JP5857242B2 - Solar cell module and installation structure thereof - Google Patents

Description

  The present invention relates to a solar cell module and its installation structure.

  Patent Document 1 describes a solar cell module having a module body having a solar cell and a frame. In the solar cell module described in Patent Document 1, the frame is provided so as to surround the module main body. The frame is composed of four linear frame pieces. The frame is provided with a groove that opens toward the module body. The module body is inserted into the groove. The frame has a portion provided on the main surface on the light receiving surface side of the module body. A portion provided on the main surface of the frame body on the light receiving surface side of the module body is provided with a notch for draining water. For this reason, the water on the main surface on the light receiving surface side of the module body is efficiently discharged.

Japanese Utility Model Publication No. 6-17257

  For example, when solar cell modules are laid on the roof of a house, the solar cell modules are densely laid without a gap in order to achieve high output characteristics. When laid densely without a gap, as described in Patent Document 1, even if a notch for draining is provided on the main surface of the frame body on the light receiving surface side of the module body, In some cases, the water discharge efficiency on the main surface on the light receiving surface side of the module body cannot be sufficiently high.

  The main object of the present invention is to provide a solar cell module excellent in water discharge efficiency on the main surface on the light receiving surface side of the module body.

  The solar cell module according to the present invention includes a rectangular module main body and a frame. The module body includes a solar cell. The frame is provided so as to surround the module body. The frame has a first frame piece. The first frame piece is disposed outside the one end surface of the module body. The first frame piece includes a first part, a second part, a third part, and a fourth part. The first portion is disposed on one main surface of the module main body. The second portion is disposed on the other main surface of the module body. The third portion is disposed outside the one end surface of the module body. The third part connects the first part and the second part. The fourth portion extends outward from a connection portion between the first portion and the third portion. The fourth portion has a through hole penetrating in the thickness direction.

The installation structure of the solar cell module according to the present invention includes a plurality of solar cell modules. The solar cell module includes a rectangular module body and a frame. The module body includes a solar cell. The frame is provided so as to surround the module body. The frame has a first frame piece. The first frame piece is disposed outside the one end surface of the module body. The first frame piece includes a first part, a second part, a third part, and a fourth part. The first portion is disposed on one main surface of the module main body. The second portion is disposed on the other main surface of the module body. The third portion is disposed outside the one end surface of the module body. The third part connects the first part and the second part. The fourth portion extends outward from a connection portion between the first portion and the third portion. The fourth portion has a through hole penetrating in the thickness direction. The first frame piece further includes a fifth portion. The fifth portion extends from the outer end portion of the fourth portion in parallel with the one end surface. The frame further has a second frame piece. The second frame piece is disposed outside the other end surface parallel to the one end surface of the module body. The second frame piece includes a sixth portion, a seventh portion, an eighth portion, a ninth portion, and a tenth portion. The sixth portion is disposed on one main surface of the module main body. The seventh portion is disposed on the other main surface of the module body. The eighth portion is disposed outside the one end surface of the module body. The eighth part connects the sixth part and the seventh part. The ninth portion extends outward from a connection portion between the sixth portion and the eighth portion. The tenth portion extends in parallel with the one end surface from the outer end portion of the ninth portion. The plurality of solar cell modules are laid so that the fifth portion and the tenth portion are in contact with each other.

  ADVANTAGE OF THE INVENTION According to this invention, the solar cell module excellent in the discharge efficiency of the water on the main surface by the side of the light-receiving surface of a module main body can be provided.

1 is a schematic plan view of a solar cell module according to an embodiment of the present invention. It is a schematic back view of a solar cell module according to an embodiment of the present invention. FIG. 3 is a schematic cross-sectional view taken along line III-III in FIG. 1. FIG. 4 is a schematic cross-sectional view taken along line IV-IV in FIG. 1. FIG. 5 is a schematic cross-sectional view taken along line VV in FIG. 1. FIG. 6 is a schematic cross-sectional view taken along line VI-VI in FIG. 1. It is schematic-drawing sectional drawing in line VII-VII of FIG. It is a typical top view of the installation structure of the solar cell module in one Embodiment of this invention.

  Hereinafter, an example of the preferable form which implemented this invention is demonstrated. However, the following embodiment is merely an example. The present invention is not limited to the following embodiments.

  Moreover, in each drawing referred in embodiment etc., the member which has a substantially the same function shall be referred with the same code | symbol. The drawings referred to in the embodiments and the like are schematically described, and the ratio of the dimensions of the objects drawn in the drawings may be different from the ratio of the dimensions of the actual objects. The dimensional ratio of the object may be different between the drawings. The specific dimensional ratio of the object should be determined in consideration of the following description.

  As shown in FIGS. 1 and 2, the solar cell module 1 includes a module main body 10 and a frame body 20. The module body 10 includes a solar cell 11. Specifically, the module body 10 has a plurality of solar cells 11 that are electrically connected by a wiring material (not shown). The solar cell 11 is arranged in a filler layer provided between the first protective member and the second protective member. Each of the first and second protective members can be composed of a glass plate, a resin sheet, a resin sheet provided with a metal layer, or the like. The filler layer can be composed of, for example, a crosslinkable resin such as ethylene / vinyl acetate copolymer or a non-crosslinkable resin such as polyolefin.

  The module body 10 has a rectangular shape. As shown in FIGS. 3 to 6, the module body 10 includes first and second end faces 10 a and 10 b that are parallel to each other, and third and fourth end faces 10 c and 10 d that are parallel to each other.

  The frame body 20 is provided in a frame shape so as to surround the module main body 10. As shown in FIGS. 3 to 6, the frame body 20 has a groove 20 a into which an end edge portion of the module body 10 is inserted. An adhesive that bonds the frame 20 and the module main body 10 may be provided in the groove 20a. The adhesive material may have a function as a water stop material. The adhesive material can be composed of, for example, silicone resin, silicone rubber, butyl rubber, adhesive material, adhesive tape, adhesive tape, and the like.

  The frame body 20 includes a first frame piece 21, a second frame piece 22, a third frame piece 23, and a fourth frame piece 24. The 1st frame piece 21 is distribute | arranged to the outer side of the 1st end surface 10a. The 2nd frame piece 22 is distribute | arranged to the outer side of the 2nd end surface 10b. The third frame piece 23 is disposed outside the third end face 10c. The fourth frame piece 24 is disposed outside the fourth end face 10d.

  As shown in FIGS. 3 and 5, the first frame piece 21 includes a first portion 21a, a second portion 21b, a third portion 21c, a fourth portion 21d, and a fifth portion 21e. .

  The first portion 21 a is disposed on the main surface 10 e of the module body 10. The thickness of the distal end portion of the first portion 21a decreases from the proximal end side toward the distal end side.

  The second portion 21 b is disposed on the main surface 10 f of the module body 10. The thickness of the distal end portion of the second portion 21b decreases from the proximal end side toward the distal end side.

  The third portion 21 c is disposed outside the end surface 10 a of the module body 10. The third portion 21c connects the proximal end portion of the first portion 21a and the proximal end portion of the second portion 21b. These first to third portions 21a to 21c constitute a groove 20a.

  The fourth portion 21d extends outward from the connection portion between the first portion 21a and the third portion 21c. The fourth portion 21d is parallel to the main surface 10e, and the light receiving surface side surface of the fourth portion 21d and the light receiving surface side surface of the first portion 21a are coplanar. As shown in FIG. 1, the fourth portion 21d is provided with through holes 21d1 and 21d2 penetrating in the thickness direction. The through hole 21d1 is configured by a notch provided at one end of the fourth portion 21d. The cutout has an opening in the direction in which the end surface 10a extends in plan view. The through hole 21d2 is configured by a notch provided at the other end of the fourth portion 21d. The cutout has an opening in the direction in which the end surface 10a extends in plan view.

  The first portion 21a is provided with a missing portion 21a1 that is continuous with the through hole 21d1. The tip on the main surface 10e side of the portion located between the missing portion 21a1 and the through hole 21d1 of the third portion 21c is flush with the main surface 10e.

  The first portion 21a is provided with a missing portion 21a2 that is continuous with the through hole 21d2. The tip on the main surface 10e side of the portion located between the missing portion 21a2 and the through hole 21d2 of the third portion 21c is flush with the main surface 10e.

  The fifth portion 21e extends in parallel with the end surface 10a from the outer end portion of the fourth portion 21d. For this reason, the fifth portion 21e and the fourth portion 21d are orthogonal to each other.

  As shown in FIG. 6, the second frame piece 22 includes a sixth portion 22a, a seventh portion 22b, an eighth portion 22c, a ninth portion 22d, and a tenth portion 22e.

The sixth portion 22 a is disposed on the main surface 10 e of the module body 10. The thickness of the distal end portion of the sixth portion 22a decreases from the proximal end side toward the distal end side.

  The seventh portion 22 b is disposed on the main surface 10 f of the module body 10. The thickness of the distal end portion of the seventh portion 22b decreases from the proximal end side toward the distal end side.

  The eighth portion 22 c is disposed outside the end surface 10 b of the module body 10. The eighth portion 22c connects the base end portion of the sixth portion 22a and the base end portion of the seventh portion 22b. These sixth to eighth portions 22a to 22c constitute a groove 20a.

  The ninth portion 22d extends outward from a connection portion between the sixth portion 22a and the eighth portion 22c. The ninth portion 22d is parallel to the main surface 10e, and the light receiving surface side surface of the ninth portion 22d and the light receiving surface side surface of the sixth portion 22a are coplanar. As shown in FIG. 1, the ninth portion 22d is provided with through holes 22d1 and 22d2 penetrating in the thickness direction. The through hole 22d1 is configured by a notch provided at one end of the ninth portion 22d. The cutout has an opening in a direction in which the end surface 10b extends in a plan view. The through hole 22d2 is configured by a notch provided at the other end of the ninth portion 22d. The cutout has an opening in a direction in which the end surface 10b extends in a plan view.

  The sixth portion 22a is provided with a missing portion 22a1 continuous with the through hole 22d1. The tip on the main surface 10e side of the portion located between the missing portion 22a1 and the through hole 22d1 of the eighth portion 22c is flush with the main surface 10e.

  The sixth portion 22a is provided with a missing portion 22a2 continuous with the through hole 22d2. The tip on the main surface 10e side of the portion located between the missing portion 22a2 and the through hole 22d2 of the eighth portion 22c is flush with the main surface 10e.

  The tenth portion 22e extends in parallel with the end surface 10b from the outer end portion of the ninth portion 22d. For this reason, the 10th part 22e and the 9th part 22d are orthogonally crossed.

  As shown in FIG. 7, the third frame piece 23 includes an eleventh portion 23a, a twelfth portion 23b, and a thirteenth portion 23c.

  The eleventh portion 23 a is disposed on the main surface 10 e of the module body 10. The thickness of the distal end portion of the eleventh portion 23a decreases from the proximal end side toward the distal end side.

  The twelfth portion 23 b is disposed on the main surface 10 f of the module body 10. The thickness of the distal end portion of the twelfth portion 23b decreases from the proximal end side toward the distal end side.

  The thirteenth portion 23 c is disposed outside the end surface 10 c of the module body 10. The thirteenth portion 23c connects the base end portion of the eleventh portion 23a and the base end portion of the twelfth portion 23b. The groove | channel 20a is comprised by these 11th-13th parts 23a-23c.

  The thirteenth portion 23c is provided with a groove 23c1 that opens toward the outside and is provided with a thread. The groove 23c1 is provided from one end of the thirteenth portion 23c to the other end. The third frame piece 23 and the first and second frame pieces 21 and 22 are fixed by screws 31 and 32 (see FIG. 1) inserted in the groove 23c1.

  As shown in FIG. 4, the fourth frame piece 24 includes a fourteenth portion 24a, a fifteenth portion 24b, and a sixteenth portion 24c.

  The fourteenth portion 24 a is disposed on the main surface 10 e of the module body 10. The thickness of the distal end portion of the fourteenth portion 24a decreases from the proximal end side toward the distal end side.

  The fifteenth portion 24 b is disposed on the main surface 10 f of the module body 10. The thickness of the distal end portion of the fifteenth portion 24b decreases from the proximal end side toward the distal end side.

  The sixteenth portion 24 c is disposed outside the end surface 10 d of the module body 10. The sixteenth portion 24c connects the base end portion of the fourteenth portion 24a and the base end portion of the fifteenth portion 24b. The groove | channel 20a is comprised by these 14th-16th parts 24a-24c.

  The sixteenth portion 24c is provided with a groove 24c1 that opens toward the outside and is provided with a thread. The groove 24c1 is provided from one end of the sixteenth portion 24c to the other end. The fourth frame piece 24 and the first and second frame pieces 21 and 22 are fixed by screws 33 and 34 (see FIG. 1) inserted in the groove 24c1.

  FIG. 8 is a schematic plan view of the installation structure 2 of the solar cell module 1 in the present embodiment. As shown in FIG. 8, the installation structure 2 includes a plurality of solar cell modules 1. The plurality of solar cell modules 1 are densely laid. The plurality of solar cell modules 1 are fixed to a roof, for example, by a fixing member 3 extending along the longitudinal direction of the solar cell module 1. The fixing member 3 fixes both end portions in the short direction of the solar cell module 1 from one side to the other side in the longitudinal direction.

  The solar cell modules 1 adjacent to each other in the longitudinal direction of the solar cell module 1 are laid so that the fifth portion 21e of one solar cell module and the tenth portion 22e of the other solar cell module are in contact with each other. .

  As described above, the through holes 21d1 and 21d2 are provided in the fourth portion 21d. Through holes 22d1 and 22d2 are provided in the ninth portion 22d. Therefore, for example, even when the plurality of solar cell modules 1 are densely laid so that the fifth portion 21e and the tenth portion 22e come into contact with each other, the water on the main surface 10e penetrates. It is preferably discharged to the back side of the solar cell module 1 through the holes 21d1, 21d2, 22d1, and 22d2.

  Further, in the solar cell module 1, the first portion 21a is provided with a defective portion 21a1 continuous with the through hole 21d1 and a defective portion 21a2 continuous with the through hole 21d2. The sixth portion 22a is provided with a missing portion 22a1 continuous with the through hole 22d1 and a missing portion 22a2 continuous with the through hole 22d2. Therefore, the water on the main surface 10e is suitably discharged to the back surface side of the solar cell module 1 through the through holes 21d1, 21d2, 22d1, and 22d2. Further, since the through holes 21d1, 21d2, 22d1, and 22d2 are provided at the four corners of the module body 10, it is difficult for water to collect on the main surface 10e.

Furthermore, in the solar cell module 1, the tip on the main surface 10e side of the portion located between the missing portion 22a1 and the through hole 22d1 of the eighth portion 22c is flush with the main surface 10e. The tip on the main surface 10e side of the portion located between the missing portion 22a2 and the through hole 22d2 of the eighth portion 22c is flush with the main surface 10e. The tip on the main surface 10e side of the portion located between the missing portion 21a1 and the through hole 21d1 of the third portion 21c is flush with the main surface 10e. The tip on the main surface 10e side of the portion located between the missing portion 21a2 and the through hole 21d2 of the third portion 21c is flush with the main surface 10e. Therefore, the water on the main surface 10e is passed through the through hole 2
It is more preferably discharged to the back surface side of the solar cell module 1 via 1d1, 21d2, 22d1, and 22d2. Note that the end surface of the defect portion 21a1 of the third portion 21c and the end surface of the defect portion 22a2 of the eighth portion 22c may be provided on the main surface 10f side from the main surface 10e.

  Moreover, since the through holes 21d1, 21d2, 22d1, and 22d2 are provided, the back surface side and the light receiving surface side of the laid solar cell module 1 communicate with each other. Therefore, the air in the space on the back side of the solar cell module 1 is easy to circulate. Therefore, it can suppress effectively that the temperature of the space of the back surface side of the solar cell module 1 rises, and the temperature of the solar cell module 1 rises.

  In addition, the 1st frame piece 21 and the 2nd frame piece 22 which are shown in FIG.1 and FIG.2 showed the example shorter than the 3rd frame piece 23 and the 4th frame piece 24. As shown in FIG. Even if the first frame piece 21 and the second frame piece 22 are longer than the third frame piece 23 and the fourth frame piece 24, the above-described effects can be obtained.

  The first frame piece 21 and the second frame piece 22 have the same structure. Even if the first frame piece 21 and the second frame piece 22 have different structures, the above-described effects can be obtained. For example, the number of through holes provided in the first frame piece 21 may be different from the number of through holes provided in the second frame piece 22, or the first frame piece 21 and the second frame may be provided. It is good also as a structure which does not provide a through-hole in either one among the pieces 22. FIG.

  The through holes provided in the first frame piece 21 and the second frame piece 22 are configured to be provided at both ends in the direction in which the first frame piece 21 and the second frame piece 22 extend. It is good also as a structure provided in addition to the both ends of the direction where each 1 frame piece 21 and 2nd frame piece 22 are extended.

DESCRIPTION OF SYMBOLS 1 ... Solar cell module 2 ... Installation structure 10 ... Module main body 10a ... 1st end surface 10b ... 2nd end surface 10c ... 3rd end surface 10d ... 4th end surface 10e ... Main surface 10f ... Main surface 11 ... Solar cell 20 ... Frame body 21 ... first frame piece 21a ... first portion 21a1, 21a2 ... defect portion 21b ... second portion 21c ... third portion 21d ... fourth portion 21d1,21d2,22d1,22d2 ... through hole 21e ... 5th part 22 ... 2nd frame piece 22a ... 6th part 22a1, 22a2 ... defect | deletion part 22b ... 7th part 22c ... 8th part 22d ... 9th part 22e ... 10th part

Claims (9)

A rectangular module body including solar cells;
A frame provided to surround the module body;
With
The frame has a first frame piece arranged on the outer side of one end surface of the module body,
The first frame piece is
A first portion disposed on one main surface of the module body;
A second portion disposed on the other main surface of the module body;
A third portion that is disposed outside one end face of the module body and connects the first portion and the second portion;
A fourth portion extending outward from a connection portion of the first portion with the third portion,
It said fourth portion, have a through hole penetrating in the thickness direction,
The first portion is provided with a deficient portion that continues to the through hole.
Solar cell module. The through hole is configured by a notch provided at an end of the fourth portion, and the notch has an opening in a direction in which the one end surface extends.
The solar cell module according to claim 1. The notch is provided at each of both ends of the fourth portion in the extending direction of the one end surface;
The solar cell module according to claim 2. The third portion is provided with a defect portion at a position corresponding to the defect portion of the first portion, and an end surface on one main surface side of the defect portion of the third portion is formed on the module body. It is provided to be substantially the same surface as one main surface, or to be on the other main surface side from one main surface of the module body.
The solar cell module according to claim 1 . The first frame piece further includes a fifth portion extending in parallel with the one end surface from an outer end portion of the fourth portion.
The solar cell module as described in any one of Claims 1-4 . The frame body further includes a second frame piece disposed on the outer side of the other end surface parallel to the one end surface of the module body,
The second frame piece is
A sixth portion disposed on one main surface of the module body;
A seventh portion disposed on the other main surface of the module body;
The modules are arranged on the outside of one end face of the body, said sixth portion and said seventh and eighth portions of which connects the portions, the including of,
The solar cell module according to claim 5 . The first frame piece further includes a fifth portion extending in parallel with the one end surface from an outer end portion of the fourth portion.
The solar cell module according to claim 6 . A plurality of solar cell modules according to claim 7 ,
The plurality of solar cell modules are laid so that the fifth portion of the first frame piece and the second frame piece come into contact with each other.
Installation structure of solar cell module. The second frame piece is
A ninth portion extending outward from a connection portion of the sixth portion with the eighth portion;
A tenth portion extending in parallel with the one end surface from the outer end of the ninth portion;
Including
The plurality of solar cell modules are laid so that the fifth portion of the first frame piece and the tenth portion of the second frame piece are in contact with each other.
The installation structure of the solar cell module according to claim 8 .

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