JP5933417B2 - Carport - Google Patents

Description

  The present invention relates to a carport having a roof and a support column.

  When parking a two-wheeled or four-wheeled vehicle, a carport having a roof and side walls is widely used to prevent the vehicle body from being exposed to rain or direct sunlight. As such a carport, for example, Patent Document 1 proposes a carport having a configuration in which an end plate is attached to the inside of a side wall so that a driver can visually recognize the position of the vehicle body.

Japanese Utility Model Publication No. 60-77659

  By the way, a car enthusiast or the like may desire to see the whole image including the upper surface of the vehicle body. In particular, in a four-wheeled vehicle, there are fewer opportunities to see the upper surface of the vehicle body than other surfaces because of the relationship between the height of the line of sight of the owner and the vehicle height. Therefore, it is required to make the upper surface of the vehicle body easily visible.

  However, what can be visually recognized by the carport described in Patent Document 1 is limited to a part of the side surface, front surface, and rear surface of the vehicle body. Further, it is difficult to visually recognize the upper surface of the vehicle body.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a car port that can be easily visually recognized from the upper surface side of the vehicle body to the whole.

  In order to achieve the above object, the present invention is a carport having a roof and a column supporting the roof, wherein the roof has a mirror surface on a surface facing the ground.

  In this carport, a mirror surface is provided on the surface (inner surface) of the roof facing the ground. As a result, regarding the two-wheel or four-wheel automobile existing under the roof, the upper surface side of the vehicle body can be reflected on the mirror surface, so that it can be easily visually recognized from the upper surface side of the vehicle body to the whole.

The roof having a mirror surface is constructed to include a solar power panel. The photovoltaic panel includes a transparent substrate, on the stacking surface of the transparent substrate, a metal electrode layer, the light absorbing layer and the transparent electrode layer have a stacked solar cell element in this order, and the transparent substrate The metal electrode layer forms the mirror surface through the transparent substrate by being supported so as to face the ground with the back side of the laminated surface exposed .

  That is, in the photovoltaic power generation panel, the metal electrode layer can be visually recognized through the transparent substrate. For this reason, a metal electrode layer functions as a mirror surface through a transparent substrate. Therefore, by providing a solar power generation panel on the roof, the inner surface of the roof can be a mirror surface, and power generation using sunlight can be performed. That is, in the carport of the present invention, the vehicle body under the roof is easily visible from the upper surface side to the whole, and the electric power obtained by the above power generation is supplied to automobiles, homes, offices, and the like. It can also serve as a source.

  According to the present invention, since the mirror surface is provided on the surface of the roof facing the ground, it is possible to provide a carport that can be easily visually recognized from the upper surface side of the vehicle body existing under the roof. . Furthermore, the metal electrode layer of this photovoltaic power generation panel can be used as a mirror surface by setting the roof to include a photovoltaic power generation panel. Thereby, while making the inner surface of this roof into a mirror surface, solar power generation can be performed. That is, it is possible to provide a carport that allows easy visual recognition and electric power from the upper surface side of the vehicle body to the whole.

It is the perspective view which looked at the carport concerning the embodiment of the present invention from the inner surface side of the roof. It is the perspective view which looked at the carport shown in FIG. 1 from the outer surface side of the roof. It is a principal part schematic longitudinal cross-sectional view of the photovoltaic power generation panel contained in the roof of the carport shown in FIG. It is a principal part schematic longitudinal cross-sectional view of the solar cell element which comprises the solar energy power generation panel shown in FIG.

  Hereinafter, preferred embodiments of the carport according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view of the carport 10 according to the present embodiment as viewed from the surface (inner surface) 14 side of the roof 12 facing the ground, and FIG. 2 is opposite to the inner surface 14 of the roof 12. It is the perspective view seen from the surface (outer surface) 16 side.

  The carport 10 includes a roof 12 and a support column 18 that supports the roof 12, and a car such as a two-wheel or four-wheel vehicle can be parked between the roof 12 and the ground. As shown in FIGS. 1 and 2, in this embodiment, a case where a four-wheeled automobile 20 is parked under the roof 12 will be described as an example.

  The roof 12 is configured by a photovoltaic power generation panel 22 supported by a frame body 24. That is, the roof 12 includes the photovoltaic power generation panel 22. Here, the configuration of the photovoltaic power generation panel 22 will be described with reference to FIGS. 3 and 4. 3 is a schematic vertical cross-sectional view of the main part of the solar power generation panel 22, and FIG. 4 is a schematic vertical cross-sectional view of the main part of the solar cell element 26 constituting the solar power generation panel 22.

  In the photovoltaic power generation panel 22, an integrated thin film solar cell 29 in which a plurality of solar cell elements 26 are electrically connected in series is formed on a transparent substrate 28 which will be described later. A space between the glass 42 is sealed with a protective resin 44 (see FIG. 3).

  The cover glass 42 is made of a material having good light transmittance, such as glass. As the protective resin 44, ethylene-vinyl acetate resin (EVA) or the like can be used. Thus, by providing the cover glass 42 and the protective resin 44 on the transparent substrate 28, the thin film solar cell 29 can be protected from rainwater or the like.

  As shown in FIG. 4, the solar cell element 26 has a metal electrode layer 32, a light absorption layer 34, a buffer layer 36, a transparent layer on a laminated surface 30 of a transparent substrate 28 made of SLG (soda lime glass) or the like. The electrode layer 38 is configured by being laminated in this order.

  The metal electrode layer 32 is an electrode that functions as a positive electrode, and is often formed from Mo, but may be formed from W in some cases. Since Mo and W exhibit sufficient metallic luster, an object is reflected on one flat end surface thereof, and the end surface on the side facing the laminated surface 30 of the transparent substrate 28 functions as a mirror surface. That is, the metal electrode layer 32 forms a mirror surface through the transparent substrate 28.

In this case, examples of the light absorption layer 34 formed on the metal electrode layer 32 include I-III-VI group compounds (chalcopyrite type compounds) such as CuInSe ₂ (so-called CIS) and CuInGaSe ₂ (so-called CIGS). Is adopted. That is, the solar cell element 26 is a chalcopyrite solar cell.

  The buffer layer 36 on the light absorption layer 34 forms a heterojunction with the light absorption layer 34. The buffer layer 36 is generally formed of CdS, but may be formed of ZnS, InS, or the like.

  The transparent electrode layer 38 is made of a transparent body that has high current collection efficiency and is excellent in light transmittance that transmits light such as sunlight, and functions as a negative electrode. Suitable examples of the transparent body forming the transparent electrode layer 38 include ZnO and ZnO: Al in which ZnO is doped with Al.

  As described above, in the photovoltaic power generation panel 22 (solar cell element 26), a mirror surface is formed by the metal electrode layer 32 on the laminated surface 30 of the transparent transparent substrate 28, and as shown in FIG. 28 is exposed as a bottom surface. For this reason, the metal electrode layer 32 can be visually recognized through the transparent substrate 28 from the back surface 40 side of the laminated surface 30 of the transparent substrate 28. That is, a mirror surface through the transparent substrate 28 is formed on the back surface 40 side of the transparent substrate 28.

  Therefore, the inner surface 14 of the roof 12 can be used as a mirror surface by supporting the photovoltaic power generation panel 22 with the frame body 24 so that the back surface 40 side of the transparent substrate 28 faces the ground. Moreover, this can arrange | position the transparent electrode layer 38 side of the photovoltaic power generation panel 22 toward the direction in which sunlight is irradiated. That is, the sunlight can be converted into electric power by irradiating the solar cell element 26 with sunlight through the cover glass 42 and the protective resin 44.

  As described above, in the carport 10, as shown in FIG. 1, the mirror surface is provided on the inner surface 14 of the roof 12, so that the automobile 20 existing under the roof 12 is placed on the side of the upper surface 20 a (see FIG. 2) of the vehicle body. Can be reflected on the mirror surface. That is, the vehicle body of the automobile 20 can be easily visually recognized from the upper surface 20a side to the whole.

  Moreover, by setting the roof 12 to include the solar power generation panel 22, as described above, the inner surface 14 of the roof 12 can be a mirror surface, and power generation using sunlight can be performed. That is, in the carport 10, the vehicle body of the automobile 20 under the roof 12 is easily visible from the upper surface 20 a side to the whole, and sunlight is converted into electric power so that the automobile 20, home, office, etc. It is also possible to supply them.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention.

  For example, in this embodiment, the roof 12 is configured to include the solar power generation panel 22, but a mirror surface is formed by attaching a mirror plate to the inner surface 14 side of the roof 12 that does not include the solar power generation panel 22. May be.

  Moreover, although the chalcopyrite solar cell was employ | adopted as the solar cell element 26 of the photovoltaic power generation panel 22, it is not specifically limited to this. For example, you may employ | adopt the photovoltaic power generation panel which has another solar cell element by which a mirror surface is formed by a metal electrode layer etc. on the opposite side (back side) to the side which takes in sunlight. Further, a solar power generation panel having a solar cell element in which a mirror surface is not formed by a metal electrode layer or the like may be adopted, and a mirror surface may be formed by attaching a mirror plate to the back side of the solar power generation panel.

DESCRIPTION OF SYMBOLS 10 ... Carport 12 ... Roof 14 ... Inner surface 16 ... Outer surface 18 ... Post 20 ... Motor vehicle 20a ... Upper surface 22 ... Solar power generation panel 24 ... Frame 26 ... Solar cell element 28 ... Transparent substrate 29 ... Thin film solar cell 30 ... Laminate surface 32 ... Metal electrode layer 34 ... Light absorption layer 38 ... Transparent electrode layer 40 ... Back 42 ... Cover glass 44 ... Protective resin

Claims (1)

E Bei struts for supporting the roof roof, the roof is a Luke Poto that having a reflection plane on the surface side facing the ground,
The roof is configured to include a photovoltaic panel,
The photovoltaic power generation panel includes a transparent substrate, and a solar cell element in which a metal electrode layer, a light absorption layer, and a transparent electrode layer are laminated in this order on a laminated surface of the transparent substrate, and the transparent substrate includes the solar cell element. The carport, wherein the metal electrode layer forms the mirror surface through the transparent substrate by being supported so as to face the ground with the back side of the laminated surface exposed.

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