KR20190076663A - Module for solar energy generation and apparatus having the same - Google Patents

Abstract

The present invention provides a solar energy generation module and a solar energy generation apparatus including the same. The solar energy generation apparatus includes a plurality of solar energy generation modules. The solar energy generation modules include: a frame unit having a polygonal pyramid shape and having an installation surface on a side surface thereof; and a plurality of solar panels provided on the installation surface.

Description

TECHNICAL FIELD [0001] The present invention relates to a photovoltaic power generation module and a photovoltaic power generation device including the photovoltaic power generation module,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation module and a photovoltaic power generation device including the photovoltaic power generation module, and more particularly, to a photovoltaic generation module and a photovoltaic power generation device including the same.

The installation structure of the photovoltaic power generation facility is installed in such a manner that it is designed to be artificially installed or inclined at an angle based on the moving direction and incidence angle of sunlight.

Generally, the installation method of solar modules can be divided into fixed type and tracking type. The stationary type is designed based on the time zone and the sun altitude that receive the most sunlight, and the tracking formula is a method of moving along the sunlight.

The fixed method has the advantages of low design and installation cost and easy construction, but it has the disadvantage that it can generate electricity only for a certain period of time and thus the total power generation is small. On the other hand, the tracking method has the advantage of maximizing the power generation during the daytime of the sun, but it has a disadvantage of using frequent breakdown of the structure driving part and using separate power to move the equipment.

In order to reduce the cost and ease of installation, the stationary method based on the time period of receiving the most sunlight in a specific area is the most popular, but a tracking structure has been widely used to further increase the generation amount. However, the tracked structures have not been widely used in terms of cost, and their penetration rate has been greatly reduced due to frequent failures.

Generally, there is a limit that the amount of electricity generated in the installation area of the solar power generation facility is limited and the area of the paper is proportional to the power generation amount.

Therefore, there is a need for a structure that can increase the amount of power generation compared to the area of the paper, and can easily install the structure and does not cause a trouble in long-term operation.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a solar power generation module and a solar power generation device including the solar power generation module in which a large amount of solar cell panels are installed within a limited area, .

In addition, the present invention provides a solar power generation module in which sufficient generation amount is secured even in a narrow sheet of paper where solar power generation facilities could not be installed, all solar cell modules installed regardless of the altitude and time of the sun generate electric energy, And an object thereof is to provide a photovoltaic device.

In order to achieve the above object, a solar photovoltaic device according to the present invention includes a plurality of solar photovoltaic modules, the solar photovoltaic module including a frame part formed in a polygonal pyramid shape and having a mounting surface on a side surface thereof, And a plurality of solar panels provided on the installation surface.

According to another aspect of the present invention, there is provided a solar photovoltaic device comprising a plurality of solar photovoltaic modules, the solar photovoltaic module including a frame part formed in a truncated pyramid shape and having a mounting surface on a side surface, And a plurality of solar cell panels.

A solar power generation module according to the present invention includes a frame portion formed in a pyramid or pyramid shape and having a mounting surface on a side surface thereof, a plurality of solar cell modules provided on the installation surface, And a reflection panel provided on the installation surface and including a material capable of reflecting light and reflecting light incident from the sun in an area not provided with the solar cell panel.

The solar cell module according to the present invention and the solar cell module including the solar cell module according to the present invention may be configured such that the frame portion is formed of a polygonal pyramid or pyramidal structure and a solar cell panel is provided on each mounting surface, So that it is possible to maximize the amount of generated electricity generated within the same area.

Further, according to the present invention, it is possible to secure a sufficient power generation amount even in a narrow paper sheet where the installation space is narrow and the photovoltaic power generation facility can not be installed, and the power generating efficiency of the apparatus can be kept constant.

In addition, according to the present invention, all the solar cell modules provided with the reflection panel regardless of the altitude and the time of the sun can generate electric energy.

1 is a perspective view illustrating a solar cell module according to an embodiment of the present invention.
2 is a front view of Fig.
3 is a perspective view showing a frame part according to the present invention.
Fig. 4 is a perspective view of the frame of Fig. 3 with a support. Fig.
5 is a perspective view illustrating a frame unit according to an embodiment of the present invention.
FIG. 6 is a perspective view illustrating light and reflected light incident on the solar cell module according to the present invention. FIG.
FIG. 7 is a plan view showing a solar power generation module and a second solar power generation module disposed adjacent to each other according to the present invention.
FIG. 8 is a view schematically showing a solar photovoltaic device according to the present invention. FIG.

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

The embodiments described below are embodiments suitable for understanding the technical characteristics of the solar power generation module and the solar power generation device including the same. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

Referring to FIGS. 1 and 8, the photovoltaic device 10 according to an embodiment of the present invention includes a plurality of photovoltaic modules 100.

The solar cell module 100 includes a frame part 200 and a solar cell panel 300.

2 to 4, the frame unit 200 is formed in a polygonal pyramid shape and has a mounting surface on its side surface.

Specifically, the frame unit 200 may be formed in a polygonal shape having a polygonal bottom surface and a triangular side surface. The frame part 200 may be formed of a quadrangular pyramid as in the illustrated embodiment, but is not limited thereto.

Here, the side surface of the triangle may be an installation surface, and the solar panel 300 may be installed. In other words, all the side surfaces of the polygonal pyramidal frame part 200 can be the mounting surface, and a plurality of solar panels 300 can be provided on all the mounting surfaces. Accordingly, many solar panels 300 can be installed within a limited area.

The solar panel 300 may be provided on the installation surface. Here, the solar cell panel 300 can collect sunlight irradiated from the sun to generate electric energy. As in the illustrated embodiment, a plurality of solar panels 300 may be installed on the installation surface. For example, a plurality of solar panels 300 may be stacked on the respective installation surfaces of a triangular shape, .

In addition, since all the mounting surfaces of the frame portion 200 are provided with inclined surfaces, solar light is irradiated to all the mounting surfaces, and electric energy can be generated in all the solar cell panels 300, especially when the altitude of the sun is high .

Various methods can be applied to the method of installing the solar panel 300 on the installation surface and the solar panel 300 may be installed directly on the frame part 200 or on a reflective panel 400 .

According to the present invention as described above, since the frame part 200 is formed as a polygonal cone structure and the solar panel 300 is provided on each mounting surface, a large amount of the solar panel 300 can be installed within a limited area have. Thus, according to the present invention, it is possible to maximize the amount of generated electricity generated within the same area.

Therefore, according to the present invention, it is possible to provide a maximum power generation amount for the same area even in a narrow paper sheet where the installation space is narrow and the solar power generation facility can not be installed, and the power generation efficiency can be maintained constant.

According to another embodiment of the present invention shown in FIG. 5, the frame part 200 may have a truncated pyramid shape and may have a mounting surface on a side surface thereof.

Specifically, the frame part 200 according to another embodiment may be formed in the shape of a truncated pyramid having a bottom surface of a polygon and a trapezoidal side surface. For example, the frame portion 200 may be provided in a rectangular pyramid shape as in the illustrated embodiment, but the present invention is not limited thereto. Since the frame part 200 according to another embodiment of the present invention is provided with a sloped mounting surface like the frame part 200 of the quadrangular pyramid shape, when the height of the sun is particularly high, So that all the solar panels 300 can generate electric energy.

The solar cell module 100 according to the present invention may further include a reflection panel 400.

The reflection panel 400 includes a material that is provided on a mounting surface that is a side surface of the frame unit 200 and is capable of reflecting light.

Specifically, the reflection panel 400 may be provided on the mounting surface together with the solar panel 300, and when the sunlight is incident, the solar panel 300 may reflect sunlight in an area other than the area where the solar panel 300 is provided . The reflected light may be reflected to the mounting surface side of another solar power generating module 100 installed adjacent thereto and irradiated to the solar cell panel 300 of another solar power generating module 100.

Accordingly, even when the altitude of the light is lowered according to the season and the time and the sunlight inclines to the solar power generation module 100, the installation surface of the shade area, in which the sunlight is not incident, The light from the reflective panel 400 can be received. As a result, all mounting surfaces can receive sunlight regardless of the altitude of the sun. Therefore, the power generation efficiency of the photovoltaic device 10 can be increased.

The reflective panel 400 may be formed of an aluminum thin film. However, the material of the reflection panel 400 is not limited thereto, and various modifications can be made as long as the reflection panel 400 is provided on the installation surface and can reflect light incident on the frame part 200.

There is no limitation on the method of mounting the reflection panel 400 on the frame part 200 and various types of installation can be applied as long as light can be reflected in areas other than the solar panel 300. [

Specifically, the frame unit 200 may include a lower frame 210, an upper frame 230, and a support 250.

The lower frame 210 may be formed in a polygonal shape. For example, it may be formed in a rectangular shape, but is not limited thereto.

The upper frame 230 extends upward from the lower frame 210 and extends from each corner 211 of the lower frame 210 toward an arbitrary point D existing on the upper portion of the lower frame 210 Line. ≪ / RTI > Herein, the arbitrary point D existing in the upper part of the lower frame 210 may be a vertex of the frame part 200, which is a pyramid or truncated pyramid. More preferably, any point D may lie on a line L extending vertically at the center of the lower frame, but is not limited thereto.

For example, when the frame part 200 is formed in the shape of a pyramid, the upper frame 230 may be installed from a corner 211 of the lower frame 210 to a vertex, which is an arbitrary point D described above. When the frame part 200 is formed in the shape of a truncated pyramid, the upper frame 230 may extend from the corner 211 of the lower frame 210 to a point spaced apart from the vertex by a predetermined distance.

The shape of the connection between the upper frame 230 and the lower frame 210 is not limited. For example, when the frame unit 200 is a quadrangular pyramid, as shown in FIG. 3, four rectilinear members connecting the vertexes of the rectangular frame 210 and the corners 211 of the lower frame 210 are formed Alternatively, the lower frame 210 and the upper frame 230 may be provided by connecting four frames on the triangle side. Alternatively, a quadrangular pyramid shaped frame may be provided in various ways.

In addition, the support frame 250 may be vertically spaced apart from the upper frame 230 to support the solar cell panel 300. For example, each support 250 may be horizontally provided and both ends thereof may be fixed to the upper frame 230. The plurality of support rods 250 may be vertically spaced to support the solar cell panel 300 in a stacked manner.

Further, the reflection panel 400 may be installed on an installation surface in an area where the solar cell panel 300 is not installed. That is, it can be installed in a region in which the area where the solar cell panel 300 is installed is avoided. In this case, the solar cell panel 300 may be installed directly on the support platform 250, and the reflective panel 400 may be installed to cover the area where the solar cell panel 300 is not installed.

According to another aspect of providing the reflection panel 400, the reflection panel 400 may be installed to cover the installation surface, and the solar panel 300 may be installed on the reflection panel 400.

Specifically, the solar panel 300 may be installed on the upper surface of the reflective panel 400 after the reflective panel 400 is installed to cover the supporter 250 installed on the upper frame 230. Here, the solar cell panel 300 may be installed to correspond to the position of the support platform 250 and be supported by the support platform 250, and a plurality of solar cell panels 300 may be stacked.

Accordingly, sunlight can be reflected in all other areas where the solar panel 300 is not installed in the installation surface. Therefore, since a separate apparatus and space for installing the reflective panel 400 are not required, the structure is simplified and the area efficiency can be enhanced.

Hereinafter, the operation of the reflection panel 400 will be described in more detail with reference to FIGS. 6 and 7. FIG.

Any one of the plurality of solar power generation modules 100 may be referred to as a first solar power generation module 101 and another solar power generation module 100 adjacent to the first solar power generation module 101 may be referred to as a second solar power generation module 101. [ The solar panel 300 provided in the first solar power generation module 101 is a module 102 that is incident on the reflection panel 400 provided in the second solar power generation module 102, And can receive reflected light to generate electric energy (see FIG. 7).

More specifically, the frame portion 200 is formed in a square pyramid shape having a triangular shape as a mounting surface (a surface, b surface, c surface, and d surface in Fig. 7) The mounting surface (a surface) disposed in the direction of incidence in the mounting surface is referred to as a first surface 261 and the mounting surface disposed in the opposite direction to the first surface 261 to receive no light directly (c plane) is defined as a second surface 262, a plurality of photovoltaic power generation modules 100 are connected to the first surface 261 of the first photovoltaic power generation module 101, The second side 262 of the first side 102 may be disposed opposite to each other.

The solar cell panel 300 provided on the second surface 262 of the first solar cell module 101 is made of a material which is incident on the solar cell 300 from the sun, 2, the light reflected by the reflection panel 400 provided on the first surface 261 of the solar cell module 102 can be received (refer to the light in the direction C in FIG. 7). 6 is light having a high altitude incident vertically on the ground, B is light incident in an oblique direction on the ground, C is a reflection (reflection) on the reflection panel 400 of the solar power generation module 100, It is light. In FIG. 7, a, b, c, and d, which are lowercase letters in alphabetical order, are mounting surfaces that are side surfaces of the frame unit 200.

That is, when sunlight is obliquely irradiated in an oblique direction, the c-plane of the installation surface becomes a shaded area, and the solar cell panel 300 installed on the c-plane can not receive sunlight. The solar power module 100 according to the present invention includes a reflection panel 400 and is configured to reflect light (refer to C direction) reflected by the reflection panel 400 on the a-plane of the second solar power generation module 102 Can be received on the c-plane of the first solar cell module 101. Accordingly, even when the light inclines, all the solar panels 300 installed on the installation surface of the solar power generation module 100 can receive light and generate electric energy.

Therefore, according to the present invention, a large amount of solar cell panels 300 can be installed within a limited area, and all the solar cell panels 300 installed regardless of the altitude and time of the sun can generate electric energy, The maximum amount of power generation can be ensured.

8, the region where the plurality of solar power generation modules 100 are arranged is arranged along the rim of the first region I on the outside of the first region I and the first region I , And a second region (II). The photovoltaic module 100a disposed in the first region I includes a photovoltaic module 100b in which the frame portion 200 is formed in a quadrangular pyramid shape and the photovoltaic module 100b is disposed in the second region II The shape of the frame part 200 may be formed in a triangular pyramid shape.

When the shape of the frame part 200 is formed as a quadrangular pyramid, incident light can be reflected in all directions so that the reflectance is good. On the other hand, when the frame part 200 is formed into a triangular pyramid shape, It is advantageous in that the area is small, the installation structure is simple, and the installation cost is low.

Therefore, in the solar cell generator 10 according to the present invention, the frame portion 200 of the first region I, which is an inner region that needs to reflect light in all directions, is formed into a quadrangular pyramid shape, The frame portion 200 of the second region II, which is the outer region of the frame, which is not required to be formed, is formed in a triangular pyramid shape, thereby securing the maximum amount of power generation in the same area, .

As described above, according to the solar power generation module and the solar power generation device including the solar power generation module according to the present invention, the frame portion is formed as a polygonal pyramid or truncated pyramid structure and the solar panel is provided on each installation surface, It is possible to maximize the amount of generated electricity generated within the same area.

Further, according to the present invention, it is possible to secure a sufficient power generation amount even in a narrow paper sheet where the installation space is narrow and the photovoltaic power generation facility can not be installed, and the power generating efficiency of the apparatus can be kept constant.

In addition, according to the present invention, all the solar cell modules provided with the reflection panel regardless of the altitude and the time of the sun can generate electric energy.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various modifications and changes may be made without departing from the scope of the present invention.

10: Photovoltaic device I: First area
II: the second zone 100: the photovoltaic module
100a: a photovoltaic module of the first region
100b: photovoltaic module of the second region
101: first solar power generation module 102: second solar power generation module
200: frame part 210: lower frame
211: corner (of lower frame) 230: upper frame
250: support 261: first side
262: second side 300: solar cell panel
400: Reflective panel A: High-altitude light
B: oblique light C: reflection light
D: arbitrary point at the top

Claims (12)

A solar cell module comprising a plurality of solar modules,
In the solar power generation module,
A frame part formed in a polygonal pyramid shape and having a mounting surface on a side surface thereof; And
And a plurality of solar cell panels provided on the installation surface. The method according to claim 1,
And the frame portion is formed in a quadrangular pyramid shape. A solar cell module comprising a plurality of solar modules,
In the solar power generation module,
A frame portion formed in a truncated pyramid shape and having a mounting surface on a side surface thereof; And
And a plurality of solar cell panels provided on the installation surface. The method according to claim 1,
Wherein the solar power generation module further comprises a reflection panel provided on the installation surface and including a material capable of reflecting light. 5. The method of claim 4,
Wherein the reflection panel is provided on the installation surface in an area where the solar cell panel is not installed. The method according to claim 1,
Further comprising a reflective panel that is provided to cover the mounting surface and includes a material capable of reflecting light,
And the solar cell panel is installed on the reflection panel. 5. The method of claim 4,
When one of the plurality of solar power generation modules is referred to as a first solar power generation module and another solar power generation module neighboring the first solar power generation module is referred to as a second solar power generation module,
Wherein the solar panel provided in the first solar power generation module receives light reflected from the reflection panel provided in the second solar power generation module and generates electrical energy. 8. The method of claim 7,
Wherein the frame portion is formed as a quadrangular pyramid having a triangular mounting surface and the light incident on the mounting surface in an oblique direction, the mounting surface disposed in a direction in which the mounting surface is incident is referred to as a first surface, When the mounting surface disposed opposite to the first surface and not directly receiving light is defined as a second surface,
Wherein the plurality of solar power generation modules are arranged such that the first surface of the first solar power generation module and the second surface of the second solar power generation module face each other,
The solar cell panel provided on the second surface of the first solar photovoltaic module receives light from the sun and is incident on the first surface of the second solar photovoltaic module, And receives the light reflected from the reflection panel. 5. The method of claim 4,
Wherein the reflection panel is formed of an aluminum thin film. The method according to claim 1 or 3,
The frame unit includes:
A polygonal lower frame;
An upper frame extending upward from the lower frame and provided on a line extending from a corner of the lower frame to an arbitrary point existing on an upper portion of the lower frame; And
And a plurality of supporting members that are vertically spaced apart from the upper frame and support the solar cell panel. The method according to claim 1,
Wherein the plurality of solar modules are divided into a first region and a second region located outside the first region along a rim of the first region,
Wherein the frame portion is formed in a quadrangular pyramid shape in the photovoltaic module disposed in the first region,
And the frame portion is formed in a triangular pyramid shape in the solar cell module disposed in the second region. A frame portion formed in a pyramid or truncated pyramid shape and provided with a mounting surface on a side surface thereof;
A plurality of solar panels provided on the installation surface to collect solar energy to generate battery energy; And
And a reflection panel provided on the installation surface and including a material capable of reflecting light and reflecting light incident from the sun in an area where the solar panel is not provided.

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