CN210956698U - Photovoltaic busbar bending device - Google Patents

Abstract

The utility model provides a photovoltaic busbar bending device, including mainboard and the turnover board that links to each other with the mainboard, turn over the folded plate pass through the hinge with a side of mainboard links to each other, be equipped with the holding surface that bears the weight of the photovoltaic cell cluster on the mainboard, be equipped with a plurality of linear arrangement's that are support region on the holding surface, turn over the folded plate and extend and turn over the length of folded plate and exceed two support region's length at least along the array direction of support region. Compared with the prior art, the utility model discloses a set up on one side of the mainboard and turn over the folded plate, utilize to turn over the folded plate and bend the operation simultaneously to the busbar of a plurality of battery clusters for busbar on each battery cluster can keep bending in step, and the position of bending and the degree of bending homoenergetic keep unanimous, are difficult to appear dislocation scheduling problem, turn over a bending that can accomplish a plurality of busbars in addition, have improved maneuverability greatly, have improved production efficiency.

Description

Photovoltaic busbar bending device

Technical Field

The utility model relates to a photovoltaic field especially relates to a photovoltaic busbar bending device.

Background

The photovoltaic module mainly comprises a transparent cover plate, a packaging adhesive film, battery strings and an insulating back plate, wherein all battery pieces in the battery strings are generally connected through welding strips, adjacent battery strings are generally connected through bus bars, and finally, the external output of electric energy is realized through bus bar leading-out ends. Therefore, the solder strips and the bus bars are indispensable connection elements in the conventional photovoltaic module, and enable the individual cells in the photovoltaic module to be electrically connected and output to the outside.

With the continuous development of the technology, more and more high-efficiency photovoltaic modules are gradually appeared, for example, tiled photovoltaic modules, such photovoltaic modules adopt a dense cell arrangement mode and cancel a solder strip, seamless connection between cells is realized through edge lap joint, and a bus bar at the tail end position of each string of cell strings generally needs to be folded towards the back side of the cell strings, so that the bus bar is not easy to observe from the front side of the photovoltaic module.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a photovoltaic busbar bending device to improve the inconvenient problem of operation of bending of busbar among the prior art.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a photovoltaic busbar bending device, includes mainboard and the board that turns over that links to each other with the mainboard, turn over the folded plate pass through the hinge with a side of mainboard links to each other, be equipped with the holding surface that bears the photovoltaic cell cluster on the mainboard, be equipped with a plurality of support areas that are linear arrangement on the holding surface, the length that turns over the folded plate and extend and turn over the folded plate along support areas's array direction surpasss two support areas's length at least.

Furthermore, the main board is provided with a connecting side connected with the turnover board, and the connecting side is provided with a long and narrow concave opening.

Furthermore, one side of the turnover plate is connected with the connecting side of the main plate through a hinge, and the connecting position is positioned in the concave opening.

Furthermore, the mainboard is rectangle, turn over the folded plate and be long and narrow type, and turn over the length and the width of folded plate and all be less than the mainboard.

Furthermore, the supporting surface is divided into a plurality of supporting areas through a plurality of scribing lines so as to respectively correspond to the plurality of cell strings, and a long and narrow interval area is reserved between every two adjacent supporting areas.

Further, the flap extends from one end of the recess to the other end, and the length of the flap is at least as long as or greater than the total length of all the support areas and the compartments.

Compared with the prior art, the utility model discloses a set up on one side of the mainboard and turn over the folded plate, utilize to turn over the folded plate and bend the operation simultaneously to the busbar of a plurality of battery clusters for busbar on each battery cluster can keep bending in step, and the position of bending and the degree of bending homoenergetic keep unanimous, are difficult to appear dislocation scheduling problem, turn over a bending that can accomplish a plurality of busbars in addition, have improved maneuverability greatly, have improved production efficiency.

Drawings

Fig. 1 is the utility model discloses a photovoltaic busbar bending device's schematic diagram.

Fig. 2 is a side view of the photovoltaic bus bar bending device of the present invention.

Detailed Description

Referring to fig. 1 and 2, the present invention provides a photovoltaic bus bar bending apparatus, which includes a main board 10 and a folding plate 20 connected to the main board 10, wherein the main board 10 is rectangular and is provided with a supporting surface 11 for supporting a photovoltaic cell string a, the supporting surface 11 is divided into a plurality of linearly arranged supporting regions 12 by a plurality of scribed lines 110, the supporting regions are respectively corresponding to a plurality of cell strings a, each supporting region 12 is used for placing a terminal of a cell string a, a long and narrow spacer region 13 is left between two adjacent supporting regions 12, and the spacer region 13 corresponds to a gap between two adjacent cell strings a. The main plate 10 is provided with a connecting side for connecting with the flap 20, and the connecting side is provided with an elongated concave opening 14 for receiving the flap 20.

The flap 20 is elongate and has a length and a width smaller than those of the main panel 10. The flap 20 is located in the concave opening 14, and one side of the flap 20 is connected with the main board 10 through a hinge 21, and the connection position is located in the concave opening 14. The flap 20 can be folded with respect to the main board 10 by the hinge 21, and the flap 20 is located above the supporting surface 11 of the main board 10 after being folded. It is worth mentioning, in order to increase the convenience of rolling over the operation, turn over the folded plate and extend and turn over the length of folded plate and reach or exceed two support region 12's length at least along the regional range direction of support, make like this turn over folded plate 20 turn over a busbar B that alright two at least battery clusters bend, its operating efficiency is far higher than the operating mode that every cluster of battery cluster was bent alone among the prior art, refer to fig. 2.

The folding plate 20 extends from one end of the concave opening 14 to the other end, and the length of the folding plate 20 is at least the same as or greater than the total length of all the support areas 12 and the spacing area 13, so that the folding plate 20 can act on the battery strings A in all the support areas 12 to ensure that the bus bars B on each battery string A can receive the folding operation of the folding plate 20. In the using process, each battery string A is placed according to the support area 12 marked by the scribed lines on the main board 10, after the placement, part of the bus bar B on each battery string A is placed on the turnover plate, then the turnover plate 20 can be operated to turn over the bus bar B upwards, the part of the bus bar B is further driven to turn over the bus bar B upwards, and finally the bus bar B is bent into each support area 12 along with the further turning over of the turnover plate 20.

To sum up, the utility model discloses a set up in mainboard 10 one side and turn over folded plate 20, utilize to turn over folded plate 20 and bend the operation simultaneously to a plurality of battery cluster A's busbar B for busbar B on each battery cluster A can keep bending in step, and the position of bending and the degree of bending homoenergetic remain unanimous, are difficult to the dislocation scheduling problem of appearing, turns over a bending that can accomplish a plurality of busbar B in addition, has improved maneuverability greatly, has improved production efficiency.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and those skilled in the art can make many variations and modifications of the technical solution of the present invention without departing from the scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a photovoltaic busbar bending device, includes mainboard and the board that turns over that links to each other with the mainboard, its characterized in that, turn over the folded plate pass through the hinge with a side of mainboard links to each other, be equipped with the holding surface that bears the weight of photovoltaic cell cluster on the mainboard, be equipped with a plurality of support areas that are linear arrangement on the holding surface, turn over the folded plate and extend and turn over the length of folded plate and exceed two support areas's length at least along the array direction of support area.

2. The photovoltaic bus bar bending apparatus according to claim 1, wherein: the main board is provided with a connecting side connected with the turnover board, and the connecting side is provided with a long and narrow concave opening.

3. The photovoltaic bus bar bending apparatus according to claim 2, wherein: one side of the turnover plate is connected with the connecting side of the main plate through a hinge, and the connecting position is positioned in the concave opening.

4. The photovoltaic bus bar bending apparatus according to claim 3, wherein: the mainboard is the rectangle, turn over the folded plate and be long and narrow type, and turn over the length and the width of folded plate and all be less than the mainboard.

5. The photovoltaic bus bar bending apparatus according to claim 4, wherein: the supporting surface is divided into a plurality of supporting areas through a plurality of scribing lines so as to respectively correspond to the plurality of cell strings, and a long and narrow interval area is reserved between every two adjacent supporting areas.

6. The photovoltaic bus bar bending apparatus according to claim 5, wherein: the flap extends from one end of the recess to the other end and has a length at least as long as or greater than the total length of all the support areas and the compartments.

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