JP3211019U - Photovoltaic power generation using artificial light - Google Patents
Photovoltaic power generation using artificial light Download PDFInfo
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- JP3211019U JP3211019U JP2016002003U JP2016002003U JP3211019U JP 3211019 U JP3211019 U JP 3211019U JP 2016002003 U JP2016002003 U JP 2016002003U JP 2016002003 U JP2016002003 U JP 2016002003U JP 3211019 U JP3211019 U JP 3211019U
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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
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- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
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Abstract
【課題】LED照明やレーザー光線などの照明を当てて効率よく発電できる人工光による光発電システムを提供する。【解決手段】太陽電池とLED光源の工業的相性から幅をもたせて光波長900nm〜950nmの間の単一光波長のLED円筒光源に、同じく円筒形で透明な形状で光源を包み込むような形状物に内側の光源を向いた形で単結晶SI太陽電池を取り付け、その単結晶SI太陽電池集合体であるセルを最低6つ以上で直列なら直列に並列なら並列に統一してつなぎ、一番外側に内側を向いた光反射物を取り付けて形状は光源と同じように円筒形でつくり、光源光を密閉状態とする。【選択図】図3A photovoltaic power generation system using artificial light that can efficiently generate power by applying illumination such as LED lighting or laser light. A shape that encloses a light source in the same cylindrical shape and transparent shape in an LED cylindrical light source having a single light wavelength between 900 nm and 950 nm with a wide range due to the industrial compatibility of solar cells and LED light sources. Attach a single crystal SI solar cell to the object with the inner light source facing, and connect at least six cells that are the single crystal SI solar cell assembly in series, in series, in parallel, in parallel, A light reflector facing inward is attached to the outside, and the shape is made cylindrical like the light source, and the light source light is sealed. [Selection] Figure 3
Description
太陽光発電の太陽電池並びにLED照明などの省エネ技術 Energy-saving technologies such as solar power solar cells and LED lighting
太陽光発電モジュールの技術並びにLED電球などの省エネ発光技術 Photovoltaic module technology and energy-saving light-emitting technology such as LED bulbs
発電方法を太陽光発電に限っていうと
従来の発電方法は、太陽電池に太陽光を当てて発電するために、
まず夜間は発電できず大雨・暴風雨などの天変地変に影響され
その時々の発電量が予測できないという欠点がある。
大容量の蓄電池が開発されない限り
発電量は結果として、その時頼みというのが現状である。
Speaking of the power generation method limited to solar power generation, the conventional power generation method uses solar light on solar cells to generate power.
First of all, there is a drawback in that it cannot generate electricity at night, and it is affected by natural disasters such as heavy rains and storms, and the amount of power generation at that time cannot be predicted.
As long as a large-capacity storage battery is not developed, as a result, the current situation is to rely on power generation.
太陽電池に太陽光ではなくLED照明などの照明を当て発電する。
この場合、太陽電池の形状や構成などはセットする照明器に合わせて
セットされるよう作成する。
Electric power is generated by applying lighting such as LED lighting to the solar cell instead of sunlight.
In this case, the shape and configuration of the solar cell are created so as to be set according to the illuminator to be set.
また、発電に利用し備蓄電源に利用するもののため
以下の要件を満たせばよい。
照明にかかわる電力より、太陽電池等から発電される電力のほうが大きい。
上記は、照明にかかわる電力を100ワットとした場合に
太陽電池等から発電される電力が101ワットでも本考案は成り立つ。
照明にかかわる電力 < 太陽電池等から発電される電力
Moreover, what is necessary is just to satisfy | fill the following requirements, since it uses for power generation and it uses for storage power supply.
The electric power generated from solar cells or the like is larger than the electric power related to lighting.
In the above description, the present invention is valid even if the power generated from a solar cell or the like is 101 watts when the power related to illumination is 100 watts.
Electricity for lighting <Electricity generated from solar cells, etc.
また、太陽電池の電力は、電流×電圧になるため
太陽電池が最も反応しやすい波長を当てるのが
効率が良い。その点、LEDだと色の3要素の
赤 (Red)、緑 (Green)、青 (Blue)の三つの原色を混ぜて
幅広い色を再現する加法混合が可能である。
ために現在では可視光線から遠赤外域までLED照明は
商品化されている。
つまりLED照明の光波長は、現在ほとんどの波長が
生み出せる技術は確立されている。
Moreover, since the electric power of the solar cell is current × voltage, it is efficient to apply a wavelength at which the solar cell reacts most easily. On the other hand, for LEDs, additive mixing that reproduces a wide range of colors by mixing the three primary colors of red, green, and blue is possible.
Therefore, LED lighting has been commercialized from visible light to far infrared region.
In other words, the technology that can produce almost all the wavelengths of light of LED lighting has been established.
以上から、太陽電池は様々な種類があり
かつ発電する光波長も太陽電池の様式により様々である。
ために最適な波長でLEDなどの照明を当てれば効率よく発電が可能である。
つまりLEDなどの光源は最適な波長光のみ照射が可能であり
むしろ太陽光より扱いやすいものである。
最終的に、このようにして少しの電力補充からもっと大きい電力補充へと
沢山の利用が考えられる。
From the above, there are various types of solar cells, and the wavelength of light to be generated varies depending on the type of solar cell.
Therefore, power can be generated efficiently if illumination such as an LED is applied at an optimum wavelength.
That is, a light source such as an LED can irradiate only light having an optimum wavelength, and is rather easy to handle than sunlight.
Ultimately, there are many possible uses in this way, from a small amount of power replenishment to a larger amount of power replenishment.
電力を産むために使用する電力より
ほんの少しでも多い電力が生まれるのであれば
利用方法は多岐にわたる。
電気自動車などや停電時の電源システムなど
活用は多岐にわたる。
If even a little more electric power is generated than the electric power used to produce electric power, there are many ways to use it.
There are a wide variety of uses such as electric vehicles and power supply systems during power outages.
今まで太陽光に当てて発電するしか方法がなかったことに対し
LED照明などの人工光源を当てて発電することがわかれば
それに伴い蓄電池や太陽電池、LEDもしくはそれを進化した
様々な工業機器が出現するはず。
Until now it was possible to generate electricity by applying sunlight to an artificial light source such as LED lighting, but storage batteries, solar cells, LEDs, or various industrial equipment that evolved from it would be possible. Should appear.
当面は、二次電池と本考案をセットし無停電電源システムなどに
利用が考えられる。これは、人工照明の量と照射面積並びに
太陽電池などの性能に左右されるも確実に
従前のものより長い時間を無停電電源として利用可能である。
また、各性能の向上から将来、永久電源として利用されるのも
夢ではない。
For the time being, it can be used for uninterruptible power supply systems by setting a secondary battery and this device. Although this depends on the amount of artificial lighting, the irradiation area, and the performance of the solar cell, it can be used as an uninterruptible power source for a longer time than before.
Moreover, it is not a dream to be used as a permanent power source in the future from the improvement of each performance.
発電を必要とするもの総てに利用可能である。ただし機器の大きさや出力電力の大小はその機器設定によるので利用目的に沿った機器設定が必要となる。 It can be used for anything that requires power generation. However, the size of the device and the magnitude of the output power depend on the device settings, so device settings that match the purpose of use are required.
Claims (1)
人工光を太陽電池に当てて発電する。
この場合、充てる人工光側の電力より
太陽電池から出力する電力が多くなるよう
作成されたもの。 Electric power is generated by applying artificial light such as LED (light emitting diode) or laser light emitting diode to a solar cell.
In this case, the power generated from the solar cell is greater than the power on the artificial light side.
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JP2016002003U JP3211019U (en) | 2016-05-01 | 2016-05-01 | Photovoltaic power generation using artificial light |
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JP3211019U7 JP3211019U7 (en) | 2020-02-20 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2021057324A (en) * | 2019-09-27 | 2021-04-08 | 直男 久保田 | Light collecting power generation using regular reflection |
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2016
- 2016-05-01 JP JP2016002003U patent/JP3211019U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2021057324A (en) * | 2019-09-27 | 2021-04-08 | 直男 久保田 | Light collecting power generation using regular reflection |
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