KR20120134450A - Safety apparatus for water surface floating type solar photovoltaic power generator - Google Patents

Abstract

PURPOSE: A safety device of a water floating photovoltaic device is provided to prevent damage to power generation facilities in bad weather by installing a wire fixing member on a floating member. CONSTITUTION: A floating member(110) is installed to float in the water. Multiple solar cell modules(120) are formed on the floating member. A fixing axis(130) passes through the floating member. A moving part(140) rotates the floating member along orbit of the sun.

Description

SAFETY APPARATUS FOR WATER SURFACE FLOATING TYPE SOLAR PHOTOVOLTAIC POWER GENERATOR}

The present invention relates to a safety device of the surface floating solar power generation device that can more stably operate the photovoltaic device operating in a poor water environment.

In general, a photovoltaic device generates electricity by using a solar cell that generates photovoltaic power by a photoelectric effect when light is irradiated.

1 is a perspective view showing a surface-floating solar power generator according to a conventional example, the conventional photovoltaic device 10 is a floating member 11 floating on the surface, the upper surface of the floating member 11 It includes a plurality of solar cell modules 12 disposed, a power conversion device (not shown) and a storage battery (not shown) connected to the solar cell module 12 and the like.

Here, the floating member 11 is rotatably operated on the water surface according to the trajectory of the sun by a separate rotation means to increase the power generation efficiency by appropriately adjusting the angle of incidence of solar light to the solar cell module 12.

The solar cell module 12 is modularized by connecting a plurality of solar cells, and the semiconductor material embedded in the solar cell receives solar light to generate electricity.

On the other hand, rivers, lakes and the sea has a natural condition that there are almost no obstacles affecting the irradiation of sunlight, when installing the above-described photovoltaic device 10, it is possible to maximize the power generation efficiency.

However, water is always flowing in a certain direction (upstream to downstream) in the river, and the lake has a high wind speed due to the topographical influence, causing waves to surface, and in the sea, more waves than the river and lake due to wind, algae, etc. Large water flow and waves are generated to operate the photovoltaic device 10 is poor water environment.

Accordingly, although not shown in the drawings, the conventional photovoltaic device 10 is fixed to the center 10a of the floating member 11 to induce vertical movement while minimizing the shaking or impact of the floating member 11 according to the water environment. There has been devised a structure for interpolating the shaft (not shown) to stand upright, and firmly supporting the fixed shaft through a separate support means.

Accordingly, the floating member 11 is able to rotate in a fixed orbit along the sunlight around the fixed axis, when the rotation means is damaged by a big wave or wind, the rotation restrained state is released and the solar cell module 12 There is a problem that it is impossible to control the angle of incidence and stable operation of photovoltaic power generation.

The present invention has been made to solve the above problems, and an object thereof is to provide a safety device of a floating surface type solar cell apparatus capable of temporarily supporting a floating member in case of breakage of a rotating means for rotating the floating member.

Safety device of the surface-leverged photovoltaic device according to an aspect of the present invention to achieve the above object, the floating member is installed to float on the surface; A plurality of solar cell modules configured to convert solar light energy incident on the upper surface of the floating member into electrical energy; An annular fixed shaft fixed through the floating member; A movable part for rotating the floating member according to the trajectory of the sun with respect to the fixed axis; And a rotation preventing wire having a center wound on one of the upper and lower ends of the fixed shaft, and both ends of which are fastened to both sides of the floating member.

The floating member is characterized in that a through hole through which the fixed shaft passes.

A bearing is further provided between the through hole of the floating member and the circumferential surface of the fixed shaft.

The movable member may include a drive motor installed on the ground, a roller installed on a rotation shaft of the drive motor, a fixing bar fixedly installed at an edge of the floating member, and one end of which may be wound on the roller, and the other end of which is fixed. At least one pair is installed so as to correspond to each other (crossing and unwinding) including a pull string fixed on the bar.

The anti-rotation wire is characterized in that both ends are loosely installed in a range that does not interfere with the rotation of the floating member.

The floating member, characterized in that the wire fixing member for fixing the winding position of the rotation preventing wire is installed.

As described above, according to the safety device of the floating surface type solar power generation device according to the present invention, it is possible to temporarily prevent the damage of the photovoltaic power generation facilities by temporarily supporting a floating member that is in an uncontrollable state due to broken pull lines in bad weather. Of course, after repairing the movable member it is possible to ensure a stable operation of the photovoltaic power generation.

1 is a perspective view showing a floating surface type solar cell apparatus according to the prior art,
Figure 2 is a perspective view showing a surface floating solar power device according to an embodiment of the present invention,
Fig. 3 is a plan view of Fig. 2,
4 is a sectional view taken along the line IV-IV in Fig. 2,
5 is a partial view 'A' of FIG.
6 is an enlarged view of the wire fixing member of FIG. 5;
Figure 7 is a perspective view showing a surface floating type solar power device according to another embodiment of the present invention and
8 is a perspective view showing a surface-leverged photovoltaic device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the surface-floating photovoltaic device according to an embodiment of the present invention.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

2 is a perspective view showing a surface-leverable photovoltaic device according to an embodiment of the present invention, FIG. 3 is a plan view of FIG. 2, FIG. 4 is a sectional view taken along line IV-IV of FIG. 2, and FIG. A 'partial view and FIG. 6 is an enlarged view of the wire holding member of FIG.

As shown in Figures 2 to 4, the surface floating solar cell apparatus 100 according to an embodiment of the present invention is a floating member 110, a plurality of solar cell module 120, a fixed shaft 130 , The movable member 140 and the anti-rotation wire 150 is configured.

Here, the floating member 110 is illustrated as a circle in the drawing, but is not limited thereto and may have a polygonal structure such as an ellipse or a rectangle as necessary.

That is, the floating member 110 may have a variety of structures as long as it is a plate shape that can be floated on the water surface, and a through hole 110a through which the fixed shaft 130 penetrates is formed at the center of the plate surface. .

If necessary, a plurality of floating bodies 170 may be further provided below the floating member 110.

In addition, the floating member 110 is provided with a slot hole 110b in a predetermined section so that the water surface and the lower part of the solar cell module 120 correspond to the low temperature gas heated by the convection phenomenon. The solar cell module 120 may be cooled by being in contact with the lower portion of the solar cell module 120.

Meanwhile, the solar cell module 120 is fixed on the floating member 110 to convert light energy incident from the sun into electrical energy. The solar cell module 120 generates electricity by a semiconductor material receiving sunlight. It is modular structure by connecting several.

The solar cell module 120 has a plurality of support members 125 are installed at the lower portion of the solar cell module 120 so that the light of the sun can be vertically incident through the inclined structure formed at a predetermined angle, depending on the size of the floating member 110. The number of installations can be varied.

In addition, the fixed shaft 130 is an annular structure that is fixed through the through-hole 110a of the floating member 110, the lower end may be buried in the ground, or is not buried in the standing up through a separate support means The state may be maintained.

In addition, the floating surface type solar cell apparatus 100 of the present invention is capable of rotating the floating member 110 between the through hole 110a of the floating member 110 and the circumferential surface of the fixed shaft 140. It may further include a bearing 160 for supporting.

In addition, the movable member 140 has a structure for rotating the position of the floating member 110 by detecting the incident angle of sunlight according to the orbit of the solar cell module 120.

The movable member 140 is installed on the ground to provide power to the drive motor 141, the roller 142 provided on the rotating shaft 141a of the drive motor 141, and the edge of the floating member 110 The fixing bar 143 is fixedly installed on, and one end is connected to the roller 142 so as to be wound, and the other end comprises a pull line 144 fixed on the fixing bar 143.

Here, the movable member 140 is installed in a pair spaced apart from each other by a pair of control motors not shown in accordance with the orbit of the sun each drive motor 141 is rotationally controlled in opposite directions to each other.

The movable member 140 is not limited to the present embodiment, and any installation structure may be applied as long as the movable member 140 can rotate the floating member 110.

On the other hand, the anti-rotation wire 150 has a center wound around any one of the upper and lower ends of the fixed shaft 130 (lower end in this embodiment), both ends to the connecting member 111 of the floating member 110. Each is fastened.

The anti-rotation wire 150 is preferably both ends loosely installed in a range that does not interfere with the rotation of the floating member 110.

At this time, the center of the anti-rotation wire 150 is at least one wire fixing member 115 to the floating member 110, as shown in Figure 5 so as to fix the wound position with respect to the floating member 110. ) May additionally be fixedly installed.

As shown in FIG. 6, the wire fixing member 115 has a 'c' cross-sectional shape, and when both ends are fixed, a space is formed between the floating member 110 and the floating member 110.

Thus, the anti-rotation wire 150 is located through the space of the wire fixing member 115, it is possible to safely maintain a state in which the winding position of the center is fixed to a point of the floating member 110.

Hereinafter, a description will be given of the action of the surface-floating photovoltaic device 100 according to an embodiment of the present invention described above.

The movable member 140 rotates forward one set of driving motors 141 according to the detected angle of incidence and reversely rotates another set of driving motors 141 to face each other when the rollers 142 rotate. Each pair of pull lines 144 are wound and unwinded to cross each other to rotate the floating member 110 in one direction about the fixed shaft 130.

As the floating member 110 is rotated along the movement trajectory of the sun by appropriately controlling this, the solar cell module 120 and the sun are at an optimal angle so that light incident from the sun is applied to the surface of the solar cell module 120. Maximum delivery to the phase.

At this time, the pulling line 144 of the movable member 140 may be boiled when the water environment is deteriorated and a large wave or a high wind speed is blown.

In this case, the floating member 110 is released from the restrained state by the pull string 144, the angle of incidence of the solar cell module 12 and the stable operation of the photovoltaic power generation is not possible, as well as the damage of the main facility is concerned. .

In this case, the floating member 110 is uncontrolled to rotate in any one direction due to wind and waves, at which time the anti-rotation wire 150 is installed on both sides of the floating member 110 in a loose state. By restraining the rotation of the floating member 110 while being in a state, it is possible to temporarily support the floating member 110 in an emergency situation in which the pulling string 144 of the movable member 140 is boiled.

Therefore, in case of bad weather, the pulling line 144 may be broken to temporarily support the floating member 110 that is in an uncontrollable state, thereby preventing damage to the photovoltaic facility, as well as after repairing the movable member. Stable operation can be achieved.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and it should be understood by those of ordinary skill in the art to which the present invention relates, Of course, various modifications and variations can be made within the equivalent range.

For example, FIG. 7 is a perspective view illustrating the surface floating solar power generator 200 according to another embodiment of the present invention, which replaces the wire fixing member 115 of one embodiment on the circumference of the fixed shaft 130. After fixing the connecting ring 215 in a pair and connecting one end of the pair of anti-rotation wires 250 to the connecting ring 215, the other end of the anti-rotation wire 250 is connected to the floating member ( Fastening to cross each connecting member 111 of the 110 can be implemented in the same manner as in the present embodiment.

In this case, both ends of the anti-rotation wire 250 may be loosely installed in a range that does not prevent the rotation of the floating member 110.

As another example, Figure 8 is a perspective view showing a surface-leverged photovoltaic device 300 according to another embodiment of the present invention. In place of the wire fixing member 115 or the connecting ring 215 installed on the circumference of the fixed shaft 130, a pair of separate ground fixing members 315 are installed at the bottom of the water depth and each ground fixing member 315 is installed. After connecting one end of the pair of anti-rotation wires 350, the other end of the anti-rotation wire 350 is fastened to cross each connection member 111 of the floating member 110, the function of this embodiment You can also implement the same as

Also in this case, both ends of the anti-rotation wire 250 is installed in a range that does not interfere with the rotation of the floating member 110, in particular the fixed shaft 130 and a pair of ground fixing member 315 in a straight line It is preferably arranged on the phase.

Claims (8)

Floating member 110 is installed to float on the water surface;
A plurality of solar cell modules 120 for converting solar light energy incident on the upper surface of the floating member 110 into electrical energy;
A fixed shaft 130 penetrating the floating member 110;
A movable part 140 for rotating the floating member 110 in accordance with the trajectory of the sun with respect to the fixed shaft 130; And
A rotation preventing wire 150 having a center wound at one of upper and lower ends of the fixed shaft 130 and both ends being fastened to both sides of the floating member 110;
Floating surface type solar power generating device 100 comprising a. The method of claim 1,
The floating member 110, the surface floating type photovoltaic device 100, characterized in that the through-hole 110a through which the fixed shaft 130 passes. The method of claim 2,
The floating surface type solar cell apparatus 100, wherein a bearing 160 is provided between the through hole 110a of the floating member 110 and the circumferential surface of the fixed shaft 140. The method of claim 1,
The movable unit 140 is fixed to the drive motor 141 which is installed on the ground, the roller 142 installed on the rotation shaft 141a of the drive motor 141, and the edge of the floating member 110. The fixing bar 143 and one end is connected to the roller 142 so as to be wound, and the other end includes a pull line 144 fixed on the fixing bar 143 so as to correspond to each other (unwinding and winding cross). The surface floating solar cell apparatus 100, characterized in that installed in at least one pair. The method according to any one of claims 1 to 4,
The anti-rotation wire 150 is a surface floating solar cell apparatus 100, characterized in that both ends are loosely installed in a range that does not interfere with the rotation of the floating member (110). The method of claim 1,
The floating member 110, the surface floating solar cell apparatus 100, characterized in that the wire fixing member 115 for fixing the winding position of the anti-rotation wire 150 is installed. Floating member 110 is installed to float on the water surface;
A plurality of solar cell modules 120 for converting solar light energy incident on the upper surface of the floating member 110 into electrical energy;
A fixed shaft 130 penetrating the floating member 110;
A movable part 140 for rotating the floating member 110 in accordance with the trajectory of the sun with respect to the fixed shaft 130;
A pair of connecting rings 215 fixedly installed on the circumference of the fixed shaft 130; And
A pair of anti-rotation wires 250, one end of which is connected to each of the connection rings 215 and the other end of which is fastened to cross both sides of the floating member 110;
Floating surface type solar power generating device 300 comprising a. Floating member 110 is installed to float on the water surface;
A plurality of solar cell modules 120 for converting solar light energy incident on the upper surface of the floating member 110 into electrical energy;
A fixed shaft 130 penetrating the floating member 110;
A movable part 140 for rotating the floating member 110 in accordance with the trajectory of the sun with respect to the fixed shaft 130;
A pair of ground fixing members 315 installed in line with the fixed shaft 130 at the bottom of the water; And
A pair of anti-rotation wires 350, one end of which is connected to the ground fixing member 315 and the other end of which is fastened to intersect both sides of the floating member 110;
Floating surface type solar power generating device 300 comprising a.

Images