connected with the substrate 3, and two Bulge-structure 4 and groove structure 5 on the individual frame can be mutually twisted connection.

Wherein, because photovoltaic battery panel is usually by being spliced by multiple photovoltaic cells, and photovoltaic cell is general To be socketed four frames by four sides to each photovoltaic cell with certain thickness square structure, the embodiment of the present invention Photovoltaic module is formed, then the splicing between each photovoltaic module is realized by the connection between the frame, is finally spliced To photovoltaic battery panel.

Specifically, one side of photovoltaic cell is realized by the first grip block 1 and the second grip block 2 with the frame and connected, During specific implementation, applied in the side of the close photovoltaic cell of the first grip block 1, the second grip block 2 and substrate 3 first Appropriate glass cement is covered, is then close to the upper following table of the photovoltaic cell respectively by the first grip block 1 and the second grip block 2 Face, withstands the edge on described photovoltaic cell one side by substrate 3, realizes clamping assembling, and causes the photovoltaic cell and described Frame adhesive is fitted together.The distance between first grip block 1 and the second grip block could be arranged to be slightly larger than photovoltaic to be assembled The thickness of battery, the length of the frame are equal to the length on the side of the photovoltaic cell to be assembled.

Bulge-structure 4 and groove structure 5 are after frame and photovoltaic cell mucilage binding, for two adjacent photovoltaic cells to be connected It is connected together, the frame of interconnection is all identical in appearance and size, and simply in assembling, one of frame rotates 180 °, So that the bulge-structure 4 and groove structure 5 on two frames can just be mutually twisted realization connection.The bulge-structure 31 Profile obtains through mechanics force design, one end edge direction parallel with the substrate 3 of each outwardly convex of bulge-structure 4 Extension, it is ensured that horizontal pull can also be born while spliced photovoltaic cell can bear pressure at right angle.

In specific assembling, assembled respectively on four edges of single solar cell four it is provided in an embodiment of the present invention Frame, form a photovoltaic module.According to the size for the solar panel to be spliced, the appropriate number of light is selected Lie prostrate component, it is possible to which other photovoltaic modulies mutually splice by the frame on each photovoltaic module and surrounding, finally constitute complete Solar panel.

The photovoltaic battery panel being assembled by a number of photovoltaic module, filled compared to traditional photovoltaic bracket With mode, it is not necessary to build extra photovoltaic support structure, and can be directly mounted at conduct on the keel frame structure on domatic roof Roof.

It should be noted that in actual production, the frame can be integrally formed by punching press, and technique is simple.

It is provided in an embodiment of the present invention it is a kind of be used to assemble the frame of photovoltaic battery panel, by setting the first grip block and the Two grip blocks are used to be socketed with the edge of photovoltaic cell, bulge-structure is set and groove structure be used to realizing adjacent photovoltaic component it Between connection, and need to only ensure that two frames mutually rotate 180 ° of assemblings, you can by the bulge-structure on two frames and recessed Slot structure is mutually twisted the connection for realizing two photovoltaic modulies.The frame at least has advantages below compared with prior art：

(1) cost is low, the frame of the photovoltaic cell of same size only need out one set of die can mass production, be produced into This is low easy to spread；

(2) maintenance is easily installed, when wherein certain block photovoltaic cell damages, can be carried out more after need to only pulling out damage row Change, without dismantling monoblock photovoltaic battery panel；

(3) it is simple and light, it is not necessary to build extra photovoltaic support structure, can be directly mounted at the dragon on domatic roof Roof is used as in skeleton structure.

Based on above-described embodiment, as shown in Fig. 2 the frame also includes the first sealing strip mounting groove 6, the second sealing strip is pacified Tankage 7 and two sealing strips 8, bulge-structure 4 and groove structure 5 in the frame are located at first sealing strip mounting groove 6 Between second sealing strip mounting groove 7；When adjacent photovoltaic module is attached by adjacent frame, one of them Frame is relative to 180 ° of another frame upset, the side of each sealing strip 8 and the first sealing strip of one of them frame Mounting groove 6 is closely set with, and the second capillary groove 7 of the opposite side and frame another described of each sealing strip 8 is closely set with.

Wherein, the both sides of each sealing strip 8 respectively with first sealing strip mounting groove 6 on a frame and Second sealing strip mounting groove 7 corresponding on another frame is closely set with, and can ensure that photovoltaic battery panel has well after assembling Sealing, being capable of water proof and dust proof.So that the photovoltaic battery panel after being assembled by the frame is more suitable for the roof for being used as house.

Further, as shown in figure 3, each sealing strip 8 exposes the arc that aerial one end is evagination after installing Face.

Specifically, the aerial one end of exposure is arranged to the cambered surface of evagination, a side after each sealing strip 8 is installed Face can enable the liquid such as rainwater smoothly to glide, and on the other hand can also be that photovoltaic battery panel plays certain Anti-bumping protection Effect.

Based on above-described embodiment, the frame includes two bulge-structures 4 and two groove structures 5.

Specifically, the quantity of the quantity of the bulge-structure 4 in the frame and groove structure 5 is both configured to two, both It can guarantee that and accept strength and stability after the frame assembling, can also reduce difficulty of processing as far as possible so as to further control side The production cost of frame.

Further, the groove of bulge-structure is arranged to U-shaped, and the end of the other end of bulge-structure is arranged to hemisphere Shape structure, the splicing between frame and frame can be made more convenient.

Based on above-described embodiment, as illustrated in figures 4-5, the side of first grip block 1 and second grip block 2 is ladder Shape, and the angle between the two trapezoidal waists and bottom is 45 °, and first grip block 1 and second grip block 2 Upper bottom set away from the substrate 3；The adjacent frame is connected by fastening bolt in each photovoltaic module.

Specifically, when square shaped photovoltaic cell is assembled, in order to avoid the interference between adjacent frame, by described The side of one grip block 1 and second grip block 2 is trapezoidal, and the angle between the two trapezoidal waists and bottom is 45°。

When all assembling upper side frame on four sides of a photovoltaic cell, two frames on adjacent both sides pass through fastening Bolt is connected with each other, and can further lift the stress intensity of photovoltaic battery panel after assembling.

Further, the gap between the frame adjacent in each photovoltaic module is less than 0.5mm.

Specifically, the gap between the first adjacent grip block 1 of two frames is smaller, photovoltaic battery panel after assembling Stability it is higher.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although The present invention is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that：It still may be used To be modified to the technical scheme described in foregoing embodiments, or equivalent substitution is carried out to which part technical characteristic； And these modification or replace, do not make appropriate technical solution essence depart from various embodiments of the present invention technical scheme spirit and Scope.

Claims (6)

1. a kind of frame for being used to assemble photovoltaic battery panel, the photovoltaic battery panel include multiple photovoltaic cells, it is characterised in that Each photovoltaic cell forms a photovoltaic module with corresponding one group of frame, and adjacent photovoltaic module is carried out by adjacent frame Connection；

Each frame include the first grip block, the second grip block, substrate and for connecting adjacent photovoltaic module at least two Individual bulge-structure and at least two groove structures；

First grip block and second grip block are located at the both sides up and down of the substrate, the frame relief structure Quantity is identical with the quantity of groove structure, at least two bulge-structure and the substrate connection, and on two frames Bulge-structure and groove structure can be mutually twisted connection.

2. frame according to claim 1, it is characterised in that the frame also includes the first sealing strip mounting groove, second close Strip of paper used for sealing mounting groove and two sealing strips, bulge-structure and groove structure in the frame are located at first sealing strip mounting groove Between second sealing strip mounting groove；When adjacent photovoltaic module is attached by adjacent frame, one of them Frame overturns 180 ° relative to another frame, and the side of each sealing strip and the first sealing strip of one of them frame are pacified Tankage is closely set with, and the second capillary groove of the opposite side and frame another described of each sealing strip is closely set with.

3. frame according to claim 2, it is characterised in that aerial one end of exposure after each sealing strip installation For the cambered surface of evagination.

4. frame according to claim 2, it is characterised in that the frame includes two bulge-structures and two groove knots Structure.

5. frame according to claim 2, it is characterised in that the side of first grip block and second grip block is It is trapezoidal, and the angle between the two trapezoidal waists and bottom is 45 °, and first grip block and second grip block Upper bottom set away from the substrate；The adjacent frame is connected by fastening bolt in each photovoltaic module.

6. frame according to claim 5, it is characterised in that in each photovoltaic module between the adjacent frame Gap is less than 0.5mm.