JP2011029570A - Manufacturing method of photovoltaic power generation panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a manufacturing method of a condensing body of a high power generating efficiency power generating element providing a solar battery element and a photovoltaic power generator which is reduced in size, cost and installation area and exhibiting and constructing the photovoltaic power generating capability, and to provide a manufacturing method for attaining stable supply and cost reduction by an integral structure. <P>SOLUTION: A product of the high power generating efficiency integral structure obtaining the power generation amount by forming a solar panel surface that increases the power generating effect to have not only a flat-plate shape but also a cylindrical shape with a rugged surface to increase the laid area is provided. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to an element constituting a photovoltaic power generation panel and an assembly cell arrangement, and to a photovoltaic power generation apparatus that efficiently collects sunlight on a light receiving surface.

The present invention relates to a small and inexpensive solar power generation.

The present invention relates to a natural solar lighting power generation apparatus.

Conventionally, a solar power generation device has a flat solar panel configuration, but the amount of power generated by planar condensing needs to increase the specific surface area effect and increase the cell efficiency in order to pursue downsizing.
However, the cost has been at a high level, and the low price trend is difficult in view of the spread in the near future, and it is time for a stable and inexpensive manufacturing process.

In the background described above, the apparatus is becoming larger with respect to the required power generation amount at the current stage due to the low energy density with respect to the unit surface of sunlight. Therefore, the selling price is high and it is difficult to spread.

Therefore, in the solar cell manufacturing work process, it is desired to set a price that can be sold by the price at which the manufacturing cost leads to a business chance and the evolution of technology.

Preferably, sunlight is efficiently converted to the incident structure on the light receiving surface, thereby solving the problem of the monolithic structure cost.

The background art is a proposal of a solar power generation device by evolution of solar cell elements and collective arrangement.

In view of the above-described problems, the present invention is characterized by an inexpensive solar cell element and a photovoltaic power generation apparatus having a structure capable of minimizing the performance and effect of the present invention, which can maximize the efficiency of solar light collection through solar movement.

The present invention solves the problem with effectiveness by providing a technology for increasing the unit area with increased incidence efficiency from a flat solar panel.

Therefore, the price of expensive solar cells has hindered the penetration rate, and an object is to provide an inexpensive manufacturing method in the manufacturing process.

The present invention is characterized by an integrated configuration of a manufacturing method that should contribute to productivity improvement in order to achieve the above-described problems.

The challenge is to provide a solar power generation device that can make the best use of a small power generation capacity.

Increasing the concentration of sunlight can be obtained by employing a lens having a light-receiving surface of a power generation element with high power generation efficiency of solar power generation according to the present invention, which is provided with a convex / concave reflector. Therefore, since the conventional light receiving surface can be shortened, it is possible to install a narrow space, so that work efficiency can be improved. The processing cost is low because the construction period is shortened.

In this way, the integrated work is easy, and the conventional single and complex work can be efficiently and effectively performed.

A feature of the present invention is that an inexpensive solar cell element and solar power generation device having an integrated structure are manufactured.

The present invention is economical because it improves the safety of the above work, the work efficiency, and the mass production.

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.

About the said embodiment, the design manufacture of the range of integrated structures, such as the efficiency of a cell, the structure of a panel, a volt | bolt, welding fixation etc., is described, for example.

In invention of Claims 1-4, the manufacturing method of the solar cell element characterized by the laying of the solar panel surface.

The construction method of the present invention according to claim 5 is characterized in that work can be performed safely and efficiently, such as efficiency, effect, mass production effect, and the like due to the collective arrangement of solar cell elements, and the construction period can be shortened.

The present invention relates to a photovoltaic power generation element and a method for manufacturing a photovoltaic power generation apparatus. The efficiency of the structure is reduced. Moreover, the simple structure eliminates power outage damage and eliminates industrial waste.

The application range of natural energy solar power generation is wide, such as outdoor, indoor public facilities, apartments, condominiums, buildings, factories, parks, street lamps, and bridge lamps.

Claims (5)

A method for manufacturing a solar cell element, characterized by laying an uneven, curved solar panel surface. 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. A method for manufacturing a solar cell element, which incorporates a V-shaped angle and lays a single, pair, integral, or multiple solar panel surface. A method for manufacturing a solar cell element, characterized in that a solar panel surface such as a mirror surface member, a reflection surface member, a lens surface member, or a parabona type member is laid in the manufacturing method described above. 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.