JP5485622B2 - Wall structure - Google Patents

Description

  The present invention relates to a wall surface structure in which a solar cell panel and a wall surface material are integrated.

In recent years, photovoltaic power generation systems have been widely used as clean energy that converts natural power into electric power.
In general, a photovoltaic power generation system performs power generation by installing a solar cell panel on a roof or a roof of a building.
Conventional solar cell panels are heavy and are placed on the roof or rooftop in a state where they are installed on a gantry. Since the problem of landscape is unlikely to occur on the roof or rooftop, the wiring cable of the photovoltaic power generation system is wired in the exposed state below or around the solar cell panel.

  In the photovoltaic power generation system, the amount of power generation increases as the installation area of the solar cell panel increases. For this reason, the solar power generation system which can be installed in the wall surface of a building which can take a large area is calculated | required.

However, when the solar cell panel is installed on the wall surface, there are the following problems.
<1> The wall surface of the building is important in view of the landscape, and the method of arranging the cables for the solar panel becomes a problem.
<2> The wall surface of the building is important for the landscape, and the method for attaching the solar cell panel is an issue.
<3> Installation on the wall surface makes it difficult to inspect and repair the solar cell panel after installation.

  The objective of this invention aims at providing the wall surface structure which integrated the solar cell panel and the wall surface panel which can utilize the wall surface of a building as a solar power generation system, without impairing a landscape.

1st invention of this application made in order to achieve the said objective is a rectangular wall surface panel, the solar cell panel arrange | positioned on the surface of the said wall surface panel, the cable box which accommodates the cable extended from the said solar cell panel, A wall surface structure integrated with a solar cell panel, wherein the cable box comprises a box for drawing the cable, and a lid for sealing the open surface of the box, The wall panels are arranged in parallel by joining the long sides of the adjacent wall panels, and the cable box is disposed along the short sides of the wall panels arranged in parallel with the lid body in front. Provided is a solar cell panel-integrated wall surface structure.
2nd invention of this application is a solar cell panel integrated wall surface structure of 1st invention, Comprising: The surface of the said wall surface panel is based on the thin plate part and the plate | board thickness part located along the long side of the both sides of the said thin plate part. And forming opposite grooves on the step surface between the thin plate portion and the plate thickness portion so that both ends of the solar cell panel can be housed and held in the opposite grooves. A solar cell panel-integrated wall surface structure is provided.

The present invention can obtain at least one of the following effects by means for solving the above-described problems.
<1> Since the cable is stored in the cable box provided along the wall surface panel, the cable is not exposed and the scenery of the wall surface of the building is not damaged.
<2> Since the solar cell panel is housed and held in a groove provided in the wall surface panel, the scenery of the wall surface of the building is not impaired by the fixture or mount of the solar cell panel.
<3> Since the solar cell panel is housed and held in a groove provided in the wall panel, the solar cell panel can be easily inspected, repaired, and replaced.
<4> Since the cable is stored in a cable box provided along the wall surface panel, it is easy to store the cable, check the wiring status, and re-wiring the solar battery panel.

Explanatory drawing of the solar cell panel integrated wall surface structure of the present invention Cross section of wall panel Explanatory drawing of mounting state of wall panel and solar cell panel Cross section of cable box

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<1> Overall Configuration of the Present Invention The solar cell panel integrated wall surface structure of the present invention is constituted by a wall surface panel 1, a solar cell panel 2, and a cable box 3. (Figure 1)

<2> Wall Panel The wall panel 1 is a rectangular plate.
The wall surface panel 1 is attached to a building as an exterior material to form a wall surface.
The wall surface panel 1 is formed by extruding a ceramic material such as cement.

<2-1> Shape of Wall Panel The wall panel 1 is a rectangular member in which the thickness is not uniform, the central portion in the short side direction is thin, and the long sides on both sides are thick.
That is, the one surface is formed by the thin plate portion 1a at the center and the thick plate portions 1b located on both sides of the thin plate portion 1a. (Figure 2)
The thin plate portion 1 a and the plate thickness portion 1 b have stepped surfaces 11 facing each other along the long side of the wall surface panel 1.
A through hole 12 is formed in the wall surface panel 1 for weight reduction.

<2-2> Groove A groove 13 having a certain depth is formed in the stepped surfaces 11 facing each other.
The depth direction of the groove 13 is a direction parallel to the surface of the thin plate portion 1a, and the bottom surface of the groove 13 is a direction orthogonal to the surface of the thin plate portion 1a.
The groove 13 is formed over substantially the entire length of the wall surface panel 1 along the long side of the wall surface panel 1.

<2-3> Interval A certain restriction is provided on the interval between the bottom surfaces of the grooves 13 facing each other.
That is, the distance L1 between the bottom surface of one groove 13 and the bottom surface of the other groove 13 is formed to be slightly larger than the width L2 of the solar cell panel 2 to be attached.
The extra length is set to a size that can be sufficiently accommodated even when the solar cell panel 2 is deformed by temperature.
By forming in this way, even if there is a large temperature change after construction, the solar cell panel 2 will not be bent, deformed, or sag.

<3> Solar cell panel The solar cell panel 2 is a sheet-like member having a rectangular shape and flexibility.
Unlike the conventional glass-type solar power generation material, the sheet-like solar cell panel 2 does not decrease the power generation efficiency even if there is no air layer on the back surface. Can be used as part.
Moreover, since the sheet-like solar cell panel 2 is lightweight, handling at a construction site is easy.

<4> Attaching the solar cell panel When attaching the solar cell panel 2 to the wall surface panel 1, the sheet-like solar cell panel 2 is slightly curved (FIG. 3), or the end of the short side of the wall surface panel 1 And the both ends are housed in a groove 13 formed on the surface of the wall surface panel 1.
Since the solar cell panel 2 is housed and mounted in the groove 13, it can be easily constructed even at a construction site.
The solar cell panel 2 is filled with a filler or the like in the gap with the groove 13 and the end on the short side is fixed to the wall panel with a fixing member with an L-shaped member. The filler and the fixing member are configured to be removable.
With such a configuration, the solar cell panel 2 has a detachable structure, and the solar cell panel 2 can be easily replaced at the time of failure or when the solar power generation system is updated.

<5> Attachment of Wall Panel As described above, the wall surface panel 1 integrated with the solar cell panel 2 is attached to the side surface of the building as an outer wall material. The attachment means can employ many conventionally known configurations.
A plurality of wall surface panels 1 are arranged in parallel, and the long sides of the adjacent wall surface panels 1 are joined and attached.
The wall surface panel 1 and the solar cell panel 2 can be easily integrated, and the wall surface of the building can be used as a photovoltaic power generation system.
Since the wall surface of the building occupies most of the surface of the building, it is possible to construct a photovoltaic power generation system with a large amount of power generation.

<6> Cable box A cable box 3 is arranged along the short sides of the plurality of parallel wall surface panels 1 and attached to the building. As in the case of the wall surface panel 1, many conventionally known configurations can be adopted as the attachment means.
As for the solar cell panel 2 attached to the wall surface panel 1, one end of the long side direction is plus and the other is minus, and the cable 21 extends from each end. That is, the cable 21 extends from the short side end of the wall surface panel 1.
The cable box 3 is a hollow box and houses the cable 21 extending from the solar cell panel 2.
The cable box 3 includes a box 31 and a lid 32.
The box 31 is a box-shaped member having a U-shaped cross section, and is arranged along the short side of the wall surface panel 1 so that the open surface is the front surface.
A locking member 311 extending from the open surface is attached to the inner surface of the box 31.
The lid 32 is detachably attached to the locking member 311 so as to seal the open surface of the box 31.

<7> Storage of Cable The cable 21 extending from the solar cell panel 2 is stored in the cable box 3 through the notch 312 formed in the locking member 311.
Since the cable box 3 is arranged along the wall surface panel 1 in an exposed state so as to form a wall surface, the cable 21 can be easily accommodated. Further, since the cable box 3 is exposed on the wall surface, it is easy to check the wiring state of the cable 21 and to rewire the cable 21 when the solar battery panel 2 fails or when the solar power generation system is updated.
The notch 312 is formed at a position corresponding to the extending portion of the cable 21 from the solar cell panel 2 in the locking member 311.
The notches 312 are formed in the upper and lower locking members 311 of the box 31, respectively. The cable box 3 accommodates not only the cable 21 for the wall panel 1 arranged in parallel on the upper side but also the cable for the wall panel 1 arranged in parallel on the lower side.
The accommodated cable 21 is connected to the power conditioner of the photovoltaic power generation system via the inside of the cable box 3.
Since the cable 21 is housed in the cable box 3, deterioration due to sunlight or wind and rain can be prevented. Moreover, the cable 21 is not exposed and the scenery of the wall surface of the building is not damaged.

<8> Opening and Closing of Cable Box Filling material 4 is filled between the cable box 3 in which the cable 21 is housed and the lid portion 32 is attached, and the wall panel 1. The filler 4 is configured to be removable.
The filler 4 prevents rainwater from entering the cable box 3, and the cable box 3 can be opened and closed by removing the filler 4, so that the cable 21 can be checked and the solar panel 2 can be broken. It is easy to rewire the cable 21 at the time or when the solar power generation system is updated.

DESCRIPTION OF SYMBOLS 1 Wall surface panel 11 Wall surface 12 Through-hole 13 Groove 2 Solar cell panel 21 Cable 3 Cable box 31 Box 311 Locking member 312 Notch 32 Cover body 4 Filling material

Claims (2)

A rectangular wall surface panel, a solar cell panel disposed on the surface of the wall surface panel, a cable box that houses a cable extending from the solar cell panel, and a solar cell panel integrated wall surface structure comprising:
The cable box is composed of a box for drawing the cable, and a lid for sealing the open surface of the box.
A plurality of the wall panels are joined in parallel by joining the long sides of the adjacent wall panels,
The cable box is disposed along the short sides of the wall panels arranged in parallel with the lid body in front, to form a wall surface,
Solar cell panel integrated wall structure. The solar cell panel-integrated wall surface structure according to claim 1,
The surface of the wall panel is formed by a thin plate portion and a plate thickness portion located along the long sides on both sides of the thin plate portion,
On the step surface between the thin plate portion and the plate thickness portion, a groove facing each other is formed,
The solar battery panel is configured so that both ends of the solar battery panel can be housed and held in the grooves facing each other.
Solar cell panel integrated wall structure.

Images