KR101765057B1 - A maritime photovoltaic power generation equipment - Google Patents

Abstract

The present invention relates to an offshore solar power generation apparatus. The offshore solar power generation apparatus includes: a solar power generation module including solar cells to generate electricity with input solar light; a support frame mounting and fixing the solar power generation modules thereon; a floating means which is coupled to the support frame to float on the sea surface; a food support installed to support the feet of a worker on the support frame while moving; and an adjustment means which has a part coupled to the shaft of a fixing bracket arranged on the support frame in a rotatable manner while having a part connected to the support frame. The floating means of a floating structure includes: a fixing band having both ends coupled to a part of the support frame; and a floating body which has the band wound on the outer peripheral surface while being coupled and fixed thereto in order to float the support frame on the sea surface with a buoyancy force. The floating body includes: an upper floating body including the buoyancy force; and a lower floating body attached and fixed to the lower part of the upper floating body with having a density rate lower than that of the upper floating body.

Description

[0001] The present invention relates to a maritime photovoltaic power generation equipment,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar photovoltaic power generation apparatus capable of generating sunlight while floating on the sea, and more particularly to a solar photovoltaic power generation system including a solar power generation module and a floating structure The present invention relates to a marine photovoltaic power generation apparatus capable of generating power by receiving sunlight while floating in the sea, and stably floating at sea, thereby significantly reducing the flow caused by the waveness, thereby improving power generation efficiency.

Generally, photovoltaic power generation is a power generation method that uses the principle that electricity flows through the movement of electrons generated when light energy is injected into a solar cell made of a semiconductor.

Such solar power generation uses solar energy provided for an infinite amount of time, so it does not incur fuel costs and does not cause pollution such as air pollution or waste generation.

However, it is pointed out that such solar power generation is limited by the fact that the initial investment cost and the power generation unit cost are high, and a wide installation area is required.

Accordingly, in recent years, a method of installing a photovoltaic device in a river or a lake has been attracting attention in order to solve the installation area problem.

In Korean Patent Application No. 10-2012-0130396 (name: Floating solar power generation system / November 12, 2012), as is known in the art, float table floated by buoyant force; A drive table coupled to the float table and exposed to the aquarium; A solar cell structure fixedly installed on the drive table to produce power generation electric power; A sensing unit including a position-tracking sensing unit provided in the solar cell structure for transmitting a measurement value tracking the position of sunlight and a swing sensor unit for sensing a swing of the solar cell structure according to a wave; A driving unit for coupling the float table and the driving table and rotating the driving table horizontally or vertically; And a control unit for controlling the horizontal or vertical rotation of the driving unit.

In Korean Patent Application No. 10-2014-0074207 (name: Environmentally Friendly Water Pumped Power Generation System / 2014.06.18.), As known in the art, it is installed to float on the water phase and used in solar power generation; A coupling float having an upper surface inclined at an angle, a step-like step protrusion formed on an upper side and a lower side of the upper surface, a protrusion protruding from the upper end of the step-like step, and a vent hole penetrating through the center in a vertical direction; A connecting float connecting the connecting floats spaced apart from each other to prevent a shadow from being formed in the connecting float, a concave / convex portion formed on an upper surface thereof, and a buoyancy groove formed in the bottom; A gasket having a fitting groove in which the fitting protrusion of the fitting float is slidably inserted at a lower end thereof and an insertion groove formed at a side face thereof; A solar cell module having both ends thereof inserted into the insertion groove of the gasket; A sensor module for detecting a flow velocity, a water level and a weather environment, and a control unit receiving a signal from the sensor module.

On the other hand, as disclosed in Korean Patent Application No. 10-2014-0067403 (entitled " Solar Photovoltaic Structure / 2014.06.03. &Quot;), it is possible to securely fix a boat (ship) A solar photovoltaic device comprising: a solar cell module having a first triangular shape and a second triangular shape, the solar cell module having a first triangular shape and a second triangular shape, A body portion; 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; A fixing bracket fixing the auxiliary frame formed at the intersecting point of the body fixing portion and the buoyant body portion inwardly at the inner side of the body fixing portion; And an auxiliary buoyant body portion formed in the same direction as the body fixing portion and fixed to a lower portion of the auxiliary frame.

In addition, as disclosed in Korean Patent Application No. 10-2016-0005035 (name: offshore buoyancy structure for solar module installation / 2016.01.15.), It is constituted as a plate type, A plurality of buoy frame frames to which the solar modules of the present invention are fixedly installed; A connecting member connecting the sub-frame frames with each other; At least one buoyancy member fixedly installed at a lower end of the buoy frame; A water buoyant structure for mounting a solar module is disclosed.

1, Korean Patent Application No. 10-2012-0130396 (November 16, 2012) 2, Korean Patent Application No. 10-2014-0074207 (June 18, 2014). 3, Korean Patent Application No. 10-2014-0067403 (Apr. 4, Korean Patent Application No. 10-2016-0005035 (January 15, 2016).

However, the above-described marine photovoltaic power generation devices installed on the sea have problems in that excessive tension is applied to the rope fixing the buoyant body due to frequent changes in the water level occurring at the time of occurrence of the wind speed and the wale, There is a problem that the connection portion connecting the buoyancy structures to each other is damaged.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a photovoltaic power generating module and a floating structure on which the photovoltaic power generation module is mounted, The present invention is to provide a marine photovoltaic power generation apparatus which is capable of generating electricity by input, as well as stably floating at sea so as to significantly reduce the flow caused by the wail, thereby improving power generation efficiency.

According to another aspect of the present invention, there is provided a marine photovoltaic power generation system including a solar photovoltaic module having photovoltaic cells for generating electricity by receiving sunlight, A floating member coupled to the support frame to float on the surface of the support frame; a foot plate installed on the support frame so that the operator can stably move the support frame; And a control unit connected to the support frame, the control unit comprising: The floating means of the floating structure includes a fixing band to which both ends of the support frame are fastened on a part of the support frame, a floating member which is fixedly coupled to the outer circumferential surface while the fixing band is wound, ≪ / RTI > The subfluid includes an upper fluid having a buoyancy and a fluid. And a lower buoyant body adhesively fixed to a lower portion of the upper fluid and having a lower density than the upper fluid.

In the above subfluid, a penetration hole penetrating in the longitudinal direction is formed; The through-hole is received in the through-hole while the core is penetrated; The end of the supporting frame, to which the one end is fixed to the supporting frame, is fastened and fixed to both ends of the core pipe so as to be supported in the longitudinal direction of the float.

The solar photovoltaic device according to the present invention can obtain electric energy through a solar power generation module that receives sunlight while floating in the sea by a floating structure to generate electricity, Effect.

In addition, since the support is stably supported in the longitudinal direction by the support member to support the complex flow by the swell, the flow of the photovoltaic power generation module does not occur to a great extent, and the power generation efficiency is improved.

In addition, when the wind pressure resistance such as a typhoon occurs by controlling the height of the solar power module, it corresponds to the wind load to adjust the inclination and maximizes the power generation efficiency by adjusting the angle of solar collecting at normal times.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view showing a marine photovoltaic generator according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic plan view showing a marine photovoltaic device according to the present embodiment. Fig.
Fig. 3 is a schematic frontal view showing a marine photovoltaic device according to the present embodiment. Fig.
Fig. 4 is a schematic cross-sectional exemplary view showing a floating means constituting a solar photovoltaic device according to the present embodiment; Fig.
Fig. 5 is a schematic cross-sectional exemplary view showing another example of a fixing band applied to a floating means constituting a solar photovoltaic device according to the present embodiment; Fig.
Fig. 6 is a schematic cross-sectional exemplary view showing another example of the float applied to the floating means constituting the solar photovoltaic device according to the present embodiment; Fig.
Fig. 7 is a schematic cross-sectional exemplary view showing still another example of the float applied to the floating means constituting the solar photovoltaic device according to the present embodiment; Fig.
Fig. 8 and Fig. 9 are schematic cross-sectional exemplary views showing another example of the float applied to the floating means constituting the solar photovoltaic device according to the present embodiment. Fig.
Figs. 10 to 12 are schematic partial explanatory views showing an example of a solar photovoltaic module constituting a solar photovoltaic device according to the present embodiment, Fig.
Figs. 13 and 14 are partial schematic explanatory views showing other examples of the solar power generation module constituting the marine photovoltaic device according to the present embodiment, Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a solar photovoltaic apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of elements in the drawings can be exaggeratedly expressed to emphasize a clearer explanation. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the gist of the present invention are omitted.

1 to 3 are views showing a marine photovoltaic power generation apparatus according to an embodiment of the present invention. The marine photovoltaic power generation apparatus 1 according to the present embodiment receives sunlight and receives electricity A supporting frame 2 on which the solar power generating module 100 is seated and fixed, and a floating member 2 which is coupled to the supporting frame 2 and floats on the sea, And a floating structure (10) having means (3).

That is, the floating structure 10 can obtain electric energy through the solar power generation module 100 that floats in the sea while receiving sunlight and generates electricity, thereby realizing environmentally friendly power generation.

In the marine photovoltaic apparatus 1 according to the present embodiment, the floating means 3 of the floating structure 10 includes a fixing band (not shown) on both ends of the support frame 2 And a float 32 made of a PE material so as to float on the support frame 2 in buoyancy with buoyancy while being coupled with the fixing band 31 on the outer circumferential surface.

That is, the float 32 is fixed to the support frame 2 by the fixing band 31, so that the support frame 2 floats on the sea.

In this case, the fixing band 31 has a length and is formed in a 'band' shape made of a metal material; And both ends of the support frame 2 are bolted together.

The fixing band 31 includes a winding portion 311 for winding and fixing the outer circumferential surface of the float 32, a fastening portion 312 fastened on a part of the support frame 2, And a connection part (313) connecting between the coupling part (312) and the winding part (311); The connecting portion 313 may be connected to the coupling portion 312 and the winding portion 311 at an inclination angle.

It is most preferable that the support frame 2 is formed by assembling metal tubes having a rectangular cross-sectional shape.

In this case, the float 32 is preferably formed of a synthetic resin material having a cylindrical shape; And a fixing groove (321) is formed on the outer circumferential surface to receive the fixing band (31).

Accordingly, as the fixing band 31 firmly maintains its position on the outer circumferential surface of the float 32, a flow such as a slip does not occur.

On the other hand, on the outer circumferential surface of the float 32, there is formed a receiving groove 322 in which a part of the support frame 2 is inserted and received in the longitudinal direction.

That is, a part of the support frame 2 is engaged with the receiving groove 322, and the float 32 is more firmly fixed.

In the above-described marine photovoltaic apparatus 1 according to the present embodiment, the float 32 described above includes an upper fluid 323 having a buoyancy, And a lower buoyant body (324) adhesively fixed to a lower portion of the upper fluid (323) and having a lower density than the upper fluid (323).

That is, the density of the upper portion of the float 32 is higher than that of the lower portion of the float 32.

In the above-described marine photovoltaic device 1 according to this embodiment, the float 32 described above is provided with a through-hole 33 penetrating in the longitudinal direction thereof; In the through hole 33, the core tube 34 is received while being penetrated; It is preferable that the ends of the supporter 35 having one end fixed to the support frame 2 are fastened and fixed to both ends of the core pipe 34 to be supported in the longitudinal direction of the float 32.

That is, since the float 32 is stably supported in the longitudinal direction by the support member 35, stable support is provided with respect to a complex flow pressure due to the waving of the sea so that the flow of the PV module 100 The generation efficiency does not increase greatly.

The ends of the support rods 35 are fastened to the both ends of the core pipe 34 and the other ends of the support rods 35 are fastened to both ends of the core pipe 34, It is most preferable that the holding and holding body 36 to be fitted to the inner side surfaces of both ends of the holding member 34 is fastened.

Meanwhile, it is preferable that a press plate 37 having a 'plate' shape is provided at both ends of the float 32 so as to be pressed and supported from both sides.

In the above-described marine photovoltaic apparatus 1 according to the present embodiment, it is preferable that the support frame 2 is provided with a footrest 21 capable of moving while the operator stably moves.

Meanwhile, it is preferable that the solar power generation module 100 is rotatably fixed to the support frame 2 so that the installation angle thereof can be adjusted if necessary.

Accordingly, the PV module 100 is rotatably shaft-coupled to a part of the fixing bracket 22 provided on the support frame 2, and on the part thereof, Means (4) are combined.

That is, the height of the support frame 2 with respect to a part of the solar power generation module 100 is adjusted by the adjustment means 4 while adjusting the height of the support frame 2, The installation angle of the solar cell module 100 is adjusted.

Therefore, according to the position of the sun, the angle of inclination of the sunlight input surface of the solar power generation module 100 is adjusted to allow sunlight to be input more efficiently, thereby maximizing power generation efficiency.

Accordingly, when the wind pressure resistance such as a typhoon occurs by adjusting the height of the solar power generation module 100, the wind load is adjusted to adjust the inclination, and the solar power collection angle is normally adjusted to maximize the power generation efficiency.

The adjustment means 4 is rotatably shaft-connected on a part of the solar power generation module 100 at one end and is bolted to the fixing piece 23 provided at the support frame 2 at the other end, And an adjusting link 41 having a plurality of fastening holes 411 spaced therefrom.

Accordingly, the tilting angle of the solar cell module 100 is adjusted by bolting the coupling holes 411 selected from the coupling holes 411 to the fixing pieces 23.

In the above-described marine photovolakic device 1 according to the present embodiment, the above-mentioned adjustment means 4 is provided with a first (first) end, which is rotatably and axially coupled to a part of the solar cell module 100, A second adjusting piece 43 rotatably and axially coupled to a fixing piece 23 provided at one end of the supporting frame 2 and a second adjusting piece 43 which is rotatably and axially coupled to the first fixing piece 42, And a control cylinder (44) having one end pivotably coupled to the fixing bracket (22) of the support frame (2) with the ends of the two adjustment pieces (43) have.

That is, when the adjusting cylinder 44 is driven, the first adjusting piece 42 and the second adjusting piece 43 are folded so that the supporting frame 2 And the angle of installation of the solar cell module 100 is adjusted.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

One ; Solar power generation apparatus 10: Floating structure
100: photovoltaic module 2: support frame
21: foot plate 22: fixed bracket
23: Fixture 3: Floating means
31: Fixing band 311: Winding part
312: fastening part 313:
32: float 321: fixed groove
322: receiving groove 323: upper fluid
324: Lower part fluid 33: Through hole
34: stem 35: support
36: Retaining tab 37:
4: regulating means 41: regulating link
411: fastening hole 42: first adjustment piece
43: second adjusting piece 44: adjusting cylinder

Claims (2)

A photovoltaic generation module (100) having solar cells receiving solar light and generating electricity; A support frame 2 on which the solar cell module 100 is seated; A fixing band 31 coupled to the support frame 2 and floated on a part of the support frame 2 so as to float on the surface of the support frame 2; An upper fluid 323 having buoyancy to float the support frame 2 in the sea and a lower buoyant fluid 323 adhered and fixed to the lower portion of the upper fluid 323 and having a higher density than the upper fluid 323, And a through hole 33 which is penetrated in the longitudinal direction and is received at both ends of the supporting frame 35 with one end thereof fixed to the supporting frame 35 while the other end of the supporting frame 35 is fastened and fixed, A floating means (3) having a formed float (32); And a footrest (21) installed on the support frame (2) so that the operator can stably move while being able to move. The present invention relates to a marine photovoltaic device (1)
The fixing band (31)
A winding part 311 which is formed in the shape of a band made of a metal material and has a length and which surrounds and winds up the outer circumferential surface of the float 32 and a fastening part 312 and a connecting portion 313 for connecting between the coupling portion 312 and the winding portion 311;
The connection portion 313,
The coupling portion 312 and the winding portion 311 are connected to each other at an inclination angle;
On the outer peripheral surface of the float 32,
A fixing groove (321) is formed to receive and receive the fixing band (31);
At both ends of the core tube 34,
And the other end of the supporting member 35 is fastened to the supporting member 35 at the opposite ends of the core pipe 34;
At both ends of the float 32,
A pressing plate 37 having a "plate" shape is provided;
Further comprising adjusting means (4) rotatably and axially coupled to a part of the fixing bracket (22) provided on the supporting frame (2) and connected to the supporting frame (2) on a part thereof;
The adjusting means (4)
And a plurality of bolts are fastened to the fixing pieces 23 provided on the support frame 2 at a second end thereof, And an adjusting link (41) having holes (411). delete

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