KR20180018046A - Floating type sunlight structure on water surface - Google Patents

Abstract

Disclosed is a floating on-water photovoltaic structure capable of becoming lightweight by improving a support structure which supports a solar cell module disposed on water. The floating on-water photovoltaic structure of the present invention comprises: a frame body part where a first triangular stand and a second triangular stand having opened lower parts are disposed beside each other at a predetermined interval and a solar cell module is disposed on an inclined plane of the first and second triangular stands; a pair of body extension parts extended from the lower parts of the first and second triangular stands; body fixing parts connecting one side of the first triangular stand to that of the second triangular stand and connecting the other side of the first triangular stand to that of the second triangular stand in a cross direction of the body extension portions to be fixed in parallel to the lower part of the frame body portion; a floating body part inserted into the body fixing portion and having some thereof submerged under water; and fixing frame parts disposed in parallel on the intersection points of the lower parts of the first and second triangular stands and the body fixing parts, and fixing the body fixing parts after inserting the floating body part into the body fixing parts, thereby achieving building of a lightweight structure to reduce costs for construction and manufacturing.

Description

[0001] FLOATING TYPE SUNLIGHT STRUCTURE ON WATER SURFACE [0002]

The present invention relates to an aquamarine solar photovoltaic structure, and more particularly, to a floating solar photovoltaic structure capable of achieving weight reduction by improving a supporting structure for supporting a solar cell module disposed in an aquarium.

As fossil fuels such as petroleum and coal are depleted, alternative energy development is being actively pursued. In particular, development of energy resources utilizing solar energy has become more active.

Power generation technologies that utilize solar energy to produce electricity include solar power generation that uses solar heat to drive a heat engine to generate electricity, and solar power generation that generates electricity from solar cells using solar light.

Here, the solar cell used for solar power generation generally uses silicon and a composite material. Specifically, a solar cell uses a P-type semiconductor and an N-type semiconductor in combination, and utilizes a photoelectric effect to generate electricity by receiving sunlight.

Most of the solar cells are composed of large-area P-N junction diodes, and the electromotive force generated at the opposite ends of the P-N junction diode is connected to an external circuit. The smallest unit of such a solar cell is referred to as a cell. Actually, the solar cell is rarely used as a cell.

This is because the voltage from one cell is very small, about 0.5 V, compared to several tens or hundreds of volts (V) of voltage required for practical use. This is why a plurality of unit solar cells can be connected in series or parallel It was connected and used.

In addition, when the solar cell is used outdoors, it is subjected to various harsh environments. Therefore, in order to protect a large number of cells connected with a necessary unit capacity in a harsh environment, a solar cell module Respectively.

However, since the conventional solar cell module has to be used in a large amount in order to obtain a certain electric power, there are restrictions on the installation site, restriction on the deformation of the lower support structure depending on the arrangement structure of the solar cell module, There was no problem at the time of installation, but installation at the waterfront was not easy in terms of cost and technology, because many supporting structures were needed incidentally at the waterfront.

In spite of this unfortunate situation, a water photovoltaic structure for installing a large amount of photovoltaic module in a water pavilion was developed continuously. Among them, a buoyant body was installed to float a conventional solar photovoltaic structure from an aquarium, And the support structure for supporting the solar cell module is complicated and enlarged, thereby increasing the construction cost and manufacturing cost.

In addition, in the prior art, a mooring device is installed by connecting a mooring device for mooring a waterborne photovoltaic structure to a support structure between support structures. However, the installation of the mooring device in such a watercourse has a problem of obstructing the securing of the moving path to the float (ship) passing between the water photovoltaic structures and hindering the surrounding landscape.

1. Korea Registered Patent: No. 1377616, Registered Date: Mar. 18, 2014 Title of invention: Floating marine structure for photovoltaic power generation. 2. Korean Patent Publication No. 2012-0130810, Disclosure Date: December 04, 2012 Title of invention: Buoyant body preventing conduction of water-state power generation device.

The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a floating solar photovoltaic module having a triangular structure for supporting a solar cell module of an aquarium, The purpose of the structure is to provide.

It is another object of the present invention to provide a floating solar photovoltaic structure capable of reducing corrosion by forming a support structure for supporting a solar cell module on the top of a buoyant body.

It is another object of the present invention to provide a floating solar photovoltaic structure capable of installing a mooring structure for mooring a supporting structure for supporting a solar cell module in water using a lower portion of a supporting structure underwater .

The features of the present invention for achieving the objects of the present invention as described above and performing the characteristic functions of the present invention described below are as follows.

According to an aspect of the present invention, there is provided a solar cell module including a frame body portion for arranging a solar cell module on an inclined surface of the first and second triangular shapes by disposing a first triangular shape and a second triangular shape, ; A body extension extending in pairs below the first and second triangular shapes; A body fixing part which is formed in parallel to the lower side and the other side of the first and second triangular shapes in the cross direction of the body extension part and fixed to the lower part of the frame body part; A buoyant body part which is fitted to the body fixing part and is formed on the body fixing part in a state where only a part of the body is immersed in water; And a fixed frame portion formed side by side at a position where the lower portion of the first and second triangular shapes intersect with the body fixing portion to fix the body fixing portion after drawing the buoyant body portion into the body fixing portion, A photovoltaic structure is provided.

Here, the body fixing part and the fixing frame part according to one aspect of the present invention are formed on the upper part of the buoyant body part floating on the water, and the lower part of the body extending part is located in the water together with a part of the buoyant body part. Lt; / RTI >

In addition, the floating solar photovoltaic structure according to one aspect of the present invention may further include an elongated body fixing part formed by being fixed in pairs on one side and the other side of the body extension part.

The floating solar photovoltaic structure according to one aspect of the present invention further includes a mooring connection portion for fixing the mooring loop passing through the mooring claw portion to the water surface or the ground after inserting the mooring claw portion into the extension fixing portion in the cross direction And the like.

As described above, according to the present invention, because of the structure of the triangular support structure, for example, the frame body portion and the body extension portion, which are formed in pairs corresponding to one solar cell module and the space is opened and the lower portion is opened, It is possible to reduce the weight of the support structure for reducing the construction cost and the manufacturing cost of the support structure.

 Since the support structure, for example, the frame body portion, the body fixing portion and the fixing frame portion are provided on the upper part of the buoyant body existing in the water, the supporting structure can be firmly held in the water level, There is an effect that can be prevented.

In addition, the present invention can firmly fix the frame body portion and the body extension portion, which are made lightweight, due to the structure of the body fixing portion and the fixing frame portion provided on the frame body portion and the body extension portion described above, And the manufacturing cost can be reduced.

1 and 2 are perspective views exemplarily showing an aquamarine solar structure 100 according to an embodiment of the present invention.
3 is a side view showing a water solar photovoltaic structure 100 according to an embodiment of the present invention as viewed from the side.
4 is a view showing a supporting body structure 100A for supporting a solar cell module according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

1 and 2 are perspective views exemplarily showing a waterborne solar photovoltaic structure 100 according to an embodiment of the present invention, and Fig. 3 is a side view of a water solar photovoltaic structure 100 according to an embodiment of the present invention, Fig.

As shown in FIG. 1, the aquatic optical structure 100 according to an exemplary embodiment of the present invention includes a frame body 110, a body extension 120, a body fixing unit 130, A buoyant body portion 140, a fixed frame portion 150, an extension body fixing portion 160, and a mooring connection portion 170. [

First, the frame body portion 110 according to the present invention has a first triangular shape 111 and a second triangular shape 112 having an empty space 102 as the lower portion thereof is opened. The first triangular shape 111 and the second triangular shape 112 are arranged side by side at a predetermined interval to form a first triangular shape 111 and an inclined surface 113 provided on the second triangular shape 112 The solar cell module 101 may have a structure capable of disposing the solar cell module 101 on the solar cell module.

In this case, in the solar cell module 101 disposed on the inclined surfaces 113 of the first triangular shape 111 and the second triangular shape 112, a plurality of the solar cell modules 101 are arranged in a first triangular shape 111 And the inclined surface 113 of the second triangular shape 112 in a lattice structure.

Here, although one solar cell module 101 is provided on the pair of slopes 113, the arrangement structure and the number of the solar cell modules 101 can be variously changed according to the solar power generation capacity Of course it is.

Although not shown, the solar cell modules 101 may be coupled in a plurality of grid patterns, and may be spaced apart in the horizontal direction so as to maintain an interval between adjacent solar cell modules .

This is for the purpose of allowing wind and snow to move when an external force such as wind or snow is generated in the solar cell module 101. In addition to forming a gap in the horizontal direction, So that the height difference is generated.

Next, the body extension part 120 according to the present invention has a structure in which the first triangular shape 111 and the second triangular shape 112 are extended to the lower part and formed as a pair, 2 triangle shape 112, four frames are formed under the first triangle shape 111 and the second triangle shape 112. In other words,

Next, the body fixing part 130 according to the present invention is formed on the lower side and the other side of the first triangle shape 111 and the second triangle shape 112 in the cross direction of the body extension part 120 described above And may be fixed to a lower portion of the frame body 110.

The length of the body fixing unit 130, which is provided in parallel with the pair of the waterproofing members 130, is extended by the number of the first triangular shape and the second triangular shape described above among the neighboring waterborne solar photovoltaic structures neighboring the first triangular shape and the second triangular shape, The same can be fastened at the bottom of the shape.

Next, the buoyant body part 140 according to the present invention is formed on the body fixing part 130 in a state where the buoyant body part 140 is fitted into the body fixing part 130 described above and only a part thereof is immersed in water. The buoyant body portion 140 may have a substantially hexahedral shape such that it floats on a wave that is like a sea. However, the present invention is not limited thereto, and may have various shapes such as a cylindrical shape or a polyhedral shape.

Next, the fixed frame part 150 according to the present invention is formed side by side at the intersection of the lower portions of the first triangular shape 111 and the second triangular shape 112 and the body fixing parts 130, And serves to fix the fixing portion 130. Therefore, even if an assist force such as a sea breeze acts, the support structure supporting the solar cell module 101 can be prevented from being twisted.

The fixed frame part 150 has a first triangular shape 111 and a second triangular shape 112 at the intersection of the lower parts of the first triangular shape 111 and the second triangular shape 112 and the body fixing part 130. [ It is preferable to fix the body fixing part 130 in a state of being in close contact with the lower outer surface of the body fixing part 112. As a result, the distortion of the support structure can be prevented.

Since the body fixing part 130 and the fixing frame part 150 described above are positioned at the center of the buoyant body part 140 partially floating on the water, the part immersed in water can be minimized, so that corrosion can be prevented .

The upper portion of the body extension portion 120 is formed on the upper portion of the buoyant body portion 140 like the body fixing portion 130 and the fixed frame portion 160. However, the lower end of the body extension portion 120, together with a portion of the buoyant body portion 140, And the like. Thus, the support structure submerged in water is minimized.

Next, the extension fixing part 160 according to the present invention is formed by being fixed in pairs on one side and the other side of the lower side of the body extension part 120. That is, one end of the extension fixing part 160 provided in pairs is fixed to the body extension part 120 extending from the first triangular shape 111 and the other end is fixed to the body extension part 120 extending from the second triangular shape 112, (Not shown). Thus, the frame body 110 and the body extension 120 can be integrally formed.

The mooring connection part 170 according to the present invention includes a mooring loop 172 passing through the mooring claw part 171 after sandwiching the mooring claw part 171 near the center of the extension fixing part 160 described above, To the surface of water or the ground.

Thus, if the mooring connection portion 170 is fixed in the cross direction in the vicinity of the substantial center of the extension fixing portion 160, the flow of the support structure described above can be reduced. In addition, when the mooring connection portion 170 is provided, it is very helpful that the buoyant body portion 140 described above can be stably placed on the water level.

Although the frame body portion 110, the body extension portion 120, and the extension body fixing portion 160 described above have been described as being fixed to each other, they are preferably integrally formed. Such an integral support structure is shown in Fig.

4 is a view showing a supporting body structure 100A for supporting a solar cell module according to an embodiment of the present invention.

4, the support body structure 100A of the support structure according to the present invention is formed by integrally forming the frame body 110, the body extension part 120, and the extension body fixing part 160 as described above It is possible to mount the solar cell module 101 and the buoyant body part 140 at the same time so that the balance can be maintained even in the water phase and the manufacturing cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments or constructions. You can understand that you can do it. The embodiments described above are therefore to be considered in all respects as illustrative and not restrictive.

100: aquamarine structure 101; Solar cell module
110: frame body portion 111; The first triangular shape
112: second triangular shape 113: sloped surface
120: body extension part 130: body fixing part
140: buoyant body part 150: fixed frame part
160: Extension fixture 170: Mooring connection
171: Mooring ring 172: Mooring loop

Claims (5)

A frame body portion disposed with the first triangular shape and the second triangular shape opened at the lower side in parallel with each other at a predetermined interval to dispose the solar cell module on the inclined surfaces of the first and second triangular shapes;
A body extension extending in pairs below the first and second triangular shapes;
A body fixing part which is formed in parallel to the lower side and the other side of the first and second triangular shapes in the cross direction of the body extension part and fixed to the lower part of the frame body part;
A buoyant body part which is fitted to the body fixing part and is formed on the body fixing part in a state where only a part of the body is immersed in water; And
A fixing frame part formed at a position where the lower part of the first and second triangular shapes intersect with the body fixing part to fix the body fixing part after drawing the body part to the body fixing part;
Wherein the solar photovoltaic structure is a floating solar photovoltaic structure. The method according to claim 1,
The body fixing part and the fixed frame part may include:
Wherein the floating body is formed at an upper portion of the buoyant body part floating on the water. 3. The method of claim 2,
And a lower portion of the body extension portion is located underwater together with a portion of the buoyant body portion. The method according to claim 1,
An elongated body fixing part formed to be fixed to the other side and the other side of the body extension part in parallel;
Further comprising: a light source for generating a visible light; 5. The method of claim 4,
A mooring connection portion for fixing the mooring loop passing through the mooring claw portion to the water surface or the ground after inserting the mooring claw portion into the extension fixing portion in the cross direction;
Further comprising: a light source for generating a visible light;

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