JP2015098719A - Solar cell module and solar cell system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solar cell module that makes the used amount of frame material small and that can be easily mounted in a frame, and a solar cell system.SOLUTION: A solar cell module 100 includes a solar cell panel 101, and a frame 10 that is provided with a solar cell panel fitting part 11 for covering a peripheral edge of the solar cell panel 101. The solar cell panel 101 is fitted into the solar cell panel fitting part 11 via a seal material 106. The frame 10 comprises a seal material retention part 12 which is provided in a depressed shape on a surface, facing the solar cell panel 101, of the solar cell panel fitting part 11 and in which the seal material 106 is retained, and a protrusion 13 that is formed by protruding a part, which abuts on the bottom of the seal material retention part 12, in a direction opposite to the solar cell panel 101.

Description

  The present invention relates to a solar cell module and a solar cell system.

  The structure of a conventional solar cell module is disclosed in Patent Document 1. The structure disclosed in Patent Document 1 includes a rectangular solar cell panel including solar cell elements, and a frame fitted on the outer periphery of the solar cell panel via a sealing material, and a sealing material. In order to stop in the frame, the portion where the solar cell panel and the frame are fitted is provided with an uneven shape. That is, Patent Document 1 discloses a frame structure having various uneven shapes in a fitting portion between a solar cell panel and a frame in order to retain a sealing material in the frame.

Japanese Patent No. 4511485

  However, in the invention disclosed in Patent Document 1, the flange portion for fixing the solar cell module is separate from the portion into which the solar cell panel is fitted, and accordingly, a lot of frame material is required, It was the cause that the weight increased.

  On the other hand, if the solar cell module does not have a structure for fixing to the gantry, it is difficult to attach to the gantry. That is, if a structure for fixing to the gantry is not provided, the solar cell module has low attachment properties.

  This invention is made | formed in view of the above, Comprising: The usage-amount of the material of a flame | frame is small, and it aims at obtaining the solar cell module and solar cell system which are easily attached to a mount frame.

  In order to solve the above-described problems and achieve the object, the present invention includes a solar cell panel and a frame provided with a solar cell panel fitting portion that covers a peripheral portion of the solar cell panel. Is a solar cell module fitted into the solar cell panel fitting part via a sealing material, and the frame is recessed on the surface of the solar cell panel fitting part facing the solar cell panel to hold the sealing material And a convex portion formed by projecting a portion corresponding to the bottom of the concave portion in a direction opposite to the solar cell panel.

  According to the present invention, there is an effect that the solar cell module can be easily attached to the gantry while suppressing the amount of the material used for the frame.

FIG. 1 is a diagram showing a configuration of a first embodiment of a solar cell system according to the present invention. FIG. 2 is a diagram showing a configuration of a second embodiment of the solar cell system according to the present invention. FIG. 3 is a diagram showing a configuration of a third embodiment of the solar cell system according to the present invention. FIG. 4 is a diagram showing the configuration of the solar cell module disclosed in Patent Document 1. As shown in FIG.

  Hereinafter, embodiments of a solar cell module and a solar cell system according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration of a first embodiment of a solar cell system according to the present invention. The solar cell system 110 is configured by mounting a plurality of solar cell modules 100 on a gantry 20 and fixing the solar cell module 100 to the gantry 20 using a construction member 22 that is a fixing member. In addition, in FIG. 1, the fixing location of the solar cell module 100 and the mount frame 20 is partially illustrated.

  The solar cell module 100 includes a solar cell panel 101 and a frame 10. The solar battery panel 101 is configured by sealing a plurality of solar battery cells 104 disposed between a light-transmitting insulating substrate 102 on the light receiving surface side and a back film 103 on the back surface side with a transparent sealing resin 105. The The back film 103 is formed by sandwiching a metal foil between insulating films. The frame 10 includes an upper flange portion 10a, an intermediate flange portion 10b, a lower flange portion 10c, and an outer frame portion 10d. The upper flange portion 10a extends from the upper end of the outer frame portion 10d, the lower flange portion 10c extends from the lower end of the outer frame portion 10d, and the middle flange portion 10b extends from the upper end of the outer frame portion 10d. The panel 101 extends from a portion that is approximately the same length as the thickness of the panel 101. The frame 10 is generally E-shaped when viewed from the side.

  The upper flange portion 10a, the middle flange portion 10b, and the outer frame portion 10d form a solar cell panel fitting portion 11 in a portion surrounded by these three sides. In the outer frame portion 10d, a sealing material retaining portion 12 that is recessed in the direction opposite to the side where the solar cell panel 101 is inserted is formed in a portion that forms the solar cell panel fitting portion 11. That is, the solar cell panel fitting portion 11 is provided with the sealing material retaining portion 12 at a portion facing the side surface of the solar cell panel 101. In the outer frame portion 10d, a portion corresponding to the bottom of the sealing material retaining portion 12 protrudes in the opposite direction to the solar cell panel 101, and a convex portion 13 is formed. A sealing material 106 is disposed in the solar cell panel fitting portion 11, and the sealing material 106 is interposed between the upper flange portion 10 a, the middle flange portion 10 b, the outer frame portion 10 d, and the solar cell panel 101. Yes.

  Since the sealing material retaining portion 12 is formed in the solar cell panel fitting portion 11, the sealing material 106 is prevented from protruding from the solar cell panel fitting portion 11 when the frame 10 is attached to the solar cell panel 101. As a result, the assembly of the frame 10 is facilitated, the water resistance is improved, and water does not easily enter the solar cell panel fitting portion 11. Further, since the sealing material retaining portion 12 is formed in the solar cell panel fitting portion 11, the bonding surface on the frame 10 side becomes larger as compared with the case where the sealing material retaining portion 12 is not provided, and the sealing is performed. Since the holding amount of the material 106 increases, the solar cell panel 101 and the frame 10 can be firmly bonded.

  The gantry 20 has a frame placement portion 21. The frame mounting portion 21 is a top surface portion of the gantry 20 and is a flat surface.

  The construction member 22 is a flat member. The construction member 22 may have a length corresponding to the frame 10 or may be shorter than the frame 10. The construction member 22 is fastened to the gantry 20 using fastening members (not shown) (bolts, rivets, etc.).

  When the solar cell module 100 is fixed to the gantry 20, the projecting portion 13 is disposed on the frame mounting portion 21, and the construction member 22 disposed on the projecting portion 13 is a gantry with a fastening member (not shown). By being fixed to 20, the convex portion 13 is sandwiched between the frame placing portion 21 and the construction member 22, and the solar cell module 100 is fixed to the gantry 20. At this time, the lower flange portion 10c may be in contact with the gantry 20 or may be separated.

  Thus, the frame 10 of the solar cell module 100 according to Embodiment 1 does not include the flange portion used only for fixing to the gantry 20, and has a frame structure in which the frame material is reduced.

  Further, the frame 10 has a small distance between the convex portion 13 serving as a fixed portion to the gantry 20 and the solar cell panel fitting portion 11 (the location where the external force received by the solar cell panel 101 is transmitted to the frame 10 and the frame 10). Therefore, the bending moment generated in the frame 10 is reduced, and deformation of the frame 10 can be suppressed.

  For comparison, a solar cell module disclosed in Patent Document 1 will be described. FIG. 4 is a diagram showing the configuration of the solar cell module disclosed in Patent Document 1. As shown in FIG. In the solar cell module 400 disclosed in Patent Document 1, the solar cell panel fitting portion 71 is provided with sealing material retaining portions 72, 73 and 74, and the sealing material 402 from the solar cell panel fitting portion 71 is provided. The overhang is suppressed. However, the frame 70 has a part for forming the solar cell panel fitting part 71 and a part for fixing to the gantry. That is, the frame 70 of the solar cell module 400 disclosed in Patent Document 1 includes a fixing frame portion 75 that is used only for fixing to the gantry. Therefore, the amount of the frame material used increases, resulting in an increase in the weight of the frame.

  Moreover, the solar cell module 400 disclosed in Patent Document 1 includes a location where the external force received by the solar cell panel 401 is transmitted to the frame 70 (solar cell panel fitting portion 71) and a location where the frame 70 is fixed (fixing frame portion 75). ), The bending moment generated in the frame 70 is larger than that of the solar cell module 100 of the first embodiment even if the external force is the same, and the deformation amount of the frame 70 is also large. turn into.

  As described above, in the first embodiment, the concave shape (sealing material) for storing the sealing material 106 in the portion (solar cell panel fitting portion 11) into which the outer periphery of the solar cell panel 101 is fitted via the sealing material 106. It has a stationary part 12), and the concave back side protrudes to form a convex part 13. When the solar cell module 100 is installed, the amount of the frame material used can be reduced by adopting a structure in which the convex portion 13 is sandwiched between the gantry 20 that holds the solar cell module 100 and the construction member 22. That is, since the outer shell shape (convex portion 13) of the sealing material retaining portion 12 for storing the sealing material 106 is sandwiched between the mount 20 and the construction member 22 that hold the solar cell module 100, Therefore, the flange portion used only for the purpose is not necessary, and the frame material can be reduced. In addition, since the solar cell module 100 includes a structure (convex portion 13) for fixing to the gantry 20, attachment work to the gantry 20 is easy. Further, since the distance between the place where the external force received by the solar cell panel 101 is transmitted to the frame 10 and the place where the frame 10 is fixed to the mount 20 is small, the deformation of the frame 10 is suppressed against the external force applied to the solar cell module 100. it can.

  In addition, since the frame 10 includes the sealing material retaining portion 12 in the outer frame portion 10d, the distance between the side surface end portion of the solar cell panel 101 and the frame 10 is increased, and the insulation is improved.

Embodiment 2. FIG.
FIG. 2 is a diagram showing a configuration of a second embodiment of the solar cell system according to the present invention. The solar cell system 210 is configured by mounting a plurality of solar cell modules 200 on a gantry 40 and fixing the solar cell module 200 to the gantry 40 using a construction member 42 that is a fixing member. In addition, in FIG. 2, the fixing location of the solar cell module 200 and the mount frame 40 is partially illustrated.

  The solar cell module 200 includes a solar cell panel 101 and a frame 30. Solar cell panel 101 is the same as that in the first embodiment. The frame 30 includes an upper flange portion 30a, an intermediate flange portion 30b, a lower flange portion 30c, and an outer frame portion 30d. The upper flange portion 30a extends from the upper end of the outer frame portion 30d, the lower flange portion 30c extends from the lower end of the outer frame portion 30d, and the middle flange portion 30b extends from the upper end of the outer frame portion 30d. The panel 101 extends from a portion that is approximately the same length as the thickness of the panel 101. The frame 30 is generally E-shaped when viewed from the side.

  The upper flange portion 30a, the middle flange portion 30b, and the outer frame portion 30d form a solar cell panel fitting portion 31 at a portion surrounded by these three sides. The upper flange portion 30a is formed with a sealing material retaining portion 32 that is recessed upward. That is, the solar cell panel fitting portion 31 is provided with the sealing material retaining portion 32 at a portion facing the surface of the solar cell panel 101. In the upper flange portion 30a, a portion corresponding to the bottom of the sealing material retaining portion 32 protrudes in the opposite direction to the solar cell panel 101, and a convex portion 33 is formed. A sealing material 106 is disposed in the solar cell panel fitting portion 31, and the sealing material 106 is interposed between the upper flange portion 30 a, the middle flange portion 30 b, the outer frame portion 30 d, and the solar cell panel 101. Yes.

  Since the sealing material retaining portion 32 is formed in the solar cell panel fitting portion 31, the sealing material 106 is prevented from protruding from the solar cell panel fitting portion 31 when the frame 30 is attached to the solar cell panel 101. As a result, the assembly of the frame 30 is facilitated, the water resistance is improved, and the water does not easily enter the solar cell panel fitting portion 31. In addition, since the sealing material retaining portion 32 is formed in the solar cell panel fitting portion 31, an adhesive surface on the frame 30 side is increased as compared with the case where the sealing material retaining portion 32 is not provided, and the sealing is performed. Since the holding amount of the material 106 increases, the solar cell panel 101 and the frame 30 can be firmly bonded.

  The gantry 40 has a frame placement portion 41.

  The construction member 42 has a U-shaped cross-sectional view having a top plate 42a and a side plate 42b, and the lower side is open. The construction member 42 may have a length corresponding to the frame 30 or may be shorter than the frame 30. The construction member 42 is fastened to the gantry 40 using a fastening member (not shown) (such as a bolt or a rivet).

  When fixing the solar cell module 200 to the gantry 40, the lower flange portion 30c is disposed on the frame mounting portion 41, and the construction member 42 disposed on the gantry 40 so as to cover the convex portion 33 is not illustrated. The solar cell module 200 is sandwiched and fixed between the frame mounting portion 41 and the construction member 42 by being fixed to the gantry 40 with the fastening member.

  As described above, the frame 30 of the solar cell module 200 according to Embodiment 2 does not include the flange portion only for fixing to the gantry 40, and has a frame structure in which the frame material is reduced.

  Further, the frame 30 has a small distance between the convex portion 33 that is a fixed portion to the gantry 40 and the solar cell panel fitting portion 31 (a place where the external force received by the solar cell panel 101 is transmitted to the frame 30 and the frame 30. Therefore, the bending moment generated in the frame 30 is reduced, and the deformation of the frame 30 can be suppressed.

  Moreover, since the side plate 42b engages with the convex part 33 by covering the convex part 33 with the construction member 42, the horizontal movement of the solar cell module 200 can be regulated.

  In addition, since the solar cell module 200 includes a structure (convex portion 33) for fixing to the gantry 40, the attachment work to the gantry 40 is easy.

Embodiment 3 FIG.
FIG. 3 is a diagram showing a configuration of a third embodiment of the solar cell system according to the present invention. The solar cell system 310 is configured by mounting a plurality of solar cell modules 300 on a gantry 60 and fixing the solar cell module 300 to the gantry 60 using a construction member 62 that is a fixing member. In FIG. 3, a fixing portion between the solar cell module 300 and the gantry 60 is partially illustrated.

  The solar cell module 300 includes a solar cell panel 101 and a frame 50. Solar cell panel 101 is the same as that in the first embodiment. The frame 50 includes an upper flange portion 50a, an intermediate flange portion 50b, a lower flange portion 50c, a first outer frame portion 50d, and a second outer frame portion 50e. The upper flange portion 50a extends from the upper end of the first outer frame portion 50d, the lower flange portion 50c extends from the lower end of the second outer frame portion 50e, and the middle flange portion 50b is the second outer frame portion. It extends so as to connect the upper end of 50c and the lower end of the first outer frame portion 50d.

  The upper flange portion 50a, the middle flange portion 50b, and the first outer frame portion 50d form a solar cell panel fitting portion 51 in a portion surrounded by these three sides. The middle flange portion 50b has a seam portion with the first outer frame portion 50d recessed downward to form a sealing material retaining portion 52. That is, the solar cell panel fitting portion 51 is provided with the sealing material retaining portion 52 at a portion facing the back surface of the solar cell panel 101. In the middle flange portion 50 b, a portion corresponding to the bottom of the sealing material retaining portion 52 protrudes in the opposite direction to the solar cell panel 101 to form a convex portion 53. A sealing material 106 is disposed in the solar cell panel fitting portion 51, and the sealing material 106 is interposed between the upper flange portion 50a, the middle flange portion 50b, the first outer frame portion 50d, and the solar cell panel 101. doing.

  Since the sealing material retaining portion 52 is formed in the solar cell panel fitting portion 51, the sealing material 106 is prevented from protruding from the solar cell panel fitting portion 51 when the frame 50 is attached to the solar cell panel 101. As a result, the assembly of the frame 50 is facilitated, the water resistance is improved, and the water does not easily enter the solar cell panel fitting portion 51. Further, since the sealing material retaining portion 52 is formed in the solar cell panel fitting portion 51, the adhesive surface on the frame 50 side becomes larger than the case where the sealing material retaining portion 52 is not provided, and the sealing is performed. Since the holding amount of the material 106 increases, the solar cell panel 101 and the frame 50 can be firmly bonded.

  The gantry 60 includes a frame placement portion 61. The frame placing portion 61 has a widthwise end portion 61b protruding from the central portion 61a, and has a concave shape in side view. That is, in the gantry 60, the frame mounting portion 61 is an engaging recess.

  The construction member 62 is a flat plate member. The construction member 62 may have a length corresponding to the frame 50 or may be shorter than the frame 50. The construction member 62 is fastened to the gantry 60 using a fastening member (not shown) (such as a bolt or a rivet).

  When the solar cell module 300 is fixed to the gantry 60, the intermediate flange portion 50 b is disposed on the frame mounting portion 61, and the construction member 62 disposed on the gantry 60 in a superimposed manner is fastened (not shown). The solar cell panel fitting portion 51 is sandwiched between the frame placing portion 61 and the construction member 62 by being fixed to the gantry 60 by the member, and the solar cell module 300 is fixed.

  Thus, the frame 50 of the solar cell module 300 according to Embodiment 3 does not include a flange portion only for fixing to the gantry 60, and has a frame structure in which the frame material is reduced.

  Furthermore, since the solar cell panel fitting part 51 is inserted | pinched between the frame mounting part 61 and the construction member 62, and the flame | frame 50 is fixed to the mount frame 60, the external force received with the solar cell panel 101 is the frame 50. The position transmitted to the frame 50 matches the position where the frame 50 is fixed to the gantry 60. Therefore, the bending moment generated in the frame 50 is reduced, and deformation of the frame 50 can be suppressed.

  In addition, since the frame 50 includes the sealing material retaining portion 52 in the middle flange portion 50b, the distance between the back surface of the solar cell panel 101 and the frame 50 is increased, and the insulation is improved.

  Furthermore, when the solar cell module 300 is mounted on the frame mounting portion 61, both end portions 61 b engage with the convex portion 53, so that the horizontal movement of the solar cell module 300 can be restricted.

  In addition, since the solar cell module 300 includes a structure (convex portion 53) for fixing to the gantry 60, attachment work to the gantry 60 is easy.

  As described above, the solar cell module and the solar cell system according to the present invention are useful in that the deformation of the frame can be suppressed while reducing the amount of the frame material used, and in particular, the strong wind in which an external force is easily applied to the solar cell panel. Suitable for installation in snow and heavy snow.

  10, 30, 50, 70 frame, 10a, 30a, 50a upper flange part, 10b, 30b, 50b middle flange part, 10c, 30c, 50c lower flange part, 10d, 30d outer frame part, 50d first outer frame part, 50e 2nd outer frame part, 11, 31, 51, 71 Solar cell panel fitting part, 12, 32, 52, 72, 73, 74 Sealing material retaining part, 13, 33, 53 Convex part, 20, 40, 60 Base, 21, 41, 61 Frame placement part, 22, 42, 62 Construction member, 42a Top plate, 42b Side plate, 61a Central part, 61b End part, 75 Fixing frame part, 100, 200, 300, 400 Solar cell Module, 101 Solar cell panel, 102 Translucent insulating substrate, 103 Back film, 104 Solar cell, 105 Sealing resin, 106 Sealing material 110, 210, 310 solar cell system.

Claims (7)

It has a solar cell panel and a frame provided with a solar cell panel fitting part that covers the peripheral part of the solar cell panel, and the solar cell panel is fitted into the solar cell panel fitting part via a sealing material. A solar cell module,
The frame is recessed in a surface facing the solar cell panel of the solar cell panel fitting portion and stops the sealing material, and a portion corresponding to the bottom of the recess protrudes in a direction opposite to the solar cell panel. A solar cell module, comprising: a convex portion formed in the same manner.   The solar cell module according to claim 1, wherein the solar cell panel fitting portion is provided with the concave portion in a portion facing a side surface of the solar cell panel.   The solar cell module according to claim 1, wherein the solar cell panel fitting portion is provided with the concave portion in a portion facing the surface of the solar cell panel.   The solar cell module according to claim 1, wherein the solar cell panel fitting portion is provided with the concave portion in a portion facing the back surface of the solar cell panel. A solar cell system having a plurality of solar cell modules according to claim 2,
A platform on which a plurality of the solar cell modules are placed;
Including a plate-shaped construction member for fixing a plurality of the solar cell modules to the gantry,
The solar cell system, wherein the construction member and the mount sandwich the convex portions of each of the plurality of solar cell modules from above and below. A solar cell system comprising a plurality of solar cell modules according to claim 3,
A platform on which a plurality of the solar cell modules are placed;
A top plate and a side plate extending downward from both ends of the top plate have a concave cross-sectional shape that opens downward, and includes a construction member that fixes a plurality of the solar cell modules to the gantry. ,
The construction member covered from above on the plurality of solar cell modules so that the side plate engages with the convex portion, and the mount sandwich the plurality of solar cell modules from above and below. Solar cell system. A solar cell system comprising a plurality of solar cell modules according to claim 4,
A platform on which a plurality of the solar cell modules are placed;
Including a plate-shaped construction member for fixing a plurality of the solar cell modules to the gantry,
The mount has an engagement recess that engages with the projection,
The construction member and the gantry sandwich the solar cell panel fitting portion of each of the plurality of solar cell modules in a state where the convex portion is engaged with the engaging concave portion from above and below. Battery system.

Images