JPWO2010082355A1 - Solar cell fixing device - Google Patents

Abstract

A flat plate portion (310) formed along the upper surface of the asphalt single (100) and having a bolt hole (311) for a bolt (350) to the asphalt single (100), and a flat plate portion (310) A projecting part (320) projecting vertically to the projecting part, and projecting in parallel with the asphalt single (100) from the projecting part (320), in contact with the upper and lower surfaces of the solar cell module (200), and parallel to the asphalt single (100). A cable (230) formed by a sandwiching portion (330) having a pair of pressing plate pressing plates (331, 332) to be held by the flat plate portion 310 and the protruding portion 320 and conducting to the solar cell module (220) is fixed. Cable storage portions (312 and 313).

Description

  The present invention relates to a solar cell fixing device installed on an upper surface of a roof material such as asphalt single that is put on a roof of a house, and particularly relates to a device that has a small number of parts and is easy to install.

  There is known a method of attaching a solar cell module to a roofing material to be laid on the roof of a house. 6 and 7 are diagrams showing an example of a structure for attaching such a solar cell module. In FIG. 6, reference numeral 100 denotes an asphalt single (roof material), and 200 denotes a solar cell module.

  The solar cell module 200 is fixed on the asphalt single 100 as follows. That is, the supporting metal 10 serving as a substrate is screwed to the truss or the like, which is the main structural part of the building, from the upper surface side of the asphalt single 100 with the screws 11. A long frame 30 for fixing the solar cell module 200 is attached to the support hardware 10 with L-shaped metal fittings 20 via bolts 21 and 22. Furthermore, the solar cell module 200 is attached to the long frame 30 using the mounting brackets 40 and 50.

  With such a mounting structure, the support fitting 10 is arranged on the top surface of the asphalt single 100 and screwed from the top surface of the asphalt single 100 toward the roof base material with the screws 11, and then the L-shaped fitting 20 is supported by the bolts 21. Tighten to the bracket 10. Next, the long frame 30 is fastened to the L-shaped metal fitting 20 with bolts 22. Furthermore, the operation of fixing the solar cell module 200 with the mounting brackets 40 and 50 while repeating the solar cell module 200 on the long frame 30 is repeated.

  Furthermore, after the solar cell module 200 is fixed, as shown in FIG. 7, a cable 230 that supplies electric power from the solar cell module 200 to the outside is attached to the long frame body 30 via an insulation lock 70.

  In addition, a structure in which a solar cell module is fitted to a dedicated frame and the frame is attached to a metal fitting is known (Japanese Patent Laid-Open No. 2008-95281).

  The solar cell fixing device described above has the following problems. That is, the parts used for fixing the solar cell are each independent parts, and the number of parts increases. For this reason, there is a problem that the cost of parts increases and the work is complicated and the installation cost increases.

  Therefore, an object of the present invention is to provide a solar cell solar cell fixing device that has a small number of parts and can be easily installed.

  In order to solve the above problems and achieve the object, the solar cell fixing device of the present invention is configured as follows.

  In a solar cell fixing device for fixing a flat solar cell module on a roof material, a flat plate formed along the top surface of the roof material and having an insertion hole for a fastening member to the roof material And a pair of protrusions projecting perpendicularly to the flat plate part, projecting further in parallel with the roof material from the projecting part, contacting the upper surface and the lower surface of the solar cell module, and holding in parallel with the roof material And a cable housing portion that is formed by at least the flat plate portion and the protruding portion and fixes a cable that is electrically connected to the solar cell module.

FIG. 1 is a perspective view showing a solar cell module attached on an asphalt single (roofing material) by a solar cell fixing device according to an embodiment of the present invention. FIG. 2 is a cross-sectional view showing a main part of the solar cell fixing device. FIG. 3 is a cross-sectional view showing a decorative cover attached to the solar cell fixing device. FIG. 4 is a perspective view showing the solar cell module. FIG. 5 is a perspective view showing the arrangement of spacers used in the solar cell fixing device. FIG. 6 is a perspective view showing an example of a solar cell fixing device. FIG. 7 is a side view showing a main part of the solar cell fixing device.

  FIG. 1 is a perspective view showing a solar cell module 200 mounted on an asphalt single 100 by a solar cell fixing device 300 according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a main part of the solar cell fixing device 300. 3 is a cross-sectional view showing a decorative cover 400 attached to the solar cell fixing device 300, FIG. 4 is a perspective view showing a plurality of solar cell modules 200, and FIG. 5 is a perspective view showing an arrangement of spacers 130.

  In FIG. 1, 100 is an asphalt single (roof material), 200 is a solar cell module, and 300 is a solar cell fixing device. In FIG. 1, the same functional parts as those in FIGS.

  The asphalt single 100 is formed by overlapping a plurality of types of plate materials 110 and 120 having a thickness of about 3 mm (see FIG. 5), and is fixed on a roof base material (not shown). A step portion D is formed between the plate member 110 and the plate member 120, and the maximum step is about 9 mm corresponding to three sheets of the plate members 110 and 120.

  The solar cell module 200 includes a square frame-shaped frame 210 and solar cells 220 supported by the frame 210 and arranged in a matrix. The external appearance of the solar cell module 200 is flat. The solar cell module 200 is attached with a cable 230 for outputting electric power to the outside (see FIG. 2).

  The solar cell fixing device 300 includes a flat plate portion 310 formed along the upper surface of the asphalt single 100, a protruding portion 320 protruding perpendicular to the flat plate portion 310, and further protruding in parallel with the asphalt single 100 from the protruding portion 320. The frame 210 includes a lower surface 211 and a sandwiching portion 330 that is in contact with the upper surface 210 and is held in parallel with the asphalt single 100. The flat plate portion 310, the protruding portion 320, and the sandwiching portion 330 are integrally formed of a metal material and have a function of grounding. Moreover, it forms in the same cross section in the depth direction of FIG.

  The sandwiching portion 330 has a pair of pressing plates 331 and 332 that are parallel to the flat plate portion 310. The gap between the pressing plates 331 and 332 is set to 35 mm or 46 mm, for example, and corresponds to the thickness of the frame 210. The solar cell module 200 can be slid and inserted between the pressing plates 331 and 332.

  The flat plate portion 310 is formed with a bolt hole 311 through which a bolt 350 for screwing into the asphalt single 100 is inserted. In addition, flange-shaped cable storage portions 312 and 313 are provided.

  A water stop member 370 is provided on the mounting surface (lower surface) of the flat plate portion 310 by a resin material or the like.

  A screw hole 321 provided between the pair of pressing plates 331 and 332 is formed in the protruding portion 320. A screw 360 is screwed into the screw hole 321 and fastened to the frame 210, so that the frame 210 can be prevented from being laterally displaced and the frame 210 can be grounded.

  Further, as shown in FIG. 3, a decorative cover 400 is detachably fixed to the clamping unit 330. The decorative cover 400 includes a fitting portion 410 fitted into the holding portion 330 and a cover portion 420 provided integrally with the fitting portion 410 and exposed to the outside. The decorative cover 400 is arranged toward the eaves or the like, and covers the solar cell fixing device 300 so as not to be exposed.

  Note that the solar cell fixing device 300 is not only arranged in the middle of the frame 210 but also has a function of connecting the solar cell modules 200 adjacent to the same clamping unit 300 by attaching them simultaneously as shown in FIG. is doing.

  In the asphalt single 100, spacers 130 are stacked on the stepped portion D as necessary, and no gap is generated between the flat plate portion 310 and the upper surface of the asphalt single 100. As the spacer 130, one to three spacers having a thickness of 3 mm are combined, or ones having a thickness of 3 mm and 6 mm are combined.

  Using the solar cell fixing device 300 configured as described above, the solar cell module 200 is mounted on the asphalt single 100 as follows. That is, the height position is adjusted by the spacer 130, the asphalt single 100 is flattened, the flat plate portion 310 is placed on the asphalt single 100, and the bolt 350 is screwed from the bolt hole 311 toward the roof base material.

  Next, the solar cell module 200 is slid and attached to the sandwiching portion 330 of the solar cell fixing member 300. At this time, the screw 360 is appropriately screwed into the screw hole 321 to fix the solar cell module 200. The solar cell module 200 can be installed in the asphalt single 100 by repeating this operation.

  At this time, the cable 230 connected to the solar cell module 200 is stored in the cable storage units 312 and 313.

  As described above, in the solar cell fixing device 300 according to the present embodiment, the member that is fixed on the asphalt single 100 and the member that supports the solar cell module 200 are integrated, thereby reducing the component cost. be able to. Moreover, since the operation | work which fixes to the asphalt single 100 and the operation | work which fixes the solar cell module 200 can be performed simultaneously, an operation | work can be simplified and installation cost can be reduced.

  Moreover, since the solar cell fixing device 300 can be slid along the frame 210 of the solar cell module 200, it can be directly fixed to a roof base material such as a truss that supports the asphalt single 100, thereby increasing the mounting strength. Can do. Therefore, the number of bolts and screws can be reduced. Moreover, since the length of the flat plate part 310 of the solar cell fixing device 300 in the sliding direction is shorter than that of the frame 210, it can be easily increased when it is desired to increase the mounting strength.

  Furthermore, since the cable storage portions 312 and 313 are provided, the cable 230 can be fixed without using additional components, so that the number of components can be reduced.

  Further, by installing the spacer 130 on the lower surface of the solar cell fixing device 300, the step difference between the solar cell modules 200 can be adjusted by arranging the spacer 130 between the adjacent solar cell modules 200.

  Note that the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the present invention. For example, in the above-described example, asphalt single is used as the roofing material. However, if the roofing material has a flat roof surface, the spacer 130 becomes unnecessary and the installation becomes easier.

  According to the present invention, it is possible to reduce the component cost and the installation cost when the solar cell module is attached to the roof material.

Claims (5)

In a solar cell fixing device for fixing a flat solar cell module on a roof material,
A flat plate portion formed along the upper surface of the roof material, and formed with an insertion hole for a fastening member to the roof material,
A projecting portion projecting perpendicular to the flat plate portion;
Further projecting in parallel with the roofing material from this projecting part, in contact with the upper surface and the lower surface of the solar cell module, a sandwiching part having a pair of pressing plates to be held in parallel with the roofing material,
A solar cell fixing device comprising: a cable housing portion configured to fix a cable that is formed by at least the flat plate portion and the protruding portion and is electrically connected to the solar cell module.   The projecting portion is formed with a bolt hole provided between the pair of pressing plates.   The solar cell fixing device according to claim 1, wherein a water-stop member is provided on an attachment surface of the flat plate portion.   The solar cell fixing device according to claim 1, wherein a decorative cover is detachably fixed to the sandwiching portion. In the roof material, a step is formed,
The solar cell fixing device according to claim 1, wherein a spacer is disposed between the flat plate portion and the stepped portion.

Images