JP2011035356A - Design and method of manufacturing solar-light electric power generation system with countermeasure against snowfall and strong wind - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar cell element and solar-light electric power generation system which includes a countermeasure against snowfall and strong wind, a highly efficient solar-light electric power generation function throughout the whole year, and a compact and cheap panel with reduced layout area, exhibiting the solar-light electric power generation capability, and to provide a method of manufacturing a light collector which gives a unified structure for the highly efficient electric power generation element, thereby achieving stable supply and a cheap cost by adopting a unified structure. <P>SOLUTION: The solar-light electric power generation system is installed vertically on a frame, building, or appurtenance of a building to provide a countermeasure against snowfall and strong wind. The system possesses a unified structure to achieve high power generation efficiency by overcoming increase of the layout area of the solar panel surface of a flat-plate type, cylindrical type, or concave-convex surface type. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は、通年太陽光発電システムを構成する素子、集合セル配置、受光面に太陽光を効率よく集光する太陽光発電システム等に関する。The present invention relates to an element that constitutes a year-round photovoltaic power generation system, an assembly cell arrangement, a photovoltaic power generation system that efficiently concentrates sunlight on a light receiving surface, and the like.

本発明は、安価な太陽光発電に関する。The present invention relates to inexpensive solar power generation.

本発明は、天然太陽光の照明、発電装置に関する。The present invention relates to natural sunlight lighting and a power generation device.

従来、太陽光発電装置は、平板型ソーラーパネル構成をなして、平面集光面は大型化している。発電量を高め、小型化し、比表面積効果を高めセルの効率を高める必要がある。現段階のコストは高値で推移しており近い将来の普及を鑑みると安値傾向は困難であり、安定供給で安価な製造プロセスのタイミングにきている。Conventionally, a solar power generation device has a flat solar panel configuration, and a planar light collecting surface is enlarged. It is necessary to increase the amount of power generation, downsize, increase the specific surface area effect, and increase the efficiency of the cell. The cost at the present stage has been at a high level, and considering the spread in the near future, the low price trend is difficult, and the timing of a stable and inexpensive manufacturing process has come.

上記背景には、太陽光の単位面性に対しエネルギー密度の低さから大型の発電面積が求められている。よって、販売価格が高値になり普及が困難になっている。In the background described above, a large power generation area is required because of the low energy density with respect to the unit surface of sunlight. Therefore, the selling price is high and it is difficult to spread.

そのため、太陽電池の製造作業工程において、製造原価がキーワード結び付き価格と、技術が要求されている。Therefore, in the manufacturing process of the solar cell, the manufacturing cost is a keyword-linked price and technology is required.

好ましくは、受光面に太陽光が効率良く入射構造に転換することで、ガダイ構造が一体製造で問題解決となる。Preferably, sunlight is efficiently converted into the incident structure on the light receiving surface, so that the Gadai structure is integrated and the problem is solved.

背景技術は、太陽電池素子及び集合配置の進化による太陽光発電システムの提案。The background technology is a proposal of a solar power generation system based on the evolution of solar cell elements and collective arrangements.

上記の問題を鑑みて、本発明の、太陽移動の太陽光集光の効率を最大限可能とし、降雪、強風対策が通年において性能、効果が発揮できる小型化システムによる安価な太陽電池素子、太陽光発電システムを特徴とする。In view of the above problems, the solar cell element according to the present invention is made possible by a miniaturized system that can maximize the efficiency of solar light collection of solar movement, and snowfall and strong wind countermeasures can exhibit performance and effects throughout the year. Features a photovoltaic system.

本発明は、ソーラーパネルから入射効率を高めた単位面積の増加技術の提供によって問題解決が図られる。降雪、強風対策として屋根に設置することは、降雪によって太陽光集光が遮断される。The present invention solves the problem by providing a technology for increasing the unit area by increasing the incident efficiency from the solar panel. Installation on the roof as a measure against snowfall and strong winds blocks sunlight collection due to snowfall.

強風による被害として、高額な太陽電池装置の破壊が想定される。As damage caused by strong winds, expensive solar cell devices are expected to be destroyed.

本発明は、上記課題を達成するため、建物の南向き西向き側面の、壁、窓、建物付属物等に垂直に太陽電池モジュールを取り付けることにより，通年稼動ができる向上に寄与する一体型システムを特徴とする。In order to achieve the above-mentioned object, the present invention provides an integrated system that contributes to the improvement of year-round operation by attaching solar cell modules vertically to walls, windows, building accessories, etc. on the south-facing west-facing side of the building. Features.

本発明は、降雪、強風対策の課題を解決し、しかも、小型の発電能力の最大限発揮できる太陽光発電装置の提供にある。The present invention provides a solar power generation apparatus that solves the problems of snowfall and strong wind countermeasures, and that can maximize the power generation capacity of a small size.

本発明による太陽光発電の発電効率の高い発電素子の受光面を平面、凸凹面の反射板の配設、レンズ化を進化採用することで、太陽光の集光増加が得られる。よって、従来の受光面の短縮可能とすることで狭いスペースの設置を可能とし、作業効率が高められる。施工期間の短縮から低価格の処理費用で済む。Increasing the light receiving surface of the power generating element with high power generation efficiency according to the present invention by adopting a flat, convex / concave reflection plate, and lens formation can increase the concentration of sunlight. Therefore, by making it possible to shorten the conventional light receiving surface, it is possible to install a narrow space, and work efficiency is improved. The processing cost is low because the construction period is shortened.

このように一体構成の作業が容易であり、従来の単一、複雑をなす作業を効率、効果的に発揮される。In this way, the integrated work is easy, and the conventional single and complex work can be efficiently and effectively performed.

本発明の特徴は，一体化構造の太陽電池素子、太陽光発電装置を垂直設置することでの安易、安価なシステムを特徴とした。The feature of the present invention is that it is an easy and inexpensive system by vertically installing a solar cell element and a solar power generation device having an integrated structure.

本発明は、上記作業の安全性、作業効率の向上、量産の向上がはかられ費用対効果が普及率を上げ、経済的なシステム構築を特徴とする。The present invention is characterized by the construction of an economical system in which the safety of the above work, the improvement of work efficiency, and the improvement of mass production are promoted and the cost effectiveness increases the penetration rate.

本発明の実施形態の一体構成は本実施形態に限定されるものではなく要旨の逸脱しない範囲の設計変更は本発明に含む。The integrated configuration of the embodiment of the present invention is not limited to this embodiment, and design changes within a range not departing from the gist of the present invention are included in the present invention.

上記実施形態については、例えば、太陽光発電装置の取り付け角度調整装置、移動移設を可能とする装置。セル効率、パネル構造、ボルト、溶接固定等、一体化構造範囲の設計製造を述べている。About the said embodiment, the installation angle adjustment apparatus of a solar power generation device, the apparatus which enables movement transfer, for example. Describes the design and manufacture of a range of integrated structures, such as cell efficiency, panel structure, bolts, and weld fixing.

請求項１から４記載の発明では、パネル面の敷設の特徴と太陽電池素子の製造方法。In invention of Claims 1-4, the characteristic of the installation of a panel surface and the manufacturing method of a solar cell element.

請求項５記載の本発明の構成方法は、太陽電池素子の集合配置による効率、効果、量産効果等、作業が安全に効率よくでき，ガダイ、建物、建物付属物への設置の工期の短縮ができ経済的であることを特徴とする。The configuration method of the present invention according to claim 5 can efficiently and efficiently work such as efficiency, effect, mass production effect, etc. by the collective arrangement of solar cell elements, and can shorten the construction period of installation on gadgets, buildings, and building accessories. It is characterized by being economical.

本発明は、降雪、強風対策としての太陽光発電システムの設計と製造に関する。
太陽光発電素子及び太陽光発電装置の製造方法に関し、構造の効率、コスト削減、簡易な構造で、停電、降雪、強風被害の解消になり産業上に無駄がない。The present invention relates to the design and manufacture of a photovoltaic power generation system as a measure against snowfall and strong winds.
With regard to a method for manufacturing a photovoltaic power generation element and a photovoltaic power generation apparatus, the efficiency of structure, cost reduction, and simple structure eliminate power outage, snowfall, and strong wind damage, and there is no industrial waste.

本発明は、再生可能なエネルギーの利用促進を図り、地球温暖化の防止、環境保全、安心、安全な自然エネルギーの太陽光発電効果を屋外、屋内を含む公共施設、アパート、マンション、ビルディング、工場、公園、道路の街灯、橋の街灯等応用範囲は広い。The present invention promotes the use of renewable energy, prevents global warming, protects the environment, protects the environment, provides peace of mind, and provides a safe and secure natural energy solar power generation, including public facilities including outdoor and indoor, apartments, condominiums, buildings, and factories. The application range is wide, such as parks, street lamps on roads, and street lamps on bridges.

Claims (5)

平面、凸凹面、湾曲型面パネル敷設の多様化を特徴とした太陽電池素子システム設計と製造方法。Solar cell element system design and manufacturing method characterized by diversification of flat, uneven and curved surface panels. 上記を円筒に構成し、光の入射角度の効率を取り入れ、ソーラーパネル面の敷設を特徴とした太陽電池素子の製造方法。A method for producing a solar cell element, characterized in that the above is configured in a cylinder, taking into account the efficiency of the incident angle of light, and laying a solar panel surface. Ｖ字型の単一、連続角度を取り入れたパネル面の敷設を特徴とした太陽電池素子の製造方法。A method for manufacturing a solar cell element, characterized by laying a panel surface incorporating a V-shaped single, continuous angle. 上記の記載の製造方法において、平面、鏡面部材、反射面部材、レンズ面部材、パラボナ型部材等の単一、連続、複合のソーラーパネル面の敷設をガダイ、建物、建物付属物に垂直に取り付けた設計を特徴とした太陽電池素子の製造方法。In the manufacturing method described above, single, continuous, and composite solar panel surfaces such as flat surfaces, mirror surface members, reflecting surface members, lens surface members, and parabona-type members are vertically attached to gadgets, buildings, and building accessories. For manufacturing a solar cell element characterized by the design. 太陽電池素子の集合配置の製造方法において請求項１から４を含み、本発明の趣旨構造を逸脱しない範囲の変更は本発明に含まれる。In the manufacturing method of the collective arrangement of solar cell elements, claims 1 to 4 are included, and changes within a range not departing from the gist of the present invention are included in the present invention.