JP6803711B2 - Photoelectric device - Google Patents

Description

The present invention relates to a photovoltaic device.

FIG. 14 of Patent Document 1 below discloses a plurality of solar cell strings in which a plurality of solar cells are connected in series along a first side in a rectangular arrangement region, and the plurality of solar cell cell strings are disclosed. Are arranged in the direction of the second side that intersects the first side. Of the plurality of solar cell cell strings, two adjacent solar cell cell strings are connected by inter-string wiring, and the inter-string wiring is provided on the second side and the side facing the second side. ing. One end and the other end of the plurality of solar cell cell strings are connected to the terminal portion on the back surface side by a routing wiring routed from the opposite direction to the outside of the second side. With such a configuration, a configuration in which the positive electrode and negative electrode terminals are provided in one terminal portion has been realized.

Japanese Unexamined Patent Publication No. 2005-2404046

However, it has been difficult to reduce the size of the conventional photovoltaic device. That is, in the conventional photovoltaic device, the routing wiring and the string-to-string wiring are arranged outside the same second side. Therefore, in order to secure these insulations, the routing wiring and the string-to-string wiring are arranged. It was necessary to arrange them at a sufficient distance, and as a result, it was difficult to reduce the size.

The present disclosure has been made in view of the above problems, and an object of the present disclosure is to realize miniaturization of a photovoltaic device.

(1) The photovoltaic device according to the present disclosure is arranged along a first side in a rectangular arrangement area, and a plurality of lights arranged in a second side direction intersecting the first side. A photovoltaic cell string group including the photovoltaic cell string, a terminal portion provided on the back surface side of the photovoltaic cell string group via an insulating base material, and a first end of the photovoltaic cell string group. The first wiring connected to the terminal portion, extending to the back surface side of the photovoltaic cell string group via the outside of the first side, and the photovoltaic cell string group. A second wiring connected to the second end, extending to the back surface side of the photovoltaic cell string group via the outside of the third side facing the first side, and connected to the terminal portion. And, the said photovoltaic cell string group connects the ends of two adjacent photovoltaic cell strings among the plurality of photovoltaic cell strings, and the second side or the first. Includes string-to-string wiring located outside the fourth side facing the second side.

(2) In the photovoltaic device according to (1) above, the quadrangle may be a rectangle, and the first side may be the long side of the rectangle.

(3) In the photovoltaic device according to the above (1) to (2), the sum of the length of the first wiring and the length of the second wiring located on the back surface of the photovoltaic cell string group is It may be shorter than the sum of the length of the first wiring arranged outside the first side and the length of the second wiring arranged outside the third side.

(4) In the photovoltaic device according to the above (1) to (2), the sum of the length of the first wiring and the length of the second wiring located on the back surface of the photovoltaic cell string group is It may be shorter than the first side.

(5) In the photovoltaic device according to (1) to (4) above, the number of photovoltaic cell strings included in the photovoltaic cell string group may be an odd number of 3 or more.

FIG. 1 is a perspective view showing an outline of a photovoltaic cell string of the photovoltaic device according to the present embodiment as viewed from the back surface side. FIG. 2 is a back view showing an outline of the photovoltaic device according to the present embodiment. FIG. 3 is a back view showing an outline of the photovoltaic device according to the present embodiment. FIG. 4 is a back view showing an outline of the photovoltaic device according to the present embodiment. FIG. 5 is a back view showing an outline of the photovoltaic device according to the present embodiment. FIG. 6 is an exploded perspective view of the photovoltaic device according to the present embodiment as viewed from the back surface side. FIG. 7 is a perspective view showing an outline of the photovoltaic device according to the present embodiment as viewed from the back surface side. FIG. 8 is a surface view showing an outline of the photovoltaic device according to the present embodiment.

The embodiments of the present disclosure will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an outline of a photovoltaic cell string of the photovoltaic device according to the present embodiment as viewed from the back surface side. In this embodiment, the first photovoltaic cell string 11 includes six solar cells (1A-1F). Each solar cell has a light receiving surface and a back surface. Two bus bar electrodes on the light receiving surface side are formed on the light receiving surface in the extending direction of the first photovoltaic cell string 11. Further, on the back surface, two back surface side bus bar electrodes are formed in the extending direction of the first photovoltaic cell string 11. The light receiving surface side bus bar electrode and the back surface side bus bar electrode act as a negative electrode and a positive electrode, respectively.

Adjacent solar cells in the first photovoltaic cell string 11 are connected in series by the first string wiring 31. That is, the light receiving surface side bus bar electrode (negative electrode) of one solar cell is connected to the back surface side bus bar electrode (positive electrode) of the adjacent solar cell. As a result, the plurality of solar cells in the first photovoltaic cell string 11 are connected in series by the first string wiring 31.

The first solar cell 1A provided at one end of the first photovoltaic cell string 11 is electrically connected to the positive electrode of the terminal portion described later. The sixth solar cell 1F provided at the other end of the first photovoltaic cell string 11 is electrically connected to the negative electrode of the terminal portion described later via another photovoltaic cell string or the like. ..

FIG. 2 is a back view showing an outline of the photovoltaic device according to the present embodiment. FIG. 8 is a surface view showing an outline of the photovoltaic device according to the present embodiment.

As shown in FIGS. 2 and 8, the photovoltaic device 100 includes a first photovoltaic cell string 11, a second photovoltaic cell string 12, and a third photovoltaic cell string 13. doing. The second photovoltaic cell string 12 and the third photovoltaic cell string 13 have a plurality of solar cells and the plurality of solar cells, similarly to the first photovoltaic cell string 11 described above. The second string wiring 32 and the third string wiring 33 are included. In FIGS. 2 and 8, for convenience, each of the first string wiring 31, the second string wiring 32, and the third string wiring 33 is indicated by one line, but as shown in FIG. In addition, each string wiring may be composed of two light receiving surface side bus bar electrodes and a back surface side bus bar electrode, and the number of bus bar electrodes constituting each string wiring is not limited to this drawing.

The first photovoltaic cell string 11, the second photovoltaic cell string 12, and the third photovoltaic cell string 13 are arranged in the arrangement area 20 of the quadrangle, and the first side of the quadrangle is arranged. It is arranged along 21. Further, the first photovoltaic cell string 11, the second photovoltaic cell string 12, and the third photovoltaic cell string 13 are arranged in the direction of the second side 22 intersecting the first side 21. ing.

The first photovoltaic cell string 11 and the second photovoltaic cell string 12 are electrically connected by a first inter-string wiring 41 arranged outside the second side 22. Further, the second photovoltaic cell string 12 and the third photovoltaic cell string 13 are connected to the second inter-string wiring 42 arranged outside the fourth side 24 facing the second side 22. Is electrically connected by.

In this way, the photovoltaic cell string group 50 in which a plurality of photovoltaic cell strings are electrically connected is configured. The quadrangle arrangement area 20 is a quadrangle having the smallest area among the quadrangles circumscribing the photovoltaic cell string group 50, and includes, for example, a square, a rectangle, and a parallelogram. The arrangement area 20 in the present embodiment is a rectangle circumscribing the photovoltaic cell string group 50.

The photovoltaic cell string group 50 has a first end 51 and a second end 52. In the present embodiment, the first end 51 is the end of the first string wiring 31 drawn from the first solar cell 1A included in the first photovoltaic cell string 11, and the second end. Reference numeral 52 denotes an end portion of the third string wiring 33 drawn from the seventh solar cell 3F included in the third photovoltaic cell string 13.

An insulating base material 80 is provided on the back surface side of the photovoltaic cell string group 50, and a terminal portion 60 is provided on the back surface side of the insulating base material 80. The terminal portion 60 has a positive electrode 60A and a negative electrode 60B. The first end 51 of the photovoltaic cell string group 50 is electrically connected to the positive electrode 60A of the terminal portion 60 by the first wiring 71, and the second end 52 is connected to the terminal portion 60 by the second wiring 72. It is electrically connected to the negative electrode 60B of. Here, the first wiring 71 extends to the back surface side of the insulating base material 80, that is, the back surface side of the photovoltaic cell string group 50 via the outside of the first side 21 in the rectangular arrangement region 20. doing. The second wiring 72 extends to the back surface side of the insulating base material 80 via the outside of the third side 23 facing the first side 21.

FIG. 6 is an exploded perspective view showing an outline of the photovoltaic device according to the present embodiment as viewed from the back surface side. FIG. 7 is a perspective view seen from the back surface side showing an outline of the photovoltaic device according to the present embodiment.

The above-mentioned insulating base material 80 is arranged on the back surface side of the photovoltaic cell string group 50, and the first wiring 71 and the second wiring 72 are routed to the back surface side of the insulating base material 80. Has been done. Due to the presence of the insulating base material 80, the first wiring 71 and the second wiring 72 are insulated from the back surface side wiring of the photovoltaic cell string group 50. In the photovoltaic device 100 according to the present embodiment, the above-mentioned insulating base material 80 is arranged on the back surface side of the photovoltaic cell string group 50, but the first wiring 71 and the second wiring As 72, wiring coated with an insulating member may be used.

A first insulating sheet 81 is provided on the back surface side of the insulating base material 80, the first wiring 71, and the second wiring 72, and is provided at a substantially central portion of the first insulating sheet 81. Is provided with a through hole 81A. On the back surface side of the insulating base material 80, the ends of the first wiring 71 and the second wiring 72 are bent toward the back surface side. The bent end portion is inserted into the through hole 81A provided in the first insulating sheet 81, and as shown in FIG. 7, the terminal portion 60 provided on the back surface side of the first insulating sheet 81 is inserted. Be connected. In FIG. 7, one first insulation sheet is provided with the two first insulation sea 81 and the second insulation sheet 82 shown in FIG. 6 sandwiching the photovoltaic cell string group 50. It is integrated as a sheet 81.

A second insulating sheet 82 and a glass base material 83 are provided on the front surface side of the photovoltaic cell string group 50, and the front and back surfaces of the photovoltaic cell string group 50 are covered with an insulating material.

With such a configuration, the first wiring 71, the second wiring 72, the first inter-string wiring 41, and the second inter-string wiring 42 are arranged outside the different sides in the rectangular arrangement area 20, respectively. be able to. That is, the first wiring 71 is outside the first side 21 in the rectangular arrangement area 20, the second wiring 72 is outside the third side 23 facing the first side 21, and the first inter-string wiring. 41 can be arranged outside the second side 22, and the second inter-string wiring 42 can be arranged outside the fourth side 24 facing the second side 22. As a result, the configuration is such that the distance between the wirings can be easily secured, and the photovoltaic device 100 can be downsized.

In the present embodiment, the first side 21 and the third side 23 are the long sides in the rectangular arrangement area 20, and the second side 22 and the fourth side 24 are the short sides. , As shown in FIG. 3, the reverse configuration may be used. In the configuration shown in FIG. 3, nine photovoltaic cell strings are arranged along the first side 21 which is the short side in the rectangular arrangement area 20 and in the direction of the second side 22 which is the long side. It is arranged. Even in such a configuration, the first wiring 71 for routing the first end 51 of the photovoltaic cell string group 50 to the back surface side is arranged outside the first side 21, and the second end 52 is routed to the back surface side. A plurality of inter-string wires 44, which are arranged outside the third side 23 facing the first side 21 and connect the ends of two adjacent photovoltaic cell strings, are provided with a second wire 72. By arranging the wiring outside the side 22 or the outside of the fourth side 24 facing the second side 22, each wiring can be arranged outside the different side in the rectangular arrangement area 20.

However, in a configuration in which the terminal portion 60 is provided at one location on the back surface side, in order to improve the reliability of the solar cell, the first wiring 71 and the second wiring 72 are arranged as shown in FIG. It is desirable that the first side 21 and the third side 23 be the long sides in the rectangular arrangement area 20. In order to connect the first wiring 71 and the second wiring 72 to the terminal portion 60 provided on the back surface side, these first wiring 71 and the second wiring 72 are also arranged on the back surface side of the solar cell. There is a need to. However, if the first wiring 71 and the second wiring 72 are arranged on the back surface side of the solar cell, stress corresponding to the thickness of the first wiring 71 and the second wiring 72 may be applied to the solar cell. is there. Therefore, by providing the first wiring 71 and the second wiring 72 on the long side side in the rectangular arrangement area 20, the lengths of the first wiring 71 and the second wiring 72 located on the back surface side of the solar cell are provided. The wiring can be shortened, and the reliability of the solar cell can be improved. Further, since the number of photovoltaic cell strings can be reduced and the number of wirings between strings can be reduced, it is desirable from the viewpoint of manufacturing efficiency.

Further, by adopting the configuration as shown in FIG. 2, it is possible to overcome the drawback when the number of photovoltaic cell strings included in the photovoltaic cell string group 50 is an odd number of 3 or more, and the photovoltaic cell strings can be overcome. The degree of freedom in designing the device 100 can be increased. That is, when the number of photovoltaic cell strings included in the photovoltaic cell string group 50 is an odd number of 3 or more, the first end 51 and the second end 52 of the photovoltaic cell string group 50 are rectangular arrangement areas 20. Since it occurs diagonally in the above, the lengths of the first wiring 71 and the second wiring 72 become long in order to connect to the terminal portion 60 arranged at one place on the back surface side. When the lengths of the first wiring 71 and the second wiring 72 become long, there is a risk that the first wiring 71 and the second wiring 72 come close to the inter-string wiring on the outside of each side in the rectangular arrangement area 20. In addition, the risk of applying stress to the solar cell increases on the back surface side of the solar cell. However, by adopting the configuration of the embodiment shown in FIG. 2, even when the number of photovoltaic cell strings included in the photovoltaic cell string group 50 is an odd number of 3 or more, each wiring is arranged in the rectangular arrangement area 20. The configuration of arranging the wires outside the different sides in the above and the configuration of shortening the lengths of the first wiring 71 and the second wiring 72 located on the back surface side of the solar cell can be compatible with each other.

As shown in FIG. 4, the first wiring 71 and the second wiring 72 on the back surface side are extended obliquely with respect to the first side 21 in the rectangular arrangement area 20 and connected to the terminal portion 60. It may be configured. However, for the reason of improving the reliability of the solar cell described above, the sum of the lengths of the first wiring 71 and the second wiring 72 located on the back surface side is shorter than the long side of the rectangular arrangement area 20. Is desirable. Alternatively, it is closer to the back surface side of the solar cell than the sum of the length of the first wiring 71 located outside the first side 21 and the length of the second wiring 72 located outside the third side 23. It is desirable that the sum of the lengths of the first wiring 71 and the second wiring 72 located are short.

As shown in FIG. 5, the number of photovoltaic cell strings included in the photovoltaic cell string group 50 may be an even number. In the embodiment shown in FIG. 5, in addition to the configuration of the embodiment shown in FIG. 2, the photovoltaic cell string group 50 further includes a fourth photovoltaic cell string 14. The first photovoltaic cell string 11 and the second photovoltaic cell string 12 are connected by a first inter-string wiring 41. The second photovoltaic cell string 12 and the third photovoltaic cell string 13 are connected by a second inter-string wiring 42. The third photovoltaic cell string 13 and the fourth photovoltaic cell string 14 are connected by a third string-to-string wiring 43.

When the number of photovoltaic cell strings is even, the first end 51 and the second end 52 of the photovoltaic cell string group 50 are the first wiring 71 and the first wiring 71, respectively, from the fourth side 24 side. It is routed to the back surface side by the wiring 72 of 2 and connected to the terminal portion 60. The first wiring 71 is arranged outside the first side 21, and the second wiring 72 is arranged outside the third side 23 facing the first side 21.

On the other hand, the first inter-string wiring 41 and the third inter-string wiring 43 are arranged outside the second side 22, and the second inter-string wiring 42 is arranged outside the fourth side 24. With such a configuration, each wiring can be arranged on the outside of a different side.

1A 1st solar cell, 1B 2nd solar cell, 1C 3rd solar cell, 1D 4th solar cell, 1E 5th solar cell, 1F 6th solar cell, 3F 7 solar cells, 11 1st photovoltaic cell string, 12 2nd photovoltaic cell string, 13 3rd photovoltaic cell string, 14 4th photovoltaic cell string, 20 placement area, 21 1st side, 22 2nd side, 23 3rd side, 24 4th side, 31 1st string wiring, 32 2nd string wiring, 33 3rd string wiring, 41 1st string Inter-wiring, 42 Second inter-string wiring, 43 Third inter-string wiring, 44 Multiple inter-string wiring, 50 Photoelectric cell string group, 51 1st end, 52 2nd end, 60 terminal part, 60A positive electrode , 60B negative electrode, 71 first wiring, 72 second wiring, 80 insulating base material, 81 first insulating sheet, 81A through hole, 82 second insulating sheet, 83 glass base material, 100 Electrical equipment.

Claims (5)

A group of photovoltaic cell strings arranged along a first side in a quadrangular arrangement area and including a plurality of photovoltaic cell strings arranged in the direction of a second edge intersecting the first edge. ,
A terminal portion provided on the back surface side of the photovoltaic cell string group via an insulating base material, and
A first unit that is connected to the first end of the photovoltaic cell string group, extends to the back surface side of the photovoltaic cell string group via the outside of the first side, and is connected to the terminal portion. Wiring and
It is connected to the second end of the photovoltaic cell string group, extends to the back surface side of the photovoltaic cell string group via the outside of the third side facing the first side, and the terminal portion. Includes a second wire, which is connected to
The photovoltaic cell string group
Of the plurality of photovoltaic cell strings, the ends of two adjacent photovoltaic cell strings are connected and arranged outside the second side or the fourth side facing the second side. A photovoltaic device that includes interstring wiring. The quadrangle is a rectangle, and the first side is the long side of the rectangle.
The photovoltaic device according to claim 1. The sum of the length of the first wiring located on the back surface of the photovoltaic cell string group and the length of the second wiring located on the back surface of the photovoltaic cell string group is
It is shorter than the sum of the length of the first wiring arranged outside the first side and the length of the second wiring arranged outside the third side.
The photovoltaic device according to claim 1 or 2. The sum of the length of the first wiring located on the back surface of the photovoltaic cell string group and the length of the second wiring located on the back surface of the photovoltaic cell string group is from the first side. Also short. The photovoltaic device according to claim 1 or 2. The number of photovoltaic cell strings included in the photovoltaic cell string group is an odd number of 3 or more.
The photovoltaic device according to any one of claims 1 to 4.

Images