KR20210156958A - Power generation device of double-sided solar module using reflector - Google Patents

Abstract

The present invention relates to a power generation device for a double-sided photovoltaic module using a reflector, in which power generation is performed by arranging one row or multiple rows of double-sided photovoltaic modules side by side on an upper surface of a support frame inclined toward the south by at least one post, a curved reflector is installed on the north side of the support frame to reflect light downward from the double-sided photovoltaic module located in the south, so as to enable the cultivation of semi-shade plants, a fixing part of the reflector adjusts an inclination angle of the reflector to some extent according to changes in the inclination of the sun according to changes of season in a state coupled to a rotating shaft hole, and adjusts the rotation angle of the reflector to some extent according to movements of the sun during the day, thereby providing light more, and a concave lens body is installed in a middle of the support frame so that the light reflected from the north reflector is diffused while passing through the concave lens, thereby facilitating the power generation by the double-sided photovoltaic module while evenly illuminating the bottom of the double-sided photovoltaic module.

Description

Power generation device of double-sided solar module using reflector{omitted}

The present invention relates to a power generation device for a double-sided photovoltaic module using a reflector, and more specifically, a reflector installed on the north or south side of a double-sided photovoltaic module or double-sided photovoltaic module assembly which is inclined to the south is reflected light to the south The light is guided to the bottom of the double-sided photovoltaic module or double-sided photovoltaic module assembly located in the It relates to a power generation device of a double-sided photovoltaic module using a reflector so as not to lose it.

BACKGROUND ART Conventionally, a large amount of attention has been paid to a solar power generating system, and many photovoltaic modules are installed in a structure such as a support structure of a house.

On the other hand, in the case of building a large-scale solar photovoltaic power generating system, a vast space for arranging many modules is required.

And the solar cell converts the light energy of the sun into electrical energy.

The smallest unit that generates power using the photoelectric effect is called a cell, and a cell module that generates power by connecting a plurality of cells in series or parallel is called a solar cell module.

A photovoltaic power plant (also called a photovoltaic power generation system) is an aggregate of solar cell modules in which a plurality of solar cell modules are connected in series or in parallel.

These photovoltaic power plants are generally installed on land, which incurs huge site purchase costs and civil engineering costs. In addition, when installed on land, the solar cell modules are heated by geothermal heat in summer, so that the solar cell modules are not effectively cooled. Due to this, the power generation efficiency of the solar cell module is reduced.

Therefore, in order to solve this problem, water-based photovoltaic modules for installing solar cell modules on the water surface of lakes, rivers, ponds, dams, etc. have been proposed. Floating solar modules using double-sided solar cells have been proposed.

The photovoltaic module for water using such a double-sided solar cell is configured by coupling a solar cell to the upper end of the frame (F) as shown in FIG. 1 , and the solar cell is provided inside the sheet (G) made of glass.

That is, a plurality of solar cells are connected to the inside, and a sheet G made of glass is coupled to the upper and lower sides of the solar cell,

Both sides of the solar cell configured in this way are respectively coupled to a pair of frames (F) to be installed on the water surface.

Accordingly, the solar cell not only collects sunlight directly from the upper side, but also collects the sunlight diffusely reflected from the water surface from the lower side, thereby further increasing the amount of power generation.

However, this conventional water photovoltaic module using double-sided solar cells is not only heavy because the upper and lower sheets (G) are made of glass, but also diffused sunlight in the water due to the height of the frame increased due to the excessive weight There was a problem of partial blocking due to the shadow of this frame.

Thus, on January 15, 2016, Patent Registration No. 10-1587605 (a floating solar module using a double-sided solar cell) was proposed,

This, in the solar module for water,

On the edge of the double-sided solar cell module in which the front material, the upper encapsulant, the double-sided solar cell, the lower encapsulant, and the rear material are sequentially stacked, the outer part of the double-sided solar cell module can be closely inserted into the body to form a 'c' shape. A frame in which a coupling part is formed is installed,

The frame is formed with an extended fixing part having a coupling hole on the other side of the body so that it can be screwed with a fixture installed on the water surface,

The ribbon electrically connected to the double-sided solar cell is composed of a light capture ribbon having triangular irregularities formed on the surface, and the writing capture ribbon is an anisotropically conductive paste (Electroconductive Adhesive) in a low pressure and low temperature process ( ACP: Anisotropic Conductive Paste) and anisotropic conductive film (ACF: Anisotropic Conductive Film) are adhesively sealed to both sides of the solar cell,

The rear material is made of a transparent synthetic resin material to transmit diffusely reflected sunlight in the water, maintains a transparency of 85% or more, indicating more than the transmittance of ordinary glass with a thickness of 5 mm, and protects from contamination and corrosion in a water environment. It was constructed by coating a transparent material with fluorine.

However, by the above-mentioned conventional double-sided solar module using a water-based solar module for water use, the light is reflected from the north photovoltaic module of the photovoltaic module installed on the ground to the bottom of the south photovoltaic module. It is necessary to not only increase the amount of power generation by allowing the power generation to take place, but also to prevent the phenomenon that the soil at the bottom does not receive light by the light reflected by the solar module and prevents the loss of function.

Accordingly, the present invention is to solve the problems of the prior art as described above, and a reflector is installed on the north or south side of a double-sided photovoltaic module installed inclined to the south or a double-sided photovoltaic module assembly to reflect the reflected light on both sides located in the south. By guiding the light to the bottom of the photovoltaic module or the double-sided photovoltaic module assembly so that the light shines through, power generation is made on the bottom of the double-sided photovoltaic module as well as the light is reflected on the bottom of the double-sided photovoltaic module so that the soil function is not lost. An object of the present invention is to provide a power generation device for a double-sided solar module using a single reflector.

Another object of the present invention is to install an inclination angle adjusting device on the reflector to change the inclination of the reflector according to the inclination of the sun and to allow more light to shine through.

And another object of the present invention is to install a concave lens on the south post receiving the light of the reflector so that the transmitted light can be evenly transmitted to the bottom surface of the double-sided solar module.

The power generation device of the double-sided solar module using the reflector of the present invention for achieving the above object,

One row or multiple rows of double-sided solar modules are arranged side by side on the upper surface of the support frame inclined in the south direction by at least one post to generate power,

A curved reflector is installed on the north side of the support frame to reflect light downward of the double-sided solar module located on the south side,

In accordance with the movement of the vertical fixing part of the reflector, the rotation angle of the reflector about the central axis is adjusted to some extent by the driving of the rotation adjusting device,

The horizontal fixing part of the reflector adjusts the inclination angle of the reflector to some extent by driving the inclination angle adjusting device according to the change of the inclination of the sun according to the change of season in a state coupled to the rotation shaft hole of the vertical fixing part,

A concave lens is installed in the middle of the support frame so that the light reflected from the reflector of the north support frame is diffused by the concave lens and evenly illuminates the bottom of the double-sided photovoltaic module to enable power generation by the double-sided photovoltaic module. do it with

According to the power generation device of the double-sided solar module using the reflector according to the present invention, one row or a plurality of rows of the double-sided solar module are arranged side by side on the upper surface of the support frame inclined in the south direction by at least one post. to make progress,

A curved reflector is installed on the north side of the support frame to reflect light downward of the double-sided solar module located on the south side to enable cultivation of semi-shade plants,

The fixing part of the reflector adjusts the inclination angle of the rotating shaft hole to some extent according to the change in the inclination of the sun according to the change of season in a state coupled to the rotating shaft hole, and at the same time adjusts the rotation angle of the central axis according to the movement of the sun during the day to some extent so that more light can be supplied,

A concave lens body is installed in the middle of the support frame so that the light reflected from the north reflector diffuses while passing through the concave lens and is guided to the bottom of the double-sided photovoltaic module located in the south so that the light shines. In addition to generating power from the bottom, light is reflected on the bottom of the double-sided solar module to prevent loss of soil function.

1 is a schematic diagram showing a configuration according to an embodiment of the present invention.
Figure 2 is a detailed view showing the main configuration of the present invention.
3 is a schematic diagram showing a configuration according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 2 show a power generation device of a double-sided solar module using a reflector according to an embodiment of the present invention,

On the upper surface of the support frame (2)) 2a) formed to be inclined in the south direction by at least one or more posts (1) (1a), one row or multiple rows of double-sided photovoltaic modules (3) (3a) are arranged side by side to generate electricity make this happen,

A curved reflector 10 is installed on the north side of the support frame 2 to reflect light downward of the double-sided solar module 3a located on the south side,

The vertical fixing part 11 of the reflector 10 is coupled to the central shaft 4 of the support frame 2, and the central shaft 4 is driven by the rotation adjusting device 12 according to the movement of the sun during the day. to be adjusted for some time centered on

The horizontal fixing part 13 of the reflector 10 is coupled to the rotation shaft hole 14 of the vertical fixing part 11, and according to the change of the inclination of the sun according to the change of seasons, the inclination angle adjusting device 15 is driven. to adjust the angle of inclination of the reflector 10 by

A concave lens 16 is installed at the lower end of the support frame 2a so that light reflected from the reflector 10 of the north support frame 2 is diffused while passing through the concave lens 16, and the double-sided solar module 3a ), it is constructed so that development can be achieved while evenly illuminating the underside.

The power generation device of the double-sided photovoltaic module using the reflector of the present invention configured as described above is a double-sided photovoltaic module on the upper surface of the support frame (2) (2a) inclined in the south direction by at least one or more posts (1) (1a). (3) One row or multiple rows of (3a) are arranged side by side to generate power.

A curved reflector 10 is installed on the north side of the support frame 2 to reflect light downward of the double-sided solar module 3a located on the south side.

The vertical fixing part 11 of the reflector 10 is coupled to the central shaft 4 of the support frame 2, and the central shaft 4 is driven by the rotation adjusting device 12 according to the movement of the sun during the day. Adjust the angle to reflect the most light while rotating slowly from east to west around the

The horizontal fixing part 13 of the reflector 10 is coupled to the rotation shaft hole 14 of the vertical fixing part 11, and according to the change of the inclination of the sun according to the change of seasons, the inclination angle adjustment device 15 is driven. The inclination angle of the reflector 10 is adjusted to some extent by this.

A concave lens 16 is installed at the lower end of the support frame 2a so that light reflected from the reflector 10 of the north support frame 2 is diffused while passing through the concave lens 16, and the double-sided solar module 3a ) to be evenly lit on the bottom surface, so that power generation by the double-sided photovoltaic module is made.

3 shows a configuration according to another embodiment of the present invention,

On the upper surface of the support frame (2) (2a) inclined in the south direction by at least one or more posts (1) (1a), one row or multiple rows of double-sided photovoltaic modules (3) (3a) are arranged side by side to generate electricity make this happen,

A curved reflector 20 is installed on the south side of the support frame 2 to reflect light downward of the double-sided solar module 3a located in the south,

The vertical fixing part 21 of the reflector 20 is coupled to the central shaft 5 of the support frame 2, and the central shaft 5 is driven by the rotation control device 22 according to the movement of the sun during the day. to be adjusted for some time centered on

The horizontal fixing part 23 of the reflector 20 is coupled to the rotation shaft hole 24 of the vertical fixing part 21, and according to the change of the inclination of the sun according to the change of season, the driving of the inclination angle adjusting device 25 and to adjust the inclination angle of the reflector 20 to some extent by

By installing a reflector 26 on the south side of the south-facing solar module 3a, the light reflected by the radiant mirror 20 is reflected by the reflector 26 again, and a semi-shade plant from the bottom of the south-facing solar module 3a. to grow, use as livestock, or to farm aquatic products;

In the above, a preferred embodiment of the present invention has been shown and described, but the present invention is not limited to the above-described embodiment, and it is common in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Any person skilled in the art can implement various modifications, and such modifications are within the scope of the described claims.

1: post 2: support frame
3: double-sided solar module 4: central axis
10: reflector 11: vertical fixing part
12: rotation control device 13: horizontal fixing unit
14: rotation shaft hole 15: inclination angle adjustment device
16: concave lens

Claims (3)

On the upper surface of the support frame (2) inclined in the south direction by at least one or more posts (1), one row or a plurality of rows of double-sided photovoltaic modules (3) are arranged side by side to generate power,
A curved reflector 10 is installed on the north side of the support frame 2 to reflect light to the bottom surface of the double-sided solar module 3a located on the south side,
Development of a double-sided solar module using a reflector, characterized in that by installing a curved reflector 20 on the south side of the support frame 2 to reflect light downward of the double-sided photovoltaic module 3a located on the south side Device. The method according to claim 1,
The vertical fixing part 11 of the reflector 10 is coupled to the central shaft 4 of the support frame 2, and the central shaft 4 is driven by the rotation adjusting device 12 according to the movement of the sun during the day. to be adjusted around the
The horizontal fixing part 13 of the reflector 10 is coupled to the rotation shaft hole 14 of the vertical fixing part 11, and according to the change of the inclination of the sun according to the change of seasons, the inclination angle adjustment device 15 is driven. Power generation device of a double-sided solar module using a reflector, characterized in that configured to adjust the inclination angle of the reflector 10 by The method according to claim 1,
A concave lens body 16 is installed in the middle of the support frame 2 so that the light reflected from the reflector 10 of the north support frame 2 is diffused while passing through the concave lens 17, and a double-sided solar module ( A power generation device for a double-sided photovoltaic module using a reflector, characterized in that the bottom of 3a) is configured to enable power generation by the double-sided photovoltaic module.

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