KR200466821Y1 - Floating Typed Apparatus For Generating Photovoltaic Power - Google Patents

Abstract

The present invention relates to a floating solar photovoltaic device in which a photovoltaic module is floated on a water surface. The composition is; A plate-like casing 10 for providing a sealed inner space by being fixed in parallel to the transparent upper plate 11 and the support plate 13 by a frame 20; A solar panel 12 installed in the casing 10; And a space maintaining member (17) for fixing the solar panel (12) inside the casing (10); The photovoltaic power generation module 1 is characterized in that it has a specific gravity that floats on the water surface W. [

Description

[0001] Floating Typed Apparatus For Generating Photovoltaic Power [0002]

The present invention relates to a photovoltaic power generation apparatus, and more particularly, to a water-floating photovoltaic power generation apparatus in which a photovoltaic power generation module is suspended in a water phase.

In order to produce electric power using solar light, the amount of electric power is determined in proportion to the area of the solar panel, so it is necessary to utilize the given volume as much as possible. And it requires a lot of capacity to increase the power output. It is not easy to use solar power on the Korean Peninsula, which has a lot of acidic and smooth ground. Therefore, a water photovoltaic generation apparatus has been recently proposed using the geographical characteristic called the peninsula. For example, Korean Patent Application No. 10-2009-0035795 (Prior Art 1) and Utility Model Registration Application No. 20-2009-0003120 (Prior Art 2).

Prior Art 1 proposes a structure fixing means for preventing a water structure from being severely flowed by a wave. Prior Art 2 proposes a power generating device with a structure capable of adjusting a light receiving angle according to the angle of the sunlight.

As described above, the conventional water-mounted PV system has been improved from the viewpoint of increasing the electric power production by using more sunlight, such as changing the angle of the solar panel. In other words, conventionally, the power generating function of the solar power generation device has been focused on. For this purpose, a support structure for supporting the solar panel at an inclined angle is indispensably required in order to install the power generation device in the water tower. Such a base structure makes the construction work itself difficult and is thus a major factor for increasing the construction cost. And, when the solar panel is installed using the supporting structure, the landscape around the solar panel is greatly changed, which causes aesthetic value. Therefore, it is not uncommon to be treated as an abominable facility for residents or tourists around.

As described above, the solar power generation apparatus using the conventional water structure has advantages in that solar energy can be easily obtained in an environment in which it is difficult to sufficiently use the earth, but it has a problem of increasing the installation cost or damaging the natural landscape.

The object of the present invention with respect to the above problems is basically to provide a photovoltaic power generation apparatus installed in a waterfront. More specifically, it does not require a separate supporting structure and thus can greatly reduce the installation cost. Further, it can provide a floating type solar photovoltaic device that can harmonize with surrounding natural scenery and can increase power generation efficiency .

The above object is achieved by a flat panel display device comprising: a plate-shaped casing for providing a closed inner space by being fixedly held in parallel by a frame by a transparent upper plate and a support plate; A solar battery installed in the casing and generating power from solar light; And a space holding member for fixing the solar panel to the inside of the casing; Wherein the photovoltaic power generation module has a specific gravity to float in water.

According to a feature of the present invention, at least the transparent top plate may be made of transparent acrylic material.

According to another feature of the present invention, at least the transparent top plate and the frame may be made of transparent acrylic material.

According to another feature of the present invention, the cushioning member can be fixedly installed at the edge of the casing so as to buffer the shock.

According to another aspect of the present invention, a plurality of the photovoltaic modules may be electrically connected by a flexible connection tube; The connecting tube may be inserted through the connecting holes formed at both ends in the lateral direction of each frame of the photovoltaic module to be connected.

According to the present invention, there is provided a photovoltaic power generation apparatus capable of performing power generation in a floating state on a water surface such as a river or a lake by buoyancy. According to the present invention, since a support for installing the solar module is not required, the installation cost can be reduced. In addition, since the solar cell is directly in contact with water having a low temperature, there is provided a solar cell power generation device capable of improving power generation efficiency without a decrease in output due to a rise in the temperature of the solar cell. In addition, since the solar power module is closely attached to the surface of the water, a photovoltaic power generation facility capable of harmonizing with the natural landscape will be provided.

FIG. 1 is a perspective view of a solar cell module according to an embodiment of the present invention, and FIG. 2 is a sectional view thereof.
3 is a schematic cross-sectional view taken along line AA of FIG. 1 according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a connection structure of a solar cell module according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings attached hereto. First, a solar cell module according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3 and will be described with reference to FIG.

The photovoltaic module 1 according to the present invention is installed on the surface of a river, lake or sea, and basically has a weight that can float on the water. As shown in FIG. 4, a plurality of photovoltaic modules 1 having the same structure are connected to complete the photovoltaic power generation apparatus of the present invention, so that the photovoltaic power generation module 1 can be regarded as the essential element of the present invention.

The solar cell module 1 comprises a transparent upper plate 11, a solar cell plate 12, and a support plate 13 sequentially stacked from top to bottom. The frame 20 is installed on the edge so as to keep the transparent upper plate 11 and the support plate 13 fixed at a predetermined interval and a solar panel 12 is installed therebetween. The transparent upper plate 11, the support plate 13 and the frame 20 provide the rectangular casing 10 and the solar panel 12 is installed inside the casing 10 by the gap retaining member 17 will be.

The space holding member 17 is provided with an air layer 16 on the upper and lower portions of the solar panel 12. This air layer 16 performs an important function for adjusting the specific gravity of the solar cell module 1. [ The thickness of the air layer 16 and the specific gravity of the solar cell module 1 will be in inverse proportion.

The space holding members 17 are formed on the inner side of the frame so as to be spaced apart from each other. The solar panel 12 can be fixedly disposed between the upper and lower space holding members 17.

According to the embodiment of the present invention, at least the transparent top plate 11 may be made of transparent acrylic material. Acrylic is good in light transmittance, so it is effective in increasing the amount of light received and is also advantageous in reducing specific gravity. Furthermore, the support plate 13, the frame 20 and the gap retaining member 17 may all be made of transparent acrylic resin. The transparent upper plate 11, the support plate 13, and the frame 20 can be waterproofed by being bonded together with an adhesive.

The cushioning member 21 may be fixedly installed at the edge of the casing 10 so as to buffer the impact. The cushioning member 21 may be installed at four corners as shown in the figure, and a cushioning material such as rubber is preferable, and more preferably, it is transparent.

The specific specification of each component of the solar power generation module 1 should be determined so as to be able to maintain a specific gravity enough to obtain a satisfactory amount of received light while floating on the surface of the water.

There will not be many cases where only one photovoltaic module 1 is used singly, and there are many possibilities that several photovoltaic modules 1 are electrically and physically connected as shown in Fig. In order to do so, a structure for connecting the photovoltaic modules 1 with each other should be provided. 3 is an illustration of a connection structure of the solar power generation module 1. [

At least one connection hole 22 is laterally formed in the frame 20 by a bore and a connection tube 40 made of a strong material is inserted through the connection hole 22. The connection tube 40 is preferably flexible. One end of the connection tube 40 is connected to one photovoltaic module 1 and the other end is connected to the other photovoltaic module 1. Of course, the connection portion of the connection tube 40 with the frame 20 must maintain a complete waterproof structure in various ways. In some cases, the connection tube 40 may further include a waterproof connector so that the electrical connection can be released as needed. Such a detachable connection structure may be required to replace a particular solar module 1.

An electric wire (E) can be passed through the connection tube (40) for electrical connection. Of course, this electric wire E should be connected to each solar panel 12. The structure for physically connecting the photovoltaic power generation module 1 may be constructed as described above. In this case, however, there will be no wire (E).

Hereinafter, with reference to FIG. 4, a state in which a solar power generation apparatus completed by connecting several solar power generation modules 1 is installed on a water surface W such as a river, a lake, and the sea will be described. The photovoltaic module 1 may be connected in various forms. It is obvious that the electric power production amount will be determined according to the number of the solar power generation modules 1. Fixing means or anchor means are required to prevent the solar cell module 1 from being floated according to the flow of water A. The fixing means may be a linear member 50 such as a chain, one end of which is connected to the solar module 1 and the other end is connected to the fixing point 60.

The fixing point 60 may be a column fixedly installed on the land, or an anchor installed on the bottom of a river bed or a lake. Reference numeral 40 denotes a connection tube as an electrical connection, and 40 'denotes a connection tube as a physical connection. Since each of the connection tubes 40 and 40 'is flexible, each of the photovoltaic modules 1 connected to each other will flow naturally along with the waves, will be. In addition, the buffer member 21 provided at the edge of each solar cell module 1 is installed to prevent damage even if it collides with each other.

The solar power generation device of the present invention is installed on a water surface (W) such as a river, a lake, and the sea, so that the temperature of the solar panel can be maintained similar to the water temperature even in the summer when the sunlight is intense. Therefore, it is possible to reduce the problem that the power generation efficiency is lowered due to the temperature rise of the solar panel.

The above explanation is only an example based on the technical idea of the present invention. Based on these basic ideas, various components can be added and changed. That is, those skilled in the art will recognize that various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims. And all of the above mentioned items can be implemented in various combinations according to the needs of the users, all of which belong to the scope of the present invention.

1: PV module 10: casing
11: transparent top plate 12: solar panel
13: support plate 16: air layer
17: spacing member 20: frame
21: buffer member 22: connecting hole
40: connecting tube 50: linear member
60: fixed point W: sleeping

Claims (6)

A plate-like casing 10 for providing a sealed inner space by being fixed in parallel to the transparent upper plate 11 and the support plate 13 by a frame 20;
A solar panel 12 installed in the casing 10; And
And a space holding member (17) for fixing the solar panel (12) inside the casing (10);
The photovoltaic power generation module 1 has a specific gravity that can float on the water surface W,
And an air layer (16) is provided on upper and lower portions of the solar panel (12) by the gap holding member (17).
The method according to claim 1,
Wherein at least the transparent top plate (11) is made of transparent acrylic material.
The method according to claim 1,
Wherein the transparent upper plate (11), the support plate (13), and the frame (20) are made of transparent acrylic material.
The method according to claim 1,
Wherein a cushioning member (21) is fixedly installed on an edge of the casing (10) so as to buffer a shock.
delete The method according to claim 1,
A plurality of the solar power generating modules 1 may be electrically connected to each other by flexible connection tubes 40. The connection tubes 40 are connected to the solar power generating modules 1 Is inserted through the connection hole (22) formed in the frame (20) in the lateral direction.

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