KR101847148B1 - Floating facility for solar-cell power generation - Google Patents

Abstract

The present invention is characterized in that it is provided with a mouthpiece 200 formed in a cylindrical shape and a receiving groove 120 in which the mouthpiece 200 is received is formed at a lower side thereof, a connecting protrusion 140 is formed at one side thereof, The brackets 100 and the connecting rods 300 are fixed to the bracket 100 while the brackets 200 are arranged in the lateral direction of the brackets 100, The connecting rod 300 is connected to the upper end of the bracket 100 by arranging the port 200 in the longitudinal direction while connecting the port 200 in the lateral direction by the connection of the connecting protrusion 140 and the connecting groove 160. [ To form a water surface structure () having a predetermined area by connecting the ports (200) in the longitudinal direction by installing the photovoltaic module (500) on the water structure Solar power generation structures.

Description

{Floating facility for solar-cell power generation}

The present invention relates to a solar photovoltaic power generation structure, and more particularly, to an environmentally friendly solar photovoltaic power generation structure in which a water structure is formed by connecting a unit formed of an environmentally friendly material and a solar photovoltaic module is installed thereon.

While pollution of the natural environment is intensifying, much research has been conducted on the development of an environmentally friendly power generation facility capable of obtaining electricity using environmentally friendly energy. In such a context, solar power generation facilities are becoming widespread. Such solar power generation facilities have a problem in that they produce less electricity than nuclear power or thermal power generation. In order to increase the production of electricity, There arises a problem that a considerable scale of land is required.

In order to solve the above-mentioned problem, attempts have been made to install a solar power generation facility on a recent water surface. The structure for installing the solar power generation module on the water structure providing the buoyancy is disclosed in Patent Application Publication No. 10-2008-0095401 (Oct. 29, 2009) "Photovoltaic power generation device".

On the other hand, the buoyancy-providing aquatic structure mainly consists of a structure in which the buoy is pierced by a separate fixing means. In this case, the means for mooring the bulb may be various structures depending on the type of bulb. In this case, a structure having structural stability and ease of fabrication is required while stably supporting the photovoltaic module. In addition, environmental concerns have been rising recently, and environmentally friendly structures that do not adversely affect the environment are needed.

According to the present invention, an eco-friendly solar photovoltaic power generation structure capable of producing electricity by solar photovoltaic power generation by providing an environmentally friendly water structure while providing structural stability and convenience of manufacture, It has its purpose in obtaining.

According to the present invention, an eco-friendly solar photovoltaic power generation structure is proposed in which a floating structure formed of an environmentally friendly material is connected to a bracket, a water structure having a predetermined area is assembled, and a solar photovoltaic module is installed thereon, Thereby achieving the above object.

According to the present invention, a water solar power generation structure having structural stability can be formed in a prefabricated manner, thereby making it possible to obtain an eco-friendly water solar power generation structure that is easy to manufacture and install and is structurally stable. In addition, since it is formed as a prefabricated structure, it is possible to obtain an eco-friendly solar photovoltaic power generation structure which can be easily replaced when some damage is caused and the convenience of maintenance can be improved.

1 is a perspective view of a bracket according to the present invention,
2 is a front view of the bracket according to the present invention,
FIG. 3 is an exemplary view showing a configuration in which a bracket according to the present invention is installed in a bore;
4 is an exemplary view showing a configuration in which a bracket is connected to a bracket in a lateral direction according to the present invention,
FIG. 5 is an exemplary view showing a configuration in which a connecting rod according to the present invention is installed on a bracket;
6 is an illustration of an example of a water structure according to the present invention,
7 is an exemplary view of a photovoltaic module according to the present invention,
8 is an illustration of an aquarium power generation structure according to the present invention,
Figure 9 is a front view of Figure 8;

In order to achieve the above-described object, the present invention provides an air conditioner comprising: a tubular member formed of an environmentally-friendly material; a receiving groove formed in the lower portion of the tubular member; And a connecting rod having a predetermined length. The brackets are laterally arranged in a state in which the brackets are fixed to the brackets. The brackets are laterally connected to the brackets by the connecting projections and the connecting grooves, And a connecting rod is provided at the upper end of the bracket so as to form a water surface structure having a certain area by connecting the ports in the longitudinal direction, and a solar power module is installed on the water surface structure, Water PV structures.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings, FIG. 1 to FIG.

The water photovoltaic generation structure according to the present invention is formed by installing a solar photovoltaic module (500) on a water structure (S).

The water structure S according to the present invention is characterized in that the water structure S has a tubular shape having a tubular shape 200, a bracket 100 for transversely connecting the tubular shape 200 and the bracket 100, And a connecting rod 300 connecting the connecting member 200 in the longitudinal direction.

The bucket 200 is formed as a means of providing buoyancy or a cylindrical shape in which the inside is empty or the inside of the cover is filled with a material such as styrofoam. The cover may be formed of an environmentally friendly material, and fastening protrusions 290 are formed at intermediate positions on both outer sides in the height direction. A plurality of fastening protrusions 290 may be formed at the same height along the longitudinal direction of the mouth 200. The plurality of brackets 100 may be provided in a single mouth 200, to be.

The bracket 100 may be made of a synthetic resin material for convenience of molding. Thereby forming a body having a predetermined thickness and a substantially rectangular shape. The bracket 100 may have a frame structure. As a result, the material can be reduced, and the impact can be absorbed while elastically responding to the external force.

In the bracket 100, a receiving groove 120 is formed in a lower portion of the body. The receiving groove 120 is formed in a shape that matches the shape of the outer periphery of the port 200, which is a space in which the port 200 is received. As shown in the figure, the cylindrical shape 200 is formed in a semicircular shape. When the shape 200 is formed in a quadrangular shape, the receiving groove 120 is formed in a rectangular shape. It is preferable that the depth of the receiving groove 120 is formed so that the buoy 200 can be accommodated by 1/2 or more with respect to the height direction.

The bracket 100 has a connecting protrusion 140 formed on one side of the body and a connecting groove 160 formed on the other side thereof. The connection protrusions 140 and the connection grooves 160 are formed in an 'a' shape so that the adjacent brackets 100 can be engaged with each other. The brackets 100 are connected to each other in the transverse direction by the coupling between the coupling protrusions 140 and the coupling grooves 160. [ The brackets 100 which are abutted to each other can be connected to each other when the bolts 200 are fixed in the receiving groove 120 and the bolts 200 are arranged in the transverse direction so that the bolts 200 can be continuously connected in the transverse direction You can connect them.

The upper surface of the bracket 100 is flat. So that the panel 400 can be placed on the upper surface. Of course, if the panel 400 is not flat, the upper surface of the bracket 100 may be curved. At least one seal groove 180 is formed on the upper surface of the bracket 100. The connecting rod 200 is fixed to the receiving groove 120 and the connecting rod 200 is arranged in the longitudinal direction and the connecting rod 300 is fixed along the rod groove 180 Thereby making it possible to longitudinally connect the ports 200.

And coupling grooves 190 may be formed at the lower ends of the brackets 100 at both sides. The fastening protrusion 290 is formed at a position where the fastening protrusion 290 is formed at the fitting recess 290 formed in the fitting hole 200 so that the fastening protrusion 290 is fastened to the fastening protrusion 290, (200) is fixed to the bracket (100). The engagement between the fastening protrusion 290 and the fastening groove 190 can be achieved by means such as a pin or a bolt, but is not limited thereto.

The connecting rod 300 is a pipe having a constant length. A circular section or a square, and the material may be formed of a metal to secure sufficient rigidity, but it is also possible to use a synthetic resin.

The solar power generation module 500 installed in the water structure S according to the present invention includes the support platform 520 and the solar cell plate 540 as shown in FIG. Although not shown, the solar panel 540 may further include means for controlling the electric power generated by the solar panel 540 to transmit and store the generated electricity, and known configurations for solar power generation.

The supports 520 are formed by weaving the metal frames in a triangular shape and arranging them in a horizontal direction at regular intervals. As a result, the solar panel 540 is mounted on the surface thereof. The angle of the inclined surface is calculated and formed at an angle that can effectively receive the sunlight.

Hereinafter, a process of assembling the aquarium solar power generation structure according to the present invention described above will be described.

First, the pier structure S is formed. For this purpose, a bucket (200) formed of an environmentally friendly material is fixed to the bracket (100). 3, the bracket 100 is moved to place the bracket 100 on a flat surface so that the bracket 200 is received in the receiving groove 120 on the bracket 200 and then the bracket 100 is fastened And fastened to the groove 190.

When the engagement between the bracket 200 and the bracket 100 is completed, the bracket 200 is arranged in the lateral direction as shown in FIG. In this state, the unit protrusions 140 are connected to each other by inserting the connecting protrusions 140 between adjacent brackets 100 and connecting the unit protrusions 140 to each other. In the figure, three subsidiary ports 200 are connected in the lateral direction.

The plurality of unit pieces formed as described above are formed. The unit bodies thus formed are arranged in a row in the longitudinal direction with respect to the base 200. As shown in FIG. 5, the connecting rod 300 is installed at the upper end of the bracket 100 to connect the fitting 200 in the longitudinal direction. The connecting rod 300 is connected to the connecting rod 300 formed at the upper end of the bracket 100, (180). Through the above process, the floating structure 200 is connected in the transverse direction and the longitudinal direction, and the water structure S is formed with a desired area as shown in FIG. At this time, the upper surface of the water structure S may be formed flat by providing the panel 500 on the upper surface of the water structure S as described above.

When the fabrication of the water structure S is completed, the solar module 500 is firmly installed on the water structure S. The solar cell modules 540 are arranged side by side along the support rods 520 in a state where the support rods 520 are arranged at regular intervals on the water structure S and the installation of the solar module 500 is completed.

The eco-friendly solar photovoltaic power generation structure according to the present invention, which is formed as described above, is preferably installed on calm water with relatively low flow. If there is a lake or a reservoir, fix it by using an anchor, move it as needed, and develop it.

100: bracket, 120: receiving groove,
140: connecting projection, 160: connecting groove,
180: a rod groove, 190: a fastening groove,
200: bulge, 290: fastening projection,
300: connecting rod, 400: panel,
500: solar module, 520: support,
540: Solar panel.

Claims (4)

(200) formed in a tubular shape and having a plurality of fastening protrusions (290) formed at intermediate positions on both outer sides thereof;
A coupling groove 160 is formed at one side of the receiving groove 120 and a coupling groove 160 is formed at the other side of the coupling groove 140. In addition, A bracket 100 on which at least one bar groove 180 is formed;
And a connecting rod 300 having a predetermined length,
The engaging projections 290 are inserted into the engaging grooves 190 while the engaging grooves 200 are received in the receiving grooves 120 so that one engager 200 is fixed to the plurality of brackets 100,
The mouths 200 fixed to the bracket 100 are arranged transversely so that the adjacent brackets 100 are connected to each other in the transverse direction by the coupling between the connecting protrusions 140 and the connecting groove 160, ,
A connecting rod 300 is provided along the rod groove 180 by arranging a port 200 fixed to the bracket 100 in a longitudinal direction to form a pier structure S having a constant area,
The solar water power generation structure (500) is installed on the water structure (S) so that the solar water power generation module (500) The method according to claim 1,
The bracket (100) has a frame structure and is elastically deformed by an external force to absorb the impact.

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