JP2001059314A - Solar roofing material, solar roof and proofing material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent degradation of the photoelectric conversion efficiency caused by the dust deposited in a recessed part of a corrugated solar roofing material. SOLUTION: This solar roof 10 comprises a solar roofing material 100 in which a silicone layer is formed in at least a recessed part of a surface of a corrugated solar roofing material 10 having a solar battery layer, a titanium dioxide containing film 5 is formed on the silicone layer, and the contact angle of the titanium dioxide containing film 5 with the water is 10 deg. or under, and a roofing material 1000 in which a silicone layer is formed in at least a recessed part of a surface of the corrugated solar roofing material, the titanium dioxide containing film 5 is formed on the silicone layer, and the contact angle of the titanium dioxide containing film 5 with the water is 10 deg. or under. Even when the dust is deposited on the roof, rain or sprayed water enters between the hydrophilicized titanium dioxide containing film 5 and the dust, and the dust or the like is afloat and flows down. The dust or the like is less easily deposited in the recessed part, and degradation of the photoelectric conversion efficiency caused by the pollution can be prevented. The roofing material 1000 is less easily polluted similar to the solar roofing material 100, no marks are dotted by the difference in pollution, and the beautiful view can be maintained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar roofing material, a solar roofing material, and a roofing material. More specifically, the present invention relates to a solar roofing material capable of preventing a decrease in light-electricity conversion efficiency due to dirt and a solar roofing material capable of maintaining an aesthetic appearance. And roofing materials.

[0002]

2. Description of the Related Art Japanese Patent Publication No. 6-5768 and Japanese Unexamined Patent Publication No.
Japanese Patent No. 2222752 discloses a solar panel in which a solar cell layer is formed on the surface of a corrugated substrate. It is described that by forming a corrugated plate, light reflected on one surface is incident on the other surface, and light can be effectively used.

On the other hand, Japanese Patent Application Laid-Open No. Hei 10-196068 discloses a snow-proofing roofing material provided with a surface layer containing photocatalyst particles such as titanium oxide. It is described that since the surface layer exhibits hydrophilicity in response to photoexcitation of the photocatalyst and water droplets are less likely to be generated, it is difficult for snow accumulation with water droplets as a nucleus to progress.

[0004]

When the above-mentioned conventional corrugated solar panel is used for a roofing material, dust and the like tend to accumulate in a concave portion, so that sunlight is blocked and light-electric conversion efficiency is reduced. There is a point. On the other hand, JP-A-10-196068
The publication discloses a snow-proofing roofing material, but does not consider dirt such as dust accumulated in a concave portion of a corrugated solar roofing material at all. Therefore, a first object of the present invention is to provide a solar roofing material that can prevent a decrease in light-to-electricity conversion efficiency due to dirt or the like accumulated in a concave portion of a corrugated solar roofing material. A second object of the present invention is to provide a solar roof which can maintain a beautiful appearance using the solar roof material of the present invention. Further, a third object of the present invention is to provide a roofing material that can be suitably used for the solar roof of the present invention.

[0005]

According to a first aspect of the present invention, a silicone layer (4) is formed in at least a concave portion of the surface of a corrugated solar roof material having a solar cell layer (2).
A solar roofing material (100), wherein a titanium dioxide-containing coating (5) is formed on the silicone layer (4), and the contact angle of the titanium dioxide-containing coating (5) with water is 10 ° or less. )I will provide a. Generally solar cell layer (2)
Since a protective layer made of a transparent resin film, an organic polymer, or the like is formed on the surface of the substrate, if a titanium dioxide-containing film (5) is laminated thereon, good durability cannot be obtained in terms of adhesiveness. . Therefore, in the solar roofing material (100) according to the first aspect, first, a silicone layer (4) was formed, and a titanium dioxide-containing coating (5) was formed thereon.
Thereby, good durability is obtained. Then, the titanium dioxide-containing film (5) is irradiated with ultraviolet rays to activate the titanium dioxide and make the surface hydrophilic. That is, the contact angle of the titanium dioxide-containing coating (5) with water is set to 10 ° or less. Then, even if the dust or the like gets on the roof, the rainwater or the scattered water breaks between the hydrophilic titanium dioxide-containing coating and the dust, so that the dust or the like floats and flows down. Therefore, dust and the like do not accumulate in the concave portion, so that dirt is less likely to be contaminated, and it is possible to prevent a decrease in light-electricity conversion efficiency due to dirt.
The titanium dioxide-containing coating (5) had a contact angle with water of 1
If it exceeds 0 °, a sufficient effect of making it difficult to stain cannot be obtained.

In a second aspect, the present invention provides a titanium dioxide-containing coating (5) formed on at least a concave portion of the surface of a corrugated solar roof material having a solar cell layer (2). (5) A solar roofing material (200) characterized in that the contact angle with water is 10 ° or less. In the solar roofing material (200) according to the second aspect, the silicone layer (4) is not essential as in the first aspect, but the surface is less likely to be soiled, and a decrease in light-electric conversion efficiency due to the soil is prevented. What you can do is the same. If the silicone layer (4) is not provided, the cost can be reduced accordingly.

In a third aspect, the present invention provides a solar roofing material (100, 200) according to the first or second aspect, and a silicone layer (4) in at least a concave portion of the surface of the corrugated roofing material. Forming a titanium dioxide-containing coating (5) on the silicone layer (4), and making the titanium dioxide-containing coating (5) have a contact angle with water of 10 ° or less. At least one of a roofing material (2000) in which a titanium dioxide-containing coating (5) is formed at least in a concave portion on the surface of a plate-like roofing material, and the contact angle of the titanium dioxide-containing coating (5) with water is 10 ° or less. The present invention provides a solar roof (10), characterized by combining (1) and (2). Solar roofing (100, 200) is used only on one part of the solar roof, e.g. the sunny southern side and upper half, and on the other part, e.g. May not be used). In this case, if the solar roof material (100, 200) is different from the stain resistance of the ordinary roof material,
Due to the difference in dirt, the tone of the solar roof becomes unbalanced,
It impairs aesthetics. Therefore, in the solar roof (10) according to the third aspect, as a normal roof material used in combination with the solar roof material (100, 200), a silicone layer (4) is formed on the surface.
And a roofing material (1000) having a titanium dioxide-containing coating (5) formed on the silicone layer (4) or a roofing material (20) having a titanium dioxide-containing coating (5) formed on the surface thereof.
00) was used. Thereby, the solar roof material (10
Similarly to (0, 200), the ordinary roofing material (1000) is less likely to be stained, and can maintain an aesthetic appearance.

According to a fourth aspect, the present invention provides a method for forming a titanium dioxide-containing coating (5) on a silicone layer (4) at least in a concave portion on the surface of a corrugated roofing material. And a contact angle of water of the titanium dioxide-containing coating (5) with water is set to 10 ° or less. Generally, the substrate of the roofing material is a metal plate, but if a titanium dioxide-containing coating (5) is laminated thereon, good durability cannot be obtained in terms of adhesiveness. In the roofing material (1000) according to the fourth aspect, first, a silicone layer (4) was formed, and a titanium dioxide-containing coating (5) was formed thereon. Thereby, good durability is obtained. Then, the titanium dioxide-containing film (5) is irradiated with ultraviolet rays to activate the titanium dioxide and make the surface hydrophilic. That is, the contact angle of the titanium dioxide-containing coating (5) with water is set to 10 ° or less. Then, even if the dust or the like gets on the roof, the rainwater or the scattered water breaks between the hydrophilic titanium dioxide-containing coating and the dust, so that the dust or the like floats and flows down. Therefore, it is difficult to be stained, and the aesthetic appearance can be maintained.

According to a fifth aspect of the present invention, a titanium dioxide-containing coating (5) is formed at least in a concave portion on the surface of a corrugated roofing material, and the contact angle of the titanium dioxide-containing coating (5) with water. The roofing material (2000) is characterized in that the angle is set to 10 ° or less. In the roofing material (2000) according to the fifth aspect, the silicone layer (4) is not essential as in the fourth aspect, but the surface is hardly stained. If the silicone layer (4) is not provided, the cost can be reduced accordingly.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the embodiments shown in the drawings. Note that the present invention is not limited by this.

First Embodiment FIG. 1 is a sectional view of a solar roofing material according to a first embodiment of the present invention. The solar roofing material 100 includes a corrugated support plate 1 and a solar cell layer 2 laminated on the support plate 1.
And a protective layer 3 laminated on the support plate 1 so as to cover the solar cell layer 2, and a silicone layer laminated on a main part (a part covering the solar cell layer 2) on the protective layer 3. 4
And a titanium dioxide-containing coating 5 laminated on the silicone layer 4.

The support plate 1 is made of, for example, aluminum 5
This is a gallivalium steel plate which is an aluminum-zinc alloy-plated steel plate in which 5%, zinc 43.4%, and silicone 1.6% are integrated. The solar cell layer 2 is, for example, an amorphous silicon solar cell. The protective layer 3 includes an organic polymer resin layer 3a and a transparent resin film 3b.
The organic polymer resin layer 3a is, for example, an ethylene-vinyl acetate copolymer (EVA). The transparent resin film 3b is, for example, a fluororesin film.

The silicone layer 4 is, for example, subjected to a corona treatment or a primer treatment to increase the adhesiveness, and then coated with a silicone-based coating composed of a silicone hard coat agent, and then heated and cured at 100 ° C. for one hour. To form. For example, the silicone-based paint is applied to Toshiba Silicone Co., Ltd.
It is a mixture of H91.

The titanium dioxide-containing coating 5 is, for example,
A coating composition containing titanium dioxide comprising a mixture of a hydrolyzate of an alkoxylane and a titania sol is prepared and applied. The coating composition is heated and cured in an atmosphere at 100 ° C. for 1 hour. / Cm ²
UV light was irradiated at an illuminance of 10 hours for hydrophilization (contact angle with water of 5 °) to form a film. As a comparative example, a product without the silicone layer 4 and the titanium dioxide-containing coating 5 was prepared, and irradiated with ultraviolet light under the same conditions. As a result, the contact angle with water was 80 °.

FIG. 2 is a perspective view of the solar roofing material 100. The solar roofing material 100 has a corrugated shape having continuous irregularities. 2 corresponds to FIG. 1.

Six of the above solar roofing materials 100, a gradient of 2
It was set at 0 ° in the Kanto area, left for 50 days, and observed. In addition, a solar roof material without the silicone layer 4 and the titanium dioxide-containing coating 5 was also observed.
As a result of the comparison, in the solar roofing material 100, the contaminants attached to the recesses are decomposed by the strong oxidizing power of the titanium dioxide, and the contaminants flow down and are removed from the surface of the titanium dioxide-containing coating 4 that has been hydrophilized, and the dirt is contaminated. It was confirmed that it became difficult.

Second Embodiment FIG. 3 is a sectional view of a roofing material according to a second embodiment of the present invention. The roofing material 1000 is a corrugated support plate 1.
And the main part on the support plate 1 (the part that is easily visible from the outside)
And a titanium dioxide-containing coating 5 laminated on the silicone layer 4. The support plate 1, the silicone layer 4, and the titanium dioxide-containing coating 5 are the same as those described in the first embodiment.

It was confirmed that the roof material 1000 was less likely to be soiled, like the solar roof material 100.

Third Embodiment FIG. 4 is a sectional view of a solar roof according to a third embodiment of the present invention. In the solar roof 10, the sunny south side is the solar roof material 100, and the north side of the poor sun is the roof material 1000.

Fourth Embodiment FIG. 5 is a sectional view of a solar roof according to a fourth embodiment of the present invention. In the solar roof 10, the upper part where the sun is sunny is the solar roof material 100, and the lower part where the sun is poor is the roof material 1000.

According to the solar roof 10 of the third and fourth embodiments, the solar roof material 100 and the roof material 1000
Since the dirt is hardly stained in the same way, the tone does not become unbalanced due to the difference in dirt, and the aesthetic appearance can be maintained.

Fifth Embodiment FIG. 6 is a cross-sectional view of a solar roofing material according to a fifth embodiment of the present invention. The solar roofing material 200 is obtained by removing the silicone layer 4 from the solar roofing material 100. This solar roofing material 200 is used for the solar roofing material 10.
It may be used instead of 0.

Sixth Embodiment FIG. 7 is a sectional view of a roofing material according to a sixth embodiment of the present invention. The roofing material 2000 is obtained by removing the silicone layer 4 from the roofing material 1000. This roofing material 2000 may be used in place of the roofing material 1000.

Seventh Embodiment The titanium dioxide-containing coating 5 is prepared, for example, by mixing anatase-type titanisol (Nissan Chemical TA-15) and trimethoxymethylsilane (Glaska B solution of Nippon Synthetic Rubber) and adding ethanol. After adjusting the dilution, a coating composition containing titanium dioxide was prepared and applied, cured by heating in an atmosphere of 110 ° C., and the resulting film was irradiated with ultraviolet rays using a black light to make it hydrophilic (contact angle with water). (2 °).

Eighth Embodiment In the above embodiment, the silicone layer 4 and the titanium dioxide-containing coating 5 are provided on the corrugated support plate 1 in both the convex and concave portions, or the titanium dioxide-containing coating 5 is provided. However, since dirt hardly accumulates on the convex portions, the silicone layer 4 and the titanium dioxide-containing coating 5 may be provided only on the concave portions, or the titanium dioxide-containing coating 5 may be provided.

-Flat Solar Roof and Roof-In each of the above embodiments, the corrugated solar roof and the roof were used. However, the flat solar roof and the surface of the roof were covered with silicone. A layer may be formed, a titanium dioxide-containing coating may be formed on the silicone layer, and the contact angle of the titanium dioxide-containing coating with water may be 10 ° or less. Alternatively, a titanium dioxide-containing coating may be formed on the surface of a flat solar roof material or a roof material, and the contact angle of the titanium dioxide-containing coating with water may be 10 ° or less. In the case of a flat solar roof material and a roof material, dirt is not so much of a problem, but by doing so, dirt can be reduced.

[0027]

According to the solar roofing material of the present invention, it is possible to prevent a decrease in light-to-electricity conversion efficiency due to dirt accumulated in the concave portion of the corrugated solar roofing material. Further, according to the solar roof of the present invention, the aesthetic appearance can be maintained by using the solar roof material. Furthermore, the roofing material of the present invention can be suitably used for the solar roof, and can maintain an aesthetic appearance.

[Brief description of the drawings]

FIG. 1 is a sectional view of a solar roofing material according to a first embodiment.

FIG. 2 is a perspective view of the solar roofing material according to the first embodiment.

FIG. 3 is a sectional view of a roofing material according to a second embodiment.

FIG. 4 is a perspective view of a solar roof according to a third embodiment.

FIG. 5 is a perspective view of a solar roof according to a fourth embodiment.

FIG. 6 is a sectional view of a solar roofing material according to a fifth embodiment.

FIG. 7 is a sectional view of a roofing material according to a sixth embodiment.

[Description of Signs] 1 Support plate 2 Solar cell layer 3 Protective layer 3a Organic polymer resin layer 3b Transparent resin film 4 Silicone layer 5 Titanium dioxide-containing coating 10 Solar roof 100,200 Solar roof material 1000,2000 Roof material

Claims (5)

[Claims] 1. A silicone layer (4) on at least a concave portion of the surface of a corrugated solar roof material having a solar cell layer (2).
A titanium dioxide-containing coating (5) is formed on the silicone layer (4), and the contact angle of the titanium dioxide-containing coating (5) with water is 10 ° or less. Roofing material (100). 2. A titanium dioxide-containing coating (5) is formed on at least a concave portion of the surface of a corrugated solar roof material having a solar cell layer (2), and the titanium dioxide-containing coating (5) comes into contact with water. A solar roofing material (200) characterized in that the angle is set to 10 ° or less. 3. A solar roof material (100, 200) according to claim 1 or 2, and a silicone layer (4) is formed at least in a concave portion on the surface of the corrugated roof material, and the silicone layer (100) is formed. 4) A surface of a roofing material (1000) or a corrugated roofing material in which a titanium dioxide-containing coating (5) is formed thereon and the contact angle of the titanium dioxide-containing coating (5) with water is 10 ° or less. Characterized in that a titanium dioxide-containing coating (5) is formed in at least a concave portion, and at least one of a roofing material (2000) whose contact angle with water of the titanium dioxide-containing coating (5) is 10 ° or less is used in combination. Solar roof (10). 4. A silicone layer (4) is formed at least in a concave portion on the surface of a corrugated roofing material, and a titanium dioxide-containing coating (5) is formed on the silicone layer (4). The contact angle of the coating (5) with water is 10 °
A roofing material (1000) characterized by the following. 5. A method according to claim 1, wherein a titanium dioxide-containing coating (5) is formed at least in a concave portion on the surface of the corrugated roofing material, and the contact angle of the titanium dioxide-containing coating (5) with water is set to 10 ° or less. Characterized roofing material (2000).