JP3234759B2 - Mounting structure of solar cell module - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar cell module mounting structure for mounting a solar cell module on a base installed on a roof, a wall, a ground or the like of a house.

[0002]

2. Description of the Related Art A solar cell module which receives sunlight and generates electricity generally includes a plurality of solar cells electrically connected in series or in parallel to the back surface of a light-receiving surface glass plate made of white sheet reinforced glass. Are laminated, and all the solar cells are composed of a solar cell main body covered with a weather-resistant film, and a frame fitted to a peripheral portion of the solar cell main body. Many of such solar cell modules are mounted on a pedestal arranged on a roof, a wall surface, a ground, or the like of a house, in a state where many are arranged in a vertical direction and a horizontal direction.

FIG. 9 shows an example of a structure for attaching a solar cell module to a gantry. The gantry 40 is configured such that a pair of adjacent solar cell modules 30 is supported by a single support frame 41. The solar cell module 30 includes a rectangular flat-plate-shaped solar cell main body 31 having a plurality of solar cells, and a rectangular frame 32 fitted to a peripheral portion of the solar cell main body 31. ing. Each frame body 32 is provided with a pair of long side frame members 32a along the longitudinal direction, and the upper part of each long side frame member 32a is formed along the longitudinal direction of the solar cell main body 31. It is fitted to the side edge. Support frame 41 of gantry 40
Is made of, for example, wood, and the long-side frame members 32 a of the respective solar cell modules 30 arranged adjacent to each other are attached to one support frame 41. Can be

[0004] At the lower end of each long side frame member 32a, a flange-like mounting base 32c extending toward the outside of the solar cell main body 31 is provided. Each mounting base 3
2c is provided with a plurality of screw holes 32d at appropriate intervals in the longitudinal direction. Then, the mounting portion 32c of each long side frame member 32a arranged close to each of the solar cell modules 30 adjacent to each other forms one support frame 4
The screws 43 are inserted into the respective screw holes 32d provided in the respective mounting base portions 32c.
It is screwed to the support frame 41 of the gantry 40. This allows
Each of the long side frame members 32a arranged close to the pair of solar cell modules 30 is attached to the support frame 41.

As shown in FIG. 10, the lower end of each long side frame member 32a of the solar cell module 30 is extended outwardly in place of the mounting base 32c extending in a flange shape. Further, a locking groove 32e is provided which is bent upward at an appropriate distance from each long side frame member 32a. In this case, a fixing member 44 having a downward U-shaped cross section provided with a flange-like fitting portion 44a extending downward at each side edge portion so as to fit into the adjacent locking groove portion 32e. It is used and fixed to the support frame 41 of the gantry 40. The fixing member 44 is connected to each of the fitting portions 4.
4a is inserted into the locking groove 32e of each of the long side frame members 32a disposed adjacent to each other, and a screw 43 is inserted into the center portion in the width direction to be screwed to the support frame 41 of the gantry 40. Is done.

Further, as shown in FIG. 11, mounting portions 32f are provided at upper end portions of the respective long side frame members 32a so as to horizontally project outward, and screw holes 32g provided in the mounting portions 32f are provided. Screw 32 inserted into each mounting portion 32f
Is also mounted on the support frame 41 of the gantry 40.

[0007]

The mounting structure of the solar cell module shown in FIGS. 9 to 11 has a problem that a gap is formed between the solar cell modules 10 arranged in a horizontal direction. There is. In the mounting structure shown in FIG. 9, a gap indicated by A is formed between the adjacent solar cell modules 30, and in the mounting structure shown in FIG. 10, a gap indicated by B is formed. Further, in the mounting structure shown in FIG. 11, the support frame 41 of the gantry 40 is located between the solar cell modules 30 that are arranged adjacent to each other. It will be formed between each solar cell module 30.

When a gap is formed between the solar cell modules 30 as described above, the gap does not contribute to power generation, and there is a problem that the power generation efficiency with respect to an area required for installing the solar cell module 30 is reduced. Further, the mounting structure shown in FIGS. 9 and 10 has a problem that a cover for covering a gap formed between adjacent solar cell modules 30 is required.

In order to arrange the adjacent solar cell modules 30 so as not to form a gap therebetween, for example, as shown in FIG. 32 each long side frame material 3
At the lower end of 2a, mounting portions 32h extending inwardly in a flange shape are provided.
A configuration in which a bolt 46 and a nut 47 attach to a support frame 45 made of a mold steel is also implemented.

In this case, almost no gap is formed between the adjacent solar cell modules 30,
A decrease in power generation efficiency with respect to the installation area is suppressed. However, the light receiving surface side of the gantry 40 is
Each of the solar cell modules 30 must be mounted from the back side of the gantry 40 in order to be covered by the slab. Therefore, such a mounting structure is adopted only for a gantry installed on the ground, and the mounting work of the solar cell module 30 from the back side of the gantry 40 cannot be performed, such as a roof of a house or a wall surface. If not, it cannot be adopted.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a solar cell module which is disposed adjacent to a mount from a back surface side opposite to a light receiving surface side. It is an object of the present invention to provide a mounting structure for a solar cell module that can be mounted without forming a gap between them.

[0012]

According to a first aspect of the present invention, there is provided a solar cell module mounting structure comprising: a plurality of solar cells arranged side by side;
A solar cell module for mounting a plurality of solar cell modules each having a frame body formed by fitting a frame material to each side edge of the solar cell main body in a state of being arranged in a horizontal direction on a gantry The mounting structure according to claim 1, wherein each of the frame members provided on a pair of adjacent solar cell modules and arranged close to each other extends so as to be separated from each other toward the inside of the solar cell main body. Flange-shaped locking portions are provided, and these locking portions are fitted on and locked from the openings of the engaging members mounted on the gantry and having openings on the upper surface. It is characterized by having become.

According to a second aspect of the present invention, there is provided a solar cell module mounting structure, wherein a plurality of solar cells are arranged side by side to form a rectangular flat plate, and each side edge of the solar cell body. A solar cell module mounting structure for mounting a plurality of solar cell modules each having a frame body in which a frame material is fitted to each other, and mounting the solar cell modules on a gantry in a state where the solar cell modules are arranged side by side, and a pair of adjacent solar cell modules. One of the frame members provided in the respective solar cell modules and arranged in close proximity to each other is fixed on the gantry, and the frame member is provided with a concave groove, and the inside of the concave groove is provided. In addition, a flange-shaped locking portion provided to extend to the outside of the solar cell main body portion on the other frame member is fitted and locked. .

According to a third aspect of the present invention, there is provided a solar cell module mounting structure, wherein a plurality of solar cells are arranged side by side to form a rectangular flat plate, and each side edge of the solar cell body. A mounting structure of a solar cell module for mounting on a gantry in a state where a plurality of solar cell modules having a frame body each fitted with a frame material is arranged in a horizontal direction, a pair of adjacent ones One of the frame members provided in the solar cell module and arranged in close proximity to each other is fixed on the gantry, and the frame member is provided with a through hole penetrating in the width direction, The other frame member is provided with an engagement pin protruding outward, and the engagement pin is inserted into the through hole.

According to a fourth aspect of the present invention, there is provided a mounting structure for a solar cell module, wherein a plurality of solar cells are arranged in a rectangular flat plate shape, and each side edge of the solar cell body. A mounting structure of a solar cell module for mounting on a gantry in a state where a plurality of solar cell modules having a frame body each fitted with a frame material is arranged in a horizontal direction, a pair of adjacent ones Each frame member provided in the solar cell module and arranged in close proximity to each other is provided with a flange-shaped locking portion extending toward the inside of each solar cell body so as to be separated from each other. At the same time, a notch portion is provided in each of the locking portions, and each of the locking portions is projected on the gantry so as to fit into the notch portion of each of the locking portions. Stop It is characterized in that the fixture having an engaging groove to be engaged by entering is attached.

[0016]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a perspective view showing an example of an embodiment of a solar cell module used in the mounting structure of the solar cell module according to the present invention, and FIG. 2 is a sectional view taken along line AA in FIG. . The solar cell module 10 has a super straight structure, and includes a rectangular flat solar cell main body 11 and a frame 12 that covers the periphery of the solar cell main body 11. Solar cell body 11
As shown in FIG. 2, a plurality of solar cells 11a that are electrically connected in series or in parallel are laminated on the back surface of a light-receiving surface glass plate 11b made of white-sheet tempered glass. 11a is the weather-resistant film 11
c. A terminal box 13 is provided on the back surface of one end of the solar cell body 11,
Cables 14 and 15 for taking out the electric output of the solar cell 11 a are connected to the terminal box 13. Connectors 14a and 15a are provided at the ends of the cables 14 and 15, respectively.

The frame body 12 includes a pair of long side frame members 12a and 12b along the longitudinal direction of the solar cell main body 11, and a pair of short side frame members 1 along the width direction of the solar cell main body 11.
2c and 12d are formed in a rectangular frame shape, and the long side frame members 12a and 12b are fitted to respective side edges along the longitudinal direction of the solar cell main body 11, respectively. The short side frame members 12c and 12db are fitted to respective side edges along the width direction of the solar cell main body 11, respectively. Each of the long-side frame members 12a and 12b and the short-side frame members 12c and 12d are respectively formed by extruded aluminum products. Side frame material 1
Each end of 2c and 12d is butted and screwed.

FIG. 3 is a sectional view showing a structure for attaching the solar cell module 10 to a mount. Each of the long side frame members 12a and 12b is in a state where its upper part is fitted to each side edge of the solar cell main body 11, respectively. At the lower end of each of the long side frame members 12a and 12b, a locking portion 12e extending inwardly and in a flange shape so as to approach each other is provided.

Each of the short side frame members 12c and 12d has a length in the thickness direction of the solar cell main body 11 that is equal to the length of the long side frame member 12c.
a and 12b are shorter than the length of the solar cell main body 11 in the thickness direction, and the locking portions 12e of the long side frame members 12a and 12b are lower than the short side frame members 12c and 12d. It is in a protruding state.

The long side frame members 12a and 12b and the short side frame members 12c and 12d may be formed by bending a metal plate.

The gantry 20 to which the solar cell modules 10 are mounted has a support frame 2 made of wood or the like so as to support a side edge of each solar cell module 10.
1, an engaging member 22 is attached along a longitudinal direction on a support frame 21 that supports a side edge portion of the solar cell module 10 along the longitudinal direction. The engaging member 22 is supported such that the long side frame members 12a and 12b of the pair of solar cell modules 10 disposed adjacent to each other in the left-right direction are arranged side by side. Has become.

The engaging member 22 has a hollow inside and a flat rectangular cross section, and its lower surface is open. At the center of the engagement member 22 in the vertical direction,
A partition 22a is provided, and a recess 22b that is recessed downward is provided along the longitudinal direction at the center of the partition 22a in the width direction. The lower surface of the concave portion 22b is in contact with the surface of the support frame 21, and the concave portion 22b
Screw holes 22e at appropriate intervals in the longitudinal direction
The screws 23 are respectively inserted through the screw holes 22 e, and the screws 23 are screwed to the support frame 21. Thereby, the engaging member 22 is fixed to the support frame 21.

An opening 22d is provided in the center of the upper surface 22c of the engaging member 22 in the width direction along the longitudinal direction. The openings 22d are formed by lower ends of the long side frame members 12a and 12b of the pair of solar cell modules 10 adjacent to each other in the left and right direction, which are arranged close to each other.
The size is such that it can be inserted in the state of being arranged in the width direction.

When a pair of solar cell modules 10 adjacent to each other in the left-right direction is attached to the engaging member 22 of the gantry 20, the locking provided at the lower end of the long side frame member 12a in one of the solar cell modules 10 The part 12e is inserted into the inside of the engaging member 22 through the opening 22d, and the engaging member 2
2 is inserted between one side of the upper surface 22c and the partition 22a. Thereafter, the engaging portion 12e provided at the lower end of the long side frame member 12b of the other solar cell module 10 is inserted into the inside from the opening 22d of the engaging member 22, and the upper surface of the engaging member 22 is It is inserted between the other side of the portion 22c and the partition 22a. Thereby, the long side frame members 12a and 12b adjacent to each other in the pair of solar cell modules 10 adjacent in the left-right direction are supported by the engaging member 22, and the pair of adjacent solar cell modules 10 is attached to the support frame 21 of the gantry 20.

Each solar cell module 10 need only be engaged with the engaging member 22 attached to the support frame 21 of the gantry 20, and can be attached to the gantry 20 only by working from the light receiving surface side of the gantry 20. it can.

FIG. 4 is a perspective view showing another example of the embodiment of the solar cell module 10 used in the mounting structure of the present invention, and FIG. 5 shows the mounting structure of the solar cell module 10 to the gantry 20. It is sectional drawing of a principal part. At the lower end of one long side frame member 12a of the frame body 12 of the solar cell module 10, a locking portion 12f extending outward in a flange shape is provided, while the other is provided. At the lower end of the long side frame member 12b, a mounting base portion 12g extending outward in a flange shape is provided. One long side frame member 12a provided with the locking portion 12f has a length in the vertical direction longer than the other long side frame member 12b, and a mounting base portion 12g provided on the other long side frame member 12a. Is reduced by the vertical length (thickness) of the
The locking part 12f is mounted on the upper part. The long side frame member 12b provided with the mounting base portion 12g has a concave groove 12h along the upper surface of the mounting base portion 12g into which the locking portion 12f of the other long side frame material 12a can be fitted. It is provided continuously in the direction.

Mounting base 12g for one long side frame member 12b
Has a plurality of screw holes 12 at appropriate intervals in the longitudinal direction.
m is provided, and a screw 23 is inserted into each of the screw holes 12 m and attached to the support frame 21 of the gantry 20.

The solar cell module 10 having such a configuration
Is the long side frame member 12b provided with the mounting base 12g,
When attached to the support frame 21 of the gantry 20 with the screws 23, another solar cell module 10 is disposed adjacent to the solar cell module 10, and the long side frame member 12a provided with the locking portion 12f is formed. Is mounted on a mounting base 12g mounted on the support frame 21 of the gantry 20. Then, the locking portion 12f of the long side frame member 12a placed on the mounting base 12g is fitted into a concave groove 12h provided along the mounting base 12g. Since then, solar cell module 1
0 are arranged in order in the horizontal direction, and the long side frame member 12a of the solar cell module 10 is attached to the long side frame member 1 of the solar cell module 10 attached to the support frame 21 of the gantry 20.
While being locked to 2b, it is attached to the support frame 21 of the gantry 20.

In the present embodiment, the mounting base 12g provided on the long-side frame member 12b of one of the solar cell modules 10 is mounted on the upper surface of the support frame 21 of the gantry 20 on the light receiving surface side. It is only necessary to fit the engaging portion 12f provided on the long side frame member 12a of the other solar cell module 10 into the concave groove 12h provided on the long side frame member 12b of the solar cell module 10, Therefore, each solar cell module 10 can be attached to the gantry 20 only by working from the light receiving surface side of the gantry 20.

FIG. 6 is a perspective view showing another example of the embodiment of the solar cell module 10 used in the mounting structure of the present invention, and FIG. 7 shows the mounting structure of the solar cell module 10 to the gantry 20. It is sectional drawing of a principal part. The frame 12 of the solar cell module 10 does not include the locking portion 12f provided at the lower end of one long side frame member 12a of the frame 12 shown in FIGS. The long side frame member 12b is not provided with the concave groove 12h provided along the upper surface of the mounting base portion 12g so that the locking portion 12f is fitted. A plurality of screw holes 12m are provided in the mounting base 12g at appropriate intervals in the longitudinal direction, and the mounting base 12g is directly mounted on the support frame 21 of the gantry 20 by the screws 23. Is similar to the example shown in FIGS. 4 and 5.

On the mounting base 12g mounted on the support frame 21 of the gantry 20, the long side frame member 12a of the adjacent solar cell module 10 without the mounting base 12g is mounted. It is supposed to be.

In one long side frame member 12a on which the mounting base 12g is not provided, for example, a pair of near end portions are formed so as to penetrate from the inside to the outside of the solar cell main body portion 11 from the inside. Are respectively mounted in the middle of the vertical direction. A pair of through holes 12n through which the engaging pins 13 can be inserted are provided in the vicinity of each end in the vertical middle of the other long side frame member 12b provided with the mounting base 12g. Have been. Each through hole 12n penetrates the long side frame member 12b in the width direction.

The solar cell module 10 having such a configuration
When the long side frame member 12b provided with the mounting base portion 12g is attached to the support frame 21 of the gantry 20 with the screws 23, the solar cell module 10 is arranged adjacent to the solar cell module 10. And a pair of engaging pins 1
The long side frame member 12 a provided with 3 is placed on a mounting base 12 g mounted on the support frame 21 of the gantry 20. Then, each engagement pin 13 is fitted into each through hole 12n of the long side frame member 12b provided with the mounting base 12g. Thereafter, the solar cell modules 10 are sequentially arranged in the horizontal direction, and the long side frame material 1 of the solar cell module 10 is arranged.
2 a is attached to the support frame 21 of the gantry 20 in a state where the 2 a is locked to the long-side frame member 12 b attached to the support frame 21 of the gantry 20.

Also in the present embodiment, the mounting base 12g provided on the long side frame member 12b of one of the solar cell modules 10 is mounted on the upper surface of the support frame 21 of the gantry 20 on the light receiving surface side. It is only necessary to fit the engagement pin 13 provided on the long side frame member 12a of the other solar cell module 10 into each through hole 12n provided on the long side frame member 12b of the solar cell module 10. Therefore, each solar cell module 10 can be attached to the gantry 20 only by working from the light receiving surface side of the gantry 20.

FIG. 8 shows a solar cell module 10 according to the present invention.
It is an exploded perspective view which shows another example of embodiment of the mounting structure with respect to the gantry 20 of FIG. The solar cell module 10 is shown in FIG.
To the solar cell module 10 shown in FIG. 3, a pair of long side frame members 12a and 12b and a pair of short side frame members 1
2c and 12d, and the lower ends of the long side frame members 12a and 12b are formed in a flange shape toward the inside of the solar cell body 11 so as to approach each other. Each of the extended locking portions 12e is provided. In FIG. 8, the solar cell main body 11 is omitted.

Notches 12p are respectively provided on the locking portions 12e of the long side frame members 12a and 12b so as to face each other.

A fixing member 25 for fixing a pair of solar cell modules 10 arranged laterally adjacent to each other is attached to the frame member 21 of the gantry 20. This fixture 2
5 is a flat support 25a mounted on the support frame 21.
A pair of locking grooves 25b projecting upward and bent so as to approach each other on the left and right side edges at one end of the support portion 25a; Positioning plate 25 provided between locking grooves 25b
c.

A rubber sheet 26 is placed on the support 25a. The rubber sheet 26 and the support 25a
It is integrally attached to the support frame 21 of the gantry 20 by a pair of screws 27. Each locking groove 25 of the fixture 25
b can be fitted into notches 12p provided in the long side frame members 12a and 12b of the solar cell module 10, respectively. In addition, each locking groove 25b
The locking portion 12e provided on each of the long side frame members 12a and 12b is slidably fitted into and locked to each other.

The pair of solar cell modules 10 are fixed to the fixture 2.
5, one solar cell module 10
Each of the solar cell modules 10 is moved downward so that one of the locking grooves 25b of the fixture 25 is fitted into the notch portion 12p of the one long side frame member 12b in FIG. 12e is in contact with the rubber sheet 26. Thereafter, the entire solar cell module 10 is slid along the long side frame members 12a and 12b,
The locking portion 12e of the long side frame member 12a is locked with the locking groove 25b.
The solar cell module 10 is fixed to the fixture 25 by being fitted into and locked by the fixing member 25.

As described above, one solar cell module 1
0 is fixed to the fixture 25, the notch portion 12 p of one of the long side frame members 12 a of the solar cell module 10 arranged adjacent to the solar cell module 10 is one side of the fixture 25. And the locking portion 12e is brought into contact with the rubber sheet 26, and the entire solar cell module 10 is slid along the long side frame members 12a and 12b. Thus, the locking portion 12e of the long side frame member 12a is locked in the locking groove 25b, and the solar cell module 10 is also fixed to the fixing member 25. Thereby, a pair of solar cell modules 10 are
The frame 20 is fixed to the support frame 21.

Also in the present embodiment, the notches 12p provided in the long side frame members 12a and 12b of each solar cell module 10 are attached to the upper surface of the support frame 21 of the gantry 20 on the light receiving surface side. It is only necessary to slide the solar cell modules 10 by fitting them into the respective locking grooves 25b of the fixed fixture 25. Therefore, it is possible to attach each of the solar cell modules 10 to the gantry 20 only by working from the light receiving surface side of the gantry 20. it can.

[0043]

As described above, the solar cell module mounting structure of the present invention can be mounted on a gantry with almost no gap formed between adjacent solar cell modules. Therefore, the power generation efficiency with respect to the installation area of the solar cell module is significantly improved. Also,
Each solar cell module can be attached only by work from the front side which is the light receiving surface side of the gantry, so not only the gantry installed on the ground, but also the gantry installed on the rooftop of the house, wall, etc. Even so, the solar cell module can be easily attached.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an example of an embodiment of a solar cell module used for a solar cell module mounting structure of the present invention.

FIG. 2 is a cross-sectional view taken along line AA of FIG.

FIG. 3 is a cross-sectional view of a main part showing a mounting structure of the solar cell module to a mount.

FIG. 4 is a perspective view showing another example of the embodiment of the solar cell module used in the mounting structure of the present invention.

FIG. 5 is a fragmentary cross-sectional view showing a mounting structure of the solar cell module to a mount.

FIG. 6 is a perspective view showing still another example of the embodiment of the solar cell module used in the mounting structure of the present invention.

FIG. 7 is a fragmentary cross-sectional view showing a mounting structure of the solar cell module to a mount.

FIG. 8 is an exploded perspective view showing still another example of the embodiment of the mounting structure of the solar cell module to the gantry of the present invention.

FIG. 9 is a cross-sectional view of a main part showing an example of a conventional solar cell module mounting structure.

FIG. 10 is a cross-sectional view of a principal part showing another example of a conventional solar cell module mounting structure.

FIG. 11 is a cross-sectional view of a main part showing still another example of a conventional solar cell module mounting structure.

FIG. 12 is a cross-sectional view of a main part showing still another example of a conventional solar cell module mounting structure.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Solar cell module 11 Solar cell main body 12 Frame 12a Long side frame material 12b Long side frame material 12c Long side frame material 12d Long side frame material 12e Engagement part 12f Engagement part 12g Mounting stand part 12h concave Groove 12n Through hole 12p Notch 13 Engagement pin 20 Stand 21 Support frame 22 Engagement member 22a Partition wall 22d Opening 23 Screw 25 Fixing tool 25b Locking groove 26 Rubber sheet 27 Screw

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-7-30139 (JP, A) JP-A-7-153982 (JP, A) JP-A-6-85302 (JP, A) 69854 (JP, U) Japanese Utility Model Showa 62-104446 (JP, U) Japanese Utility Model Showa 61-104564 (JP, U) Japanese Utility Model Showa 61-109155 (JP, U) (58) Field surveyed (Int. ⁷ , DB name) H01L 31/04-31/078 E04D 13/00-13/18

Claims (4)

(57) [Claims] 1. A solar cell body in which a plurality of solar cells are arranged in a rectangular flat plate shape, and a frame member is fitted to each side edge of the solar cell body. A mounting structure of a solar cell module for mounting a plurality of solar cell modules having a frame on a gantry in a state where the solar cell modules are arranged in a horizontal direction, provided on a pair of adjacent solar cell modules and adjacent to each other. Each of the frame members arranged as described above is provided with a flange-shaped locking portion extending so as to be separated from each other toward the inside of the solar cell main body portion, and these locking portions are mounted on a frame. A mounting structure for a solar cell module, wherein the mounting member is mounted on the upper surface and fitted and locked from the opening of an engaging member having an opening on an upper surface. 2. A solar cell body having a plurality of solar cells arranged side by side and formed in a rectangular flat plate shape, and frame members fitted to respective side edges of the solar cell body. A mounting structure of a solar cell module for mounting a plurality of solar cell modules having a frame on a gantry in a state where the solar cell modules are arranged in a horizontal direction, provided on a pair of adjacent solar cell modules and adjacent to each other. One of the frame members arranged in such a manner is fixed on a gantry, a groove is provided in the frame member, and the other frame member has a solar cell body portion in the groove. A mounting structure for a solar cell module, wherein a flange-shaped locking portion provided so as to extend outward is fitted and locked. 3. A solar cell main body in which a plurality of solar cells are arranged in a rectangular flat plate shape, and a frame material is fitted to each side edge of the solar cell main body. A mounting structure of a solar cell module for mounting a plurality of solar cell modules having a frame on a gantry in a state where the plurality of solar cell modules are arranged in a horizontal direction, the mounting structure being provided on a pair of adjacent solar cell modules and being adjacent to each other. One of the frame members arranged on the base is fixed on the gantry, and the frame member is provided with a through hole penetrating in the width direction, and the other frame member projects outward. A mounting structure for a solar cell module, characterized in that a mounting pin is provided, and the locking pin is inserted into the through hole. 4. A photovoltaic cell body in which a plurality of photovoltaic cells are arranged in a rectangular flat plate shape, and a frame member is fitted to each side edge of the photovoltaic cell body. A mounting structure of a solar cell module for mounting a plurality of solar cell modules having a frame on a gantry in a state where the plurality of solar cell modules are arranged in a horizontal direction. In each of the arranged frame members, a flange-like locking portion extending toward the inside of each solar cell main body portion is provided so as to be away from each other, and a notch portion is provided in each locking portion. A lock is provided on the gantry and protrudes so as to fit into a notch of each locking portion, and each locking portion is fitted and locked by sliding each locking portion. Fixing device with groove Mounting structure of a solar cell module, characterized by being kicked.