JPH1037405A - Tile for arranging solar generating panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To fix and stabilize a solar generating panel by a method wherein the side of the tile head part side of the side of a recessed plate arranged on each of the surfaces of plate-form tiles, with which the roof of a building, such as a housing, is roofed, is notched and a through-hole communicated with a tile back is formed in the bottom of a recessed place. SOLUTION: A shape comprised of a bottom 4 and three sides 3 of a recessed plate 2 is made approximately equal to a shape comprised of the bottom and the three sides of a solar generating panel. Further, the thickness (t) of the side 3 of the recessed plate 2 is made equal to or greater than that of the side of the panel and both plus and minus lead wires are inserted in a through- hole 5. A silicone caulking agent is then applied on the three sides 3 and the bottom 4 of the recessed plate 2 of a roofed tile 1 for a panel. In this case, the through-hole 5 and a gap between the tile 1 for panel and the solar generating panel are caulked with the silicone caulking agent and the tile 1 for a panel and the solar generating panel are adhered to each other as an adhesive. This constitution stably mounts the panel on the tile 1 for a panel with high adhesion and prevents blow-off of the panel by strong wind.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tile used for installing a solar panel on a roof.

[0002]

2. Description of the Related Art Generally, when a solar power generation panel is installed on a tiled roof of a building such as a house, the solar power generation panel is directly adhered to a tile or installed via a fixture.

[0003]

However, the above-mentioned prior art has various disadvantages. When a solar power panel and a tile are directly bonded, the shape of the tile is curved or corrugated, and the shape of the solar power panel is a flat plate. However, it was difficult to directly bond the two. Further, even if the two are bonded, the bonding area is reduced, so that the bonding strength is also reduced. When installing via a fixture, it takes time to attach the fixture to the roof. In addition, when the area of the solar power generation panel increases, the weight of the solar power generation panel also increases, and the pressure between the fixture and the roof tile increases, and the roof tile may be cracked. In either case, it is difficult to install the solar power panel, and even if the solar power panel is installed, the solar power panel protrudes above the roof tiles, which impairs the aesthetics of the roof and prevents the solar power panel from There is a possibility that a strong wind blows into the space and the solar power panels and tiles are blown away.

[0004] The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to provide a roof tile in which a solar power generation panel can be easily mounted and is stable even after mounting.

[0005]

Means for Solving the Problems To achieve the above object, the tile of the present invention is provided with a recess in the surface of a flat tile used for roofing a building such as a house. Of the side surfaces of the recess, the side surface on the head side of the tile is missing, and a through hole is provided on the bottom surface of the recess to communicate with the back surface of the tile.

A solar power generation panel may be mounted in advance in the recess of the tile according to the present invention using an adhesive.

BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In FIG. 1, a roof tile 1 of the present invention (hereinafter, this roof tile is referred to as a “panel roof tile 1”) has a water return portion 1b on the roof surface of the roof and a locking portion 1c on the back surface of the roof, like a conventional roof tile.
It has a through hole 1d through which a nail or a screw is inserted into the bottom of the tile, a drainer 1e on one side, and a drainer insertion space (not shown) for inserting the drainer 1e of another tile adjacent to the other side. The feature of this tile is that it is provided with a concave portion 2 on the surface, and the side surface 3 of the concave portion 2 lacks the side surface on the head 1a side of the tile, and the bottom surface 4 of the concave portion 2 That is, a through hole 5 communicating with the back surface of the tile is provided.

The size of the panel tile 1 is preferably the same as that of a conventional flat tile, but the size may be changed in accordance with the size of the solar power generation panel, the construction method, and the like. The material of the panel tile 1 is preferably the same as that of a conventional tile, but may be a metal such as stainless steel or aluminum or a synthetic resin. The shape of the bottom surface 4 and the three side surfaces 3 of the recess 2 is substantially equal to the shape of the bottom surface and the three side surfaces of the solar power generation panel, and the thickness t of the side surface 3 of the recess 2 is It is preferable that the thickness is equal to or greater than the thickness of the side surface. The through-hole 5 is for inserting one positive lead wire and one negative lead wire, and the size thereof is preferably small enough to allow two lead wires to be inserted. Two through-holes, namely, a through-hole for through-hole and a through-hole for minus lead wire, and the size of each of these two through-holes may be reduced to such an extent that one lead wire can be inserted. The position of the through-hole 5 is not limited to the illustrated position as long as the position is on the bottom surface 4 of the recess 2, and may be appropriately changed according to the position of the lead wire of the solar power generation panel.

Next, how to roof the panel tile 1 will be described. In a roof using a solar power generation system, plus and minus lead wires 6 for supplying power to a solar power generation system (not shown) are previously wired by the number of panel tiles 1. In this state, as shown in FIGS. 2 and 3, first, the tips of the positive and negative lead wires 6 are inserted from the back surface of the panel tile 1 into the through holes 5 and protrude from the front surface. Next, the lower part of the head 1a of the tile is placed on the panel roof tile 1 on the eaves side.
The panel tile 1 is placed on the roof base by placing the locking portion 1c on the roof of the tile 11 and inserting the drain portion 1e into the drain portion insertion space of another adjacent panel tile 1. The panel tile 1 is fixed by inserting a nail or the like into the through hole 1d. This operation is repeated vertically and horizontally, and the panel tile 1 is laid on the roof.

Next, a procedure for mounting the solar power generation panel 7 will be described. In FIG. 3, each of the plus and minus lead wires 6 protruding from the surface of the panel tile 1 is connected to each of the plus and minus lead wires 8 of the solar power generation panel 7, and silicon coking is performed. The agent is applied to the three side surfaces 3 and the bottom surface 4 of the recess 2 of the roofed panel tile 1. Thereafter, the solar power generation panel 7 is mounted in the recess 2 so that its shape matches the shape of the recess 2 of the panel tile 1. Therefore, when the solar power generation panel 7 is mounted, the gap between the solar power generation panel 7 and the recess 2 is filled with the silicon caulking agent. The cause of the leak has been eliminated.

At this time, the silicon caulking agent cokes the through hole 5 and the gap between the panel tile 1 and the solar panel 7 and also acts as an adhesive for bonding the panel tile 1 and the solar panel 7. . Further, another caulking agent, an adhesive, or the like may be used instead of the silicon caulking agent. That is, the through hole 5 is coked with a caulking agent, and an adhesive is applied to the three side surfaces 3 and the bottom surface 4 of the recess 2, and then the solar power generation panel 7 is mounted in the recess 2. After this mounting, the gap between the solar power generation panel 7 and the three side surfaces 3 of the recess 2 may be coked with a caulking agent.

The connection between the lead wire 8 of the solar power generation panel 7 and the lead wire 6 for supplying power to the solar power generation system can be made by one-touch connection by providing an appropriate connector at each end. Work efficiency is improved.

In the above configuration, the roof tile 1 for panel has a recess 2 having substantially the same shape as the solar power generation panel 7 on the surface thereof, so that the solar power generation panel 7 can be easily mounted. Further, since the panel tile 1 and the solar panel 7 are bonded and coked with a silicon caulking agent or the like, there is no gap between the solar panel 7 and the panel tile 1, and the solar panel 7 is It is stably and strongly attached to the panel tile 1. Therefore,
The solar power generation panel 7 is not blown off by the strong wind.

In FIG. 4, the thickness t of the side surface 3 of the recess 2 is shown.
Is equal to or greater than the thickness of the side surface of the solar power generation panel 7. Therefore, when the solar power generation panel 7 is mounted on the panel tile 1, the upper surface 7
c is the same as or lower than the upper surface 1f of the panel tile 1. When the thickness t of the side surface 3 of the recess 2 is greater than the thickness of the side surface of the solar power generation panel 7, it is possible to prevent rainwater or the like from flowing backward in the ridge direction or flowing laterally in the girder direction. Thereby, the surface shape of the panel tile 1 with the solar power generation panel 7 mounted thereon is substantially equal to a conventional flat tile. Therefore, functions such as waterproofness and drainage of the tile 1 for a panel to which the solar power generation panel 7 is mounted can be maintained equivalent to those of a conventional flat tile. Moreover, since the solar power generation panel 7 is mounted without protruding above the panel tile 1, the aesthetic appearance of the roof is not impaired. Further, the solar power generation panel 7 and the panel tile 1 may be colored in the same color or similar colors to each other so as not to impair the beauty of the roof.

Here, it has been described that the solar power generation panel 7 is mounted after the panel tile 1 is laid, but the solar power generation panel 7 may be mounted in any other order. After being attached to the tile 1, the tile may be laid on the roof. This roof tile is the invention of claim 2, and an embodiment of the invention will be described below.

The embodiment of the second aspect of the present invention will be described with reference to the accompanying drawings. The following description will focus on parts different from the above-described panel tile 1, and denote the same or corresponding parts with the same reference numerals. Description is omitted. In FIG. 5, a roof tile 10 of the present invention (hereinafter, this roof tile is referred to as a “panel with panel 10”) is one in which a solar power generation panel 7 is mounted in advance in the recess 2 of the roof tile for panel 1. From the back,
The positive and negative lead wires 8 of the solar power generation panel 7 are provided.

The roofing method of the paneled tile 10 is the same as that of the conventional flat tile, except that the paneled tile 10 is locked before the Plus and minus lead wires 6 that are pre-wired to the solar power generation system,
Is connected to each of the plus and minus lead wires 8.

Since the roof tile 10 with a panel has the solar power generation panel 7 mounted in the recess 2 of the roof tile 1 for a panel, the function and effect of the roof tile 10 with a panel are as described above. It is equivalent to the action and effect of 1.

[0019]

As described above, according to the first aspect of the present invention, since the recess having the same shape as the solar power generation panel is provided on the surface, the solar power generation panel can be easily mounted. Also,
Since the solar panel is mounted without any gap between the roof tiles,
It is stable, and there is no possibility that a strong wind blows into this gap to blow off the solar power generation panel or the like.

According to the second aspect of the present invention, since the solar power generation panel is mounted on the tile in advance, the solar power generation panel is installed at the same time when the roof is tiled, and the solar power generation panel is installed. Easy to do. Further, since the solar power generation panel is mounted without a gap between the roof panel and the roof tile, the solar power generation panel is stable, and the solar power generation panel and the like are not blown off by a strong wind blowing into this gap.

[Brief description of the drawings]

FIG. 1 is a perspective view of a panel tile according to an embodiment of the present invention.

FIG. 2 is a perspective view of a roof with the panel tiles.

FIG. 3 is a cross-sectional view showing a state in which a solar power generation panel is mounted on the panel tile.

FIG. 4 is a cross-sectional view showing a state in which a solar power generation panel is mounted on the panel tile.

FIG. 5 is a perspective view of a tile with a panel showing an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Panel roof tile 1a Head 2 Depression 3 Side 4 Bottom 5 Through hole 7 Solar power generation panel

Claims (2)

[Claims] 1. A flat tile used for roofing a roof of a building such as a house, wherein a recess is provided on a surface of the tile, and a side of the recess on a side of a head of the tile. A roof tile which lacks a side surface and has a through hole formed in a bottom surface of the recess to communicate with a back surface of the roof tile. 2. The roof tile according to claim 1, wherein a solar power generation panel is mounted in the recess using an adhesive.