JP2015034382A - Method of installing solar panel - Google Patents
Method of installing solar panel Download PDFInfo
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- JP2015034382A JP2015034382A JP2013164507A JP2013164507A JP2015034382A JP 2015034382 A JP2015034382 A JP 2015034382A JP 2013164507 A JP2013164507 A JP 2013164507A JP 2013164507 A JP2013164507 A JP 2013164507A JP 2015034382 A JP2015034382 A JP 2015034382A
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- solar panel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
Description
本発明は、所謂ソーラー発電を行うためのソーラーパネルの設置方式に関する。 The present invention relates to a solar panel installation method for so-called solar power generation.
従来、ソーラー発電を行うためのソーラーパネルの設置は、家屋、ビル等の建物の屋根上に設置することを通例とした(例えば、特許文献1及び特許文献2参照。)。 この場合は比較的低出力の発電に限定され、個々の家毎の消費電力が得られる程度である。
そして、大規模のソーラー発電を行う手段としては、例えば遊休農地の利用が考えられ、現在、実行に移されている。
Conventionally, the installation of solar panels for performing solar power generation has been customarily performed on the roofs of buildings such as houses and buildings (see, for example, Patent Document 1 and Patent Document 2). In this case, power generation is limited to relatively low output, and power consumption for each house can be obtained.
As a means for performing large-scale solar power generation, for example, use of idle farmland is conceivable, and it is currently put into practice.
上述した遊休農地を利用してソーラー発電を行う場合であるが、土地の上面に直接太陽電池パネルを設置するようにした場合、土地の使用面積に比して、発電能力はそれほど高くなく、土地の高額性に鑑みて合理的かつ効率的な発電とは言い難いものである。
また、当該ソーラーパネルの設置工事に伴い土地が荒れ、一定期間経過後、これを畑又は田圃として再使用を企図しても、殆ど不可能とされた。
This is a case where solar power generation is performed using the idle farmland described above. However, when a solar panel is directly installed on the top surface of the land, the power generation capacity is not so high compared to the land use area. It is hard to say that the power generation is rational and efficient in view of the high cost of the system.
In addition, the land became rough with the installation work of the solar panel, and it was almost impossible to reuse it as a field or rice field after a certain period of time.
本発明はこのような従来の問題を解決し、単位面積当たりのソーラーパネルの設置数の文字通りの倍増加が図られるようにした「ソーラーパネルの設置方式」の提供を図ったものである。 The present invention solves such a conventional problem and aims to provide a “solar panel installation method” in which the number of solar panels installed per unit area can be literally doubled.
本発明は請求項1に記載のように、受光面を上に向けた状態でセットするための第1ソーラーパネルの下面側に、受光面を下に向けた状態でセットするための第2ソーラーパネルを重ね合せることによって、1単位の受光体を構成し、太陽と第2ソーラーパネルの受光面との間に反射板を介在させることによって、所要の光の屈折回路を形成するように構成したソーラーパネルの設置方式に係る。 According to the first aspect of the present invention, the second solar for setting with the light receiving surface facing downward on the lower surface side of the first solar panel for setting the light receiving surface facing upward. A unit of light receiver is formed by overlapping the panels, and a reflector is interposed between the sun and the light receiving surface of the second solar panel to form a required light refraction circuit. It relates to the installation method of solar panels.
本発明は請求項2に記載のように、受光体を所要単位数、田圃または畑等の遊休農地等所要の土地上に等間隔かつ多列的に設置し、第2ソーラーパネルの下面に位置する受光面に対する太陽光照射のための光の屈折回路の形成を、夫々の後方に位置する受光体の前方に反射板を取付け、太陽光は当該反射板に反射して上記下面側の受光面に照射されるように構成した請求項1に記載のソーラーパネルの設置方式を実施の態様とする。 According to the present invention, the light receivers are installed on a required land such as a required number of units, idle farmland such as a rice field or a field in multiple rows at equal intervals, and positioned on the lower surface of the second solar panel. A light refraction circuit for irradiating sunlight to the light receiving surface is formed, a reflector is attached to the front of each photoreceptor located behind, and the sunlight is reflected by the reflector to receive the light receiving surface on the lower surface side. The installation method of the solar panel according to claim 1 configured to irradiate is used as an embodiment.
本発明請求項3に記載のように、第2ソーラーパネルの下面に位置する受光面に対して照射された太陽光を利用してその下方に植設した野菜等の植物の育成を図るように構成した請求項1または請求項2の何れかに記載のソーラーパネルの設置方式を実施の態様とする。 As described in claim 3 of the present invention, plants such as vegetables planted underneath the light receiving surface located on the lower surface of the second solar panel are grown. The installation method of the solar panel according to claim 1 or 2 configured as described above is an embodiment.
本発明は請求項1に記載のような構成、すなわち、受光面を上に向けた状態でセットするための第1ソーラーパネルの下面側に、受光面を下に向けた状態でセットするための第2ソーラーパネルを重ね合せることによって、1単位の受光体を構成し、太陽と第2ソーラーパネルの受光面との間に反射板を介在させることによって所要の光の屈折回路を形成するように構成したから、従来に比して極めて合理的なる設置が可能化される。
何故ならば、従来はソーラーパネルの大きさ掛ける設置数とするだけの設置面積が必要とされたが、本発明はソーラーパネルが2段重状態とされているため、設置面積は文字通り半減化される。
従って、本発明によれば低コストでのソーラー発電の実施が許容化される。
The present invention is configured as described in claim 1, that is, for setting the light receiving surface on the lower surface side of the first solar panel for setting the light receiving surface facing upward. By superposing the second solar panel, one unit of light receiver is formed, and a refraction circuit for required light is formed by interposing a reflector between the sun and the light receiving surface of the second solar panel. Since it is configured, installation that is extremely rational as compared with the prior art is enabled.
This is because, in the past, an installation area required to be the number of installations multiplied by the size of the solar panel was required, but because the solar panel is in a two-tiered state, the installation area is literally halved The
Therefore, according to the present invention, implementation of solar power generation at low cost is permitted.
本発明は請求項2に記載のような構成、すなわち、受光体を所要単位数、田圃または畑等の遊休農地等所要の土地上に等間隔かつ多列的に設置し、第2ソーラーパネルの下面に位置する受光面に対する太陽光照射のための光の屈折回路の形成を、夫々の後方に位置する受光体の前方に反射板を取付け、太陽光は当該反射板に反射して上記下面側の受光面に照射されるように構成することにより、光屈折回路の形成がそれ程スペースを採ることなく、また、実施工事上の煩雑性を生じることなく可能化される。 The present invention is configured as described in claim 2, that is, the photoreceptors are installed on the required land such as the required number of units, idle farmland such as rice fields or fields in multiple rows at equal intervals, Forming a light refracting circuit for irradiating sunlight on the light receiving surface located on the lower surface, a reflecting plate is attached in front of each photoreceptor located behind, and the sunlight is reflected on the reflecting plate and the lower surface side. By being configured to irradiate the light receiving surface, it is possible to form the photorefractive circuit without taking up much space and without causing complicated construction work.
本発明は請求項3に記載のような構成、すなわち、第2ソーラーパネルの下面に位置する受光面に対して照射された太陽光を利用してその下方に植設した野菜等の植物の育成を図るように構成することにより、太陽光の無駄なき利用が図られることとなる。 The present invention is configured as described in claim 3, that is, growing plants such as vegetables planted underneath using the sunlight irradiated to the light receiving surface located on the lower surface of the second solar panel. As a result, it is possible to use sunlight without waste.
図1及び図2において、1は受光面を上に向けた状態でセットするための第1ソーラーパネルであって、その下面側に、受光面を下に向けた状態でセットするための第2ソーラーパネル2を重ね合せることによって、1単位の受光体Aを構成している。 1 and 2, reference numeral 1 denotes a first solar panel for setting with the light receiving surface facing upward, and a second solar panel for setting the light receiving surface with the light receiving surface facing downward on the lower surface side thereof. By uniting the solar panels 2, one unit of the photoreceptor A is configured.
上記した第1ソーラーパネル1に対しては、その上面に位置する受光面が太陽光線を受けることによって発電作用を奏させる(矢印参照)。 一方、第2ソーラーパネル2に対しても、同様にして、その下面に位置する受光面が太陽光線を受けることによって発電作用を奏させるものであるが、この場合は太陽光線を当該受光面に当たるように人為的に導く必要がある。 With respect to the first solar panel 1 described above, the light receiving surface located on the upper surface thereof receives solar rays to generate a power generation action (see arrows). On the other hand, for the second solar panel 2, the light receiving surface located on the lower surface of the second solar panel 2 is caused to generate power by receiving sunlight. In this case, the sunlight strikes the light receiving surface. Need to be guided artificially.
その手段としては図1に示すように、太陽と第2ソーラーパネル2の受光面との間に鏡等による反射板Bを介在させることにより光の屈折回路を形成し、これにより、第2ソーラーパネル2の下面に位置する受光面に対する太陽光照射が成されるように構成する(矢印参照)。
なお、当該光の屈折回路は図示のように一段階の屈折に依る以外、多段階の屈折を行うことにより、任意箇所に位置する第2ソーラーパネル2の下面受光面に対する太陽光照射を行うことが出来る。 従って、当該下面受光面が例えば家屋内に存在したとしても、これに対する太陽光照射は可能とされる。
As shown in FIG. 1, a light refraction circuit is formed by interposing a reflector B such as a mirror between the sun and the light-receiving surface of the second solar panel 2 as shown in FIG. It comprises so that sunlight irradiation with respect to the light-receiving surface located in the lower surface of the panel 2 may be made (refer arrow).
The light refracting circuit irradiates sunlight on the lower surface light receiving surface of the second solar panel 2 located at an arbitrary position by performing multi-stage refraction except that it depends on one-stage refraction as shown in the figure. I can do it. Therefore, even if the lower surface light receiving surface is present in a house, for example, it is possible to irradiate sunlight.
図2は本発明の具体的実施例の一つを表したものである。 すなわち、上記した受光体Aを所要単位数、田圃または畑等の遊休農地上に等間隔で多列的に設置して利用に供するものである。 FIG. 2 shows one specific embodiment of the present invention. That is, the above-described photoreceptors A are installed in multiple rows at equal intervals on the idle farm ground such as the required number of units, rice fields, or fields.
そして、本実施例にあっては、第2ソーラーパネル2の下面に位置する受光面に対する太陽光照射のための光の屈折回路の形成は、夫々の後方に位置する受光体Aの前方に反射板Cを取付け、太陽光は当該反射板Cに反射して上記受光面に照射されるように構成してある。 なお、光の屈折回路はこれ以外適宜な方法を採用することも可能である。 In the present embodiment, the light refraction circuit for irradiating the light to the light receiving surface located on the lower surface of the second solar panel 2 is reflected in front of the light receiving body A located behind each of the light receiving surfaces. A plate C is attached, and sunlight is reflected by the reflecting plate C and irradiated to the light receiving surface. It should be noted that other appropriate methods can be employed for the light refraction circuit.
なお、図2示す実施例にあっては、第2ソーラーパネル2の下面に位置する受光面に対して照射された太陽光を利用してその下方に植設した野菜等の植物Dの育成を図るように構成することも出来る(矢印参照)。 本発明はこのような形態で実施する場合もある。 In addition, in the Example shown in FIG. 2, using the sunlight irradiated with respect to the light-receiving surface located in the lower surface of the 2nd solar panel 2, it grows plants D, such as vegetables planted under it. It can also be configured as shown (see arrows). The present invention may be implemented in such a form.
1 第1ソーラーパネル
2 第2ソーラーパネル
A 受光体
B 反射板
C 反射板
D 野菜等の植物
1 First Solar Panel 2 Second Solar Panel A Photoreceptor B Reflector C Reflector D Plants such as vegetables
Claims (3)
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| JP2013164507A JP2015034382A (en) | 2013-08-07 | 2013-08-07 | Method of installing solar panel |
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| JP2013164507A JP2015034382A (en) | 2013-08-07 | 2013-08-07 | Method of installing solar panel |
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| JP2015034382A true JP2015034382A (en) | 2015-02-19 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR20200033051A (en) * | 2018-09-19 | 2020-03-27 | 백영일 | solar power gensration apparatus for growing plant |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH11284215A (en) * | 1998-03-31 | 1999-10-15 | Sanyo Electric Co Ltd | Ground type solar battery device |
| US20100000165A1 (en) * | 2006-09-08 | 2010-01-07 | Alexander Koller | Solar roof |
| JP2011015676A (en) * | 2009-07-10 | 2011-01-27 | Lite-On Green Technologies Inc | Solar energy greenhouse |
-
2013
- 2013-08-07 JP JP2013164507A patent/JP2015034382A/en active Pending
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH11284215A (en) * | 1998-03-31 | 1999-10-15 | Sanyo Electric Co Ltd | Ground type solar battery device |
| US20100000165A1 (en) * | 2006-09-08 | 2010-01-07 | Alexander Koller | Solar roof |
| JP2011015676A (en) * | 2009-07-10 | 2011-01-27 | Lite-On Green Technologies Inc | Solar energy greenhouse |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR20200033051A (en) * | 2018-09-19 | 2020-03-27 | 백영일 | solar power gensration apparatus for growing plant |
| KR102112341B1 (en) * | 2018-09-19 | 2020-05-18 | 백영일 | solar power gensration apparatus for growing plant |
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