KR20100012974A - A fuel induction type solar panels layered inside sunbeam-black hole - Google Patents

Abstract

PURPOSE: A fuel induction type solar panels layered inside a sunbeam-black hole is provided to increase usage of the light and a site by arranging sunlight integrated container as a multi-layer structure and proving a mirror for reflecting the light. CONSTITUTION: A sunlight integrated container(100) with a vacuum condition is installed on the ground. The sunlight integrated container has a sunlight black hole(110) at the center of the top. The sunlight integrated container has a convex lens(200) thereon. The convex lens concentrates the light on a focus and integrates it in the sunlight integrated container through the sunlight black hole. A fuel sensitive solar panel(130) having a multi-layer is installed in the sunlight integrated container. A mirror(120) reflects the light passing through the fuel sensitive solar panel to another fuel sensitive solar panel.

Description

A fuel induction type solar panels layered inside sunbeam-black hole}

The present invention relates to the field of fuel-sensitized solar cells.

The present invention relates to the field of fuel-sensitized solar cell technology, but since the fuel-sensitized (color glass) solar cell is still in the preparation stage for practical use, it cannot be said to be a conventional method. If only provided, it absorbs only a portion of the light and passes the rest into the atmosphere, which can lead to low utilization of light and land.

In a fuel-sensitized solar panel installed in multiple layers in the solar black hole of the present invention, firstly, solar panels are provided in multiple layers in a solar collector on a ground, and reflecting light passing through the solar panel to another solar panel. The present invention relates to a fuel-sensitized solar panel which is provided in multiple layers in a solar black hole in which mirrors are provided to increase the utilization of light and to increase the utilization of the earth on which the solar panel is to be installed.

As described above, fuel-sensitized (color glass) solar cells are still in the preparation stage for practical use, so they cannot be called conventional methods. However, conventional common sense is that if solar panels are provided in a single layer on the ground, they absorb only part of the light and the rest. Passes into the atmosphere, so the utilization of light and land may be low.

In a fuel-sensitized solar panel installed in multiple layers in the solar black hole of the present invention, by arranging the solar panels in a multilayer in the solar integrated container, by providing a mirror for reflecting the light passing through the solar panel to another solar panel The challenge is to increase the utilization of light and at the same time increase the utilization of the earth.

In order to solve the above problems, it is to provide a mirror for reflecting the light passing through the solar panel to another solar panel while the solar panel is arranged in a multilayer in the solar black hole.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of a fuel-sensitized solar panel installed in multiple layers in the solar black hole according to the present invention will be described in detail.

In the drawing, as an example of a fuel-sensitized (color glass) solar panel installed in multiple layers in the photovoltaic black hole of the present invention in FIG. 1, a photovoltaic collector 100 is first provided on a ground, and the photovoltaic collector 100 is provided. Solar black hole 110 is provided in the upper center of the upper side, and the convex lens 200 is provided on the solar collector 100, so that the convex lens 200 sunlight (hereinafter, referred to as light) The focus 210 is integrated into the photovoltaic container 100 through the photovoltaic black hole 110 continuously, and a fuel-sensitized solar panel (hereinafter, referred to as a solar panel) in the photovoltaic container 100. 130 are provided in multiple layers, and the mirrors 120 for reflecting light 220 passing through the solar panel 130 to another solar panel 130 are walls of the solar accumulator 100. Is provided in, to increase the utilization of the light 220 and the state Panel 130 is installed a fuel induction in multiple layers in the photovoltaic black hole to increase the utilization rate of the ground installation type relates to a solar panel. By keeping the inside of the solar integrated container 100 in a vacuum state from the lower surface of the convex lens 200, air absorbs the light 220 and is heated and pressurized to lower the utilization rate of the light 220 and further increase the solar panel. It would be desirable to prevent lowering the power generation efficiency of 130. In order to maintain only the inside of the solar collector 100 in a vacuum state, the solar black hole 110 should be blocked with transparent glass or the like. In addition, when the solar panel 130 is provided in the air, a thick tempered glass should be used since it is exposed to external environmental loads such as snow, rain, wind, hail, and typhoons. Since transparent glass such as thin glass or wrap may be used instead of tempered glass, it may be economical and increase solar power generation efficiency in manufacturing transportation installation of the solar panel 130. On the other hand, unlike the fuel-sensitized solar panel 130 that absorbs and passes the light 220, instead of a part or all of the mirror 120, a silicon solar panel that absorbs and reflects the light 220. If used, the utilization rate of the light 220 may be further increased.

[effect]

As described in detail above, in the fuel-sensitized solar panel installed in the solar black hole of the present invention in a multi-layer, the solar panel is arranged in a multi-layered solar container, but reflects the light passing through the solar panel to another solar panel. Providing a mirror to increase the utilization of light and at the same time has the economic effect of increasing the utilization of the earth. In addition, by keeping the solar collector 100 in a vacuum state, the air absorbs and heats the light 220, thereby lowering the utilization rate of the light 220 and lowering the power generation efficiency of the solar panel 130. There is also an effect that can be prevented. When the solar panel 130 is provided in the air, it is exposed to external environmental loads such as snow, rain, wind, hail, and typhoons. However, when the solar panel 130 is provided in the solar integrated container 100, the thick tempered glass should be used. Instead, since a thin film or a transparent film such as a wrap may be used, there is another effect of increasing economical efficiency and generating efficiency in manufacturing, transporting, etc. of the solar panel 130.

Although the technical idea of the fuel-sensitized solar panel installed in multiple layers in the solar black hole of the present invention has been described together with the accompanying drawings, this is illustrative of the best embodiments of the present invention and is not intended to limit the present invention. .

1 is a side view showing a fuel-sensitive color glass solar panel installed in multiple layers in a solar black hole according to the present invention.

Explanation of symbols on the main parts of the drawings

100: solar integrated container 110: solar black hole

120: mirror 130: fuel-sensitive color glass solar panel

200: convex lens 210: solar focus

220: light integrated in the solar accumulator

Claims (2)

To provide a vacuum solar accumulator on the ground, Providing a solar black hole in the upper center of the solar collector, By providing a convex lens on the solar collector, The convex lens collects light into a solar focal spot and continuously integrates the light into the solar collector through the solar black hole; Providing multiple layers of fuel-sensitized solar panels in the solar integrated container, Providing mirrors on the wall and bottom of the solar accumulator to reflect light passing through the fuel-sensitive solar panel to another fuel-sensitive solar panel, A fuel-sensitized solar panel installed in multiple layers in the solar black hole, characterized in that to increase the utilization of the light and at the same time to increase the utilization of the ground to install the fuel-sensitized solar panels. The method of claim 1, A fuel-sensitized solar panel installed in multiple layers in a solar black hole, characterized in that to provide a silicon-type solar panel that absorbs and reflects the light instead of the mirror.

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