JPH08144440A - Structure of solar cell roof tile - Google Patents

Abstract

PURPOSE: To provide a solar cell roof tile which is excellent in durability and low at cost and easy to be constructed by fixing the solar cell roof tile with an offset portion of a cement tile substrate while supporting the solar cell roof tile on a frame. CONSTITUTION: A recessed part is formed on an offset part 31 of a cement tile substrate 3 while a solar cell 1 supported on a frame 4 is buried in the recessed part of the offset part 31 and fixedly bonded therewith, thereby connecting a wire 5 from the solar cell 1 to a draw out load from the side of the frame 4. Then, the dimension of the recessed part is arranged to be larger than that of the cell 1 so as to protect the cement tile substrate from being cracked and a sheet glass installed on the surface of the cell 1 from being damaged and to prevent their bonding from being separated and then a bonding caulking 2 is filled up so as to bury the clearance. This fixing structure makes it possible to enhance the durability of the solar cell roof tile to a greater extent, and to provide a low cost as a cement roof tile and eliminate the need for a rack which is hitherto required for a solar cell panel, for example, and install stably the cell 1 on a roof.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar cell roof tile structure. More specifically, the present invention relates to a structure of a new solar cell roof tile which can be installed on a roof without a special member such as a pedestal and which is low in cost and has good installation workability.

[0002]

2. Description of the Related Art Heretofore, in order to utilize sunlight as a natural energy, it has been proposed to arrange solar cell panels of various structures on a roof of a house or the like,
Some of them have been put to practical use. However, it is necessary to support the solar cell panel on the roof in order to dispose it on the roof, and it is unstable because the installation place is on the slope of the roof. However, there was a drawback that it was not preferable.

From such a point of view, it is considered to incorporate a solar cell in a roof tile to improve the installation stability and durability of the roof tile and to improve the appearance of the roof. For example, as shown in FIG. 16, there is proposed a solar cell roof tile (a) in which a solar cell (c) is embedded in a roof tile substrate (a) made of cement or the like, and an exposed portion (d) is arranged in front. There is. This solar cell roof tile (a) is considered so that it can be placed on the roof surface in combination with a normal roof tile (e) as shown in FIG.

[0004]

However, the above-mentioned conventionally proposed solar cell roof tile (a) has not necessarily been put into practical use. The reason is
The solar cell tile (a) does not need to be placed on the roof to support the solar cell (c), so that the solar cell tile (a) can be arranged more stably. It is because there is no prospect of how to install and fix it as a roof tile material that is durable and resistant to changes in external temperature and wind and rain.

Further, how to make wiring from the solar cell as a roof tile structure at a lower cost is still a practical problem. Therefore, the present invention solves the problems of the conventional techniques as described above, advances the idea of the solar cell roof toward practical use, has good durability, and enables low-cost manufacturing and construction, It is intended to provide a new solar cell roof tile structure.

[0006]

The present invention is to solve the above-mentioned problems by providing a stepped portion on a cement tile substrate,
A structure of a solar cell roof tile (claim 1), characterized in that the solar cell is supported by a frame body and fixed by adhesion or metal fittings. The present invention also provides a structure in which the wiring from the solar cell is drawn out from the frame side of the solar cell and connected to the load (claim 2).

Further, the present invention also provides various concrete embodiments as described in the below-mentioned embodiments of the above structure.

[0008]

In the present invention, since the solar cell is fixed to the cement tile substrate as described above, it is possible to use the solar cell at a lower cost without the need to use a stand or the like. The roof can be mixed with other flat roof tiles, and the roof will look natural. Further, in the present invention, a stronger and more durable structure of the solar cell tile is realized by bonding the cement tile substrate to the step portion or fixing the solar cell via the metal fitting. Wiring from solar cells is also possible without adopting a special roof tile structure.

Hereinafter, specific embodiments and working effects of the structure of the present invention will be described in more detail with reference to examples.

[0010]

FIG. 1 of the accompanying drawings shows, as an example of the present invention, an adhesive caulking (2) of a solar cell (1),
This is an example of fixing the cement tile substrate (3) to the step portion (31). In this example, the step portion (31) forms a concave portion, and the solar cell (1) supported by the frame body (4) is embedded and fixed in the concave portion of the step portion (31). ing. In this case, the recesses are formed so that the cement roof tile substrate (3) is not cracked, the glass plate provided on the surface of the solar cell (1) is not broken, and the adhesive is peeled off due to expansion and contraction of the solar cell (1) due to heat. Is larger than that of the solar cell (1), and the adhesive caulking (2) is filled so as to fill the gap.

The wiring (5) from the solar cell (1)
Is drawn out from the side of the frame body (4) and connected to the load. Such a fixed structure makes the solar cell roof tile more durable and at a low cost as a cement roof tile, and is stable on the roof without the need for a pedestal like conventional solar cell panels. And can be installed. The solar cell tile can be attached and fixed to the roof roof plate in the same manner as a normal flat tile, and a method such as nailing and fixing from the nail hole (6) is appropriately adopted.

In the example of FIG. 1, by using the adhesive caulking (2), as shown in, for example, FIG. 2 (a), the solar cell (1) and the roof substrate (3) are joined together. It is conceivable that water (7) will accumulate in the water. Therefore, as shown in FIG. 1 and FIG. 2 (b), to reduce the height of the catching portion for fixing the solar cell (1), on water side (h ₂₎ Underwater side than (h ₁₎ Will be more effective. This is an effective means for preventing the occurrence of troubles in the solar cell due to the penetration of rainwater from the adhesive caulking (2) part.

FIG. 3 shows another example of adhesive fixing. In FIG. 3, the solar cell (1) is fixed by an adhesive caulking (2) which is arranged in the downward flow direction with an interval in the L-shaped step portion (32) of the cement tile substrate (3). The wiring (5) from the solar cell is shown in FIG.
Similar to the example of (1), it is pulled out from the side of the frame body (4).

In the structure of this example, a gap is formed between the back surface of the solar cell (1) and the stepped portion (32) of the cement tile substrate (3) in a portion where the adhesive coking (2) is not provided. become. Even if rainwater intrudes from the adhesive caulking portion (2), this gap serves as a passage that can immediately remove the rainwater. Therefore, deterioration of the performance of the solar cell due to rainwater and troubles due to frost damage are prevented.

As in the above example, instead of fixing with an adhesive, the solar cell can be fixed to the cement tile substrate with a required metal fitting. FIG. 4 shows an example thereof. In this example, both side portions of the frame body (4) supporting the solar cell (1) are screwed (1) by the bent metal fittings (9) attached and fixed to the roof base plate by nails (8) or the like.
0) and so on.

For example, in the fixing by the bending metal fitting (9), there is no danger of detachment of the solar cell (1) due to peeling of the adhesive caulking (2) as in the example of FIG. 1 and FIG. Nor is such a step necessary. Moreover, in fixing with the adhesive caulking (2), if the solar cell (1) is damaged, the entire roof tile must be replaced, but by using the metal fitting, only the solar cell can be replaced.

Further, since the metal fittings (9) are fixed to the base plate in advance as in the example of FIG. 4, it is not necessary to fix the cement tile base plate (3) to the base plate with nails or the like. This makes maintenance easier when installing. Realizes a highly reliable solar cell roof structure that is easy to install and maintain. It should be noted that, in order to prevent the waterproof property from decreasing due to a gap formed in the overlapping portion of the roof tiles and the contact portion with the draining sheet due to the use of the bending metal fitting (9), as illustrated in FIG. Cement roof board (3)
The groove (3
It is effective to provide 3).

6 is different from the case of FIG. 5 in that the side portion of the frame body (4) supporting the solar cell (1) is fixed by the screw (10) or the like on the top of the bending metal fitting (91). are doing. It is common that this metal fitting (91) is previously attached to the field board by the nail (8) or the like. In this example, in addition to the effect of the structural example of FIG. 5, as is clear from FIG. 6, between the back surface of the solar cell (1) and the L-shaped step portion (32) of the cement tile substrate (3). Since a gap (11) is formed and this gap (11) serves as a passage for draining rainwater, the waterproof property is improved. In order to be a drainage passage, the distance between them is set to about 5 mm or more so as not to be affected by the surface tension of water.

Further, since the gap (11) has a character as an air layer, it is possible to suppress the temperature rise of the attic and the solar cell (1) by this air layer. Solar cell (1) directly cement tile substrate (3)
Since the solar cells (1) are not joined to each other, inconveniences such as cracking of roof tiles and breakage of the surface glass plate due to thermal expansion of the solar cell (1) can be suppressed.

Moreover, the construction is easier and the cost is lower. Further, the wiring may be drawn out from the side of the frame body (4) or may be drawn out from the gap (11) and connected to the load. In the structure using the metal fittings, as shown in FIG. 7, the front portion of the frame body (4) is screwed (1) with the bent metal fittings (92) which are previously fixed and fixed to the base plate by the nails (8) or the like.
It can also be fixed with 0) or the like.

The frame body (4) may be fixed only at its front part, or may be further fixed by an adhesive caulking (2). In this case, since the cement tile substrate (3) is not directly fixed, it may be detached by vibration. Therefore, in such a case, as illustrated in FIG. 8A, a hanging portion (41) is provided at a side end portion of the frame body (4) to hook the cement tile board (3). Alternatively, as illustrated in FIG. 8B, it is also considered that the bent metal fitting (92) is laterally extended and the cement tile board (3) is fixed at the extended bent portion (921). .

Further, in any case, a roof tile folding portion (922) is provided in the vicinity of the base plate mounting portion of the bending metal member (92). FIG. 9 shows an example in which another bending fitting (93) for supporting and fixing the frame body (4) supporting the solar cell (1) is used at the top thereof. Also in this case, the gap (11) is formed as in the case of FIG. 6, and the waterproof property is similarly improved.
It suppresses solar cell troubles and makes workability effective.

The metal fitting (93) in this case is, for example, as shown in FIG.
As illustrated in FIG. 0, the solar cell (1) is supported by the horizontal portion (931) at the top, and screw holes (932) are provided at both ends.
This enables fixing to the frame body (4). Further, a folding portion (923) for overlapping is also provided. When using this bending metal fitting (93),
Since the cement tile board (3) is not directly fixed,
Similar to the example of (a) and (b), as shown in FIGS. 11 (a) and (b), the frame body (4) is provided with a hanging portion (41), or the metal fitting (93) is provided with a bent portion (). It is considered to provide 934).

In the above example, the fixing of the metal fitting by screwing is illustrated, but the invention is not limited to this, and fixing by proper fitting or combination of fitting and screwing may be used. For example, as illustrated in FIG. 12, a groove (4) provided on the frame body (4) supporting the solar cell (1) is provided with a bending metal fitting (94) that is previously attached and fixed to the base plate.
2), or may be fixed to the frame by one screw.

Furthermore, in the present invention, for example, FIG.
As illustrated in 3, the staircase-shaped bent metal fittings (95)
In addition, the frame body (4) of the solar cell (1) corresponding to a plurality of solar cell roof tiles may be fixed. By adopting this structure, the roof tile does not float up even when a strong wind blows, and the wind resistance is improved. Normal,
In order to improve wind resistance, it is conceivable to make the non-exposed part of the solar cell roof larger and fix it more firmly to the roof surface. By using this metal fitting (95), the proportion of the non-exposed part is reduced. You can also

The wiring of the solar cell may be drawn out from the side of the frame body (4) or may be drawn out from the metal fitting (95) itself. This metal fitting (95) can be attached, for example, as shown in FIG.
In the deflection hole (951) provided in the bending fitting (95),
The protrusion (43) of the frame body (4) may be engaged. A simpler mounting is possible. And
It can be screwed to prevent displacement.

In order to reduce the size of the non-exposed area and to improve the wind resistance, as shown in FIG. 15, a waterproof sheet (1) having a T-shaped tip projection (121) at the center of the surface.
2) is placed on the base plate, and the T-shaped tip protrusion (12
The side of the solar cell roof may be supported by 1). The back surface of the protrusion (121) is flat. This is to allow the roof tile side portion to be sandwiched by the waterproof sheet by the protrusion (121). In this example, the solar cell wiring can also be drawn from the waterproof sheet (12).

Even in the smaller non-exposed portion, the use of the waterproof sheet (12) improves not only waterproofness but also wind resistance. Of course, the structure of the present invention is not limited to the above examples. Various aspects are possible in its details.

[0029]

As described in detail above, according to the present invention, it is possible to use a cement-based tile board, which is stable and has excellent durability, without the need for using a pedestal and without impairing the appearance design at low cost. A solar cell roof is realized. Further, by fixing the solar cell with the metal fitting, a highly functional solar cell roof tile is provided which is simpler in construction and easier in maintenance.

[Brief description of drawings]

[0030]

FIG. 1 is a perspective view and a cross-sectional view showing an embodiment of the present invention by fixing an adhesive.

[0031]

2 (a) and 2 (b) are cross-sectional views showing measures for removing rainwater in the example of FIG.

[0032]

FIG. 3 is a partially cutaway perspective view and a sectional view showing another embodiment of fixing an adhesive.

[0033]

FIG. 4 is a perspective view showing an embodiment of the present invention using a metal fitting.

[0034]

FIG. 5 is a side view illustrating a cement roof tile substrate.

[0035]

FIG. 6 is a perspective view showing another example using a metal fitting.

[0036]

FIG. 7 is a perspective view showing another example using a metal fitting.

[0037]

8A and 8B are perspective views of a main part showing a modified example of the metal fitting of the example of FIG. 7.

[0038]

FIG. 9 is a perspective view showing still another example using metal fittings.

[0039]

10 is an enlarged perspective view showing the metal fitting of FIG. 9. FIG.

[0040]

11A and 11B are perspective views of a main part showing a modified example of the metal fitting of FIG.

[0041]

FIG. 12 is a perspective view showing an example of fitting using metal fittings.

[0042]

FIG. 13 is a perspective view illustrating a wind resistant structure formed by connecting a plurality of roof tiles with metal fittings.

[0043]

FIG. 14 is a perspective view illustrating the attachment of the example of FIG.

[0044]

FIG. 15 is a perspective view illustrating a wind resistant structure using a prevention sheet.

[0045]

FIG. 16 is a perspective view showing a conventional solar cell roof tile.

[0046]

FIG. 17 is a perspective view showing an arrangement example of the roof tile of FIG. 16.

[0047]

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar cell 2 Adhesive caulking 3 Cement roof substrate 31, 32 Step portion 33 Groove portion 4 Frame body 41 Hanging part 42 Groove portion 43 Wiring 6 Wiring 6 Nail hole 7 Water 8 Nail 9 Bending metal fitting 91 Bending metal fitting 92 Bending metal fitting 921 Extended bending portion 922 Bending portion for overlapping 93 Bending metal fitting 931 Horizontal portion 932 Screw hole 933 Bending portion for overlapping 934 Extended bending portion 94 Bending metal fitting 95 Bending metal fitting 951 Deflection hole 10 Screw 11 Gap 12 Waterproof sheet 121 T-shaped tip protrusion

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shigeki Takeda 1048, Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd.

Claims (13)

[Claims] 1. The structure of a solar cell roof tile, wherein the solar cell is supported by a frame body and is fixed by adhesion or metal fittings to a stepped portion on the cement roof tile substrate. 2. The wiring from the solar cell is drawn out from the frame side of the solar cell and connected to a load.
Solar roof tile structure. 3. The structure of the solar cell tile according to claim 1, wherein the solar cell supported by the frame body is embedded in a stepped recess on the cement tile substrate and fixed by adhesion. 4. The structure of the solar cell roof tile according to claim 3, wherein the height of the catch portion of the cement roof tile substrate for fixing the solar cell is smaller on the water side than on the water side. 5. The structure of the solar cell tile according to claim 1 or 2, wherein the solar cell is fixed by an adhesive which is arranged at a stepped portion of the cement tile substrate with a space in the downward flow direction. 6. The structure of the solar cell roof tile according to claim 1, wherein a frame body for supporting the solar cell is fixed to a bending metal member fixed to the roof roof plate. 7. The structure of the solar cell tile according to claim 6, wherein a gap is provided between the cement tile substrate and the solar cell. 8. The structure of the solar cell tile according to claim 7, wherein the wiring from the solar cell is drawn out from a gap between the back surface of the solar cell and the cement tile substrate and connected to a load. 9. The structure of the solar cell roof tile according to claim 6, wherein a side portion or a front portion of the frame body is fixed by bending metal fittings. 10. The structure of a solar cell roof tile according to claim 1, wherein a frame body of a solar cell corresponding to a plurality of solar cell roof tiles is fixed to a staircase-shaped bending fitting. 11. The structure of the solar cell roof tile according to claim 10, wherein the wiring from the solar cell is connected to the load through a metal fitting. 12. The structure of the solar cell roof tile according to claim 1 or 2, wherein a waterproof sheet having a T-shaped tip protruding portion at the center of the surface is provided on the roof base plate, and the T-shaped tip protruding portion causes the sun to move. The structure of the solar cell tile where the sides of the cell tile are supported. 13. The structure of the solar cell roof tile according to claim 12, wherein the wiring from the solar cell is connected to the load through a waterproof sheet.