KR20140135312A - Floating type solar power generation system and a rotating unit - Google Patents

Abstract

The present invention relates to a generating device using a solar cell which is installed on the water like a lake, a reservoir, etc. and, more specifically, to a floating photovoltaic system having a rotation means to improve generation efficiency by rotating a solar cell array according to an azimuth and an altitude of the sun. The floating photovoltaic system is characterized in that: an external frame of a ″��Prime; shape is bent toward the outside of a bottom plate to have a circle shape while floating, on the water, the bottom plate having a solar cell array installed in the upper surface thereof using a floating container; a semi-circular support frame is included to cover a half the outside of the bottom plate; a rotation means to rotate the bottom plate is installed on the support frame; the support frame is coupled to be linked each other; and the support frame is fixed on the ground and is allowed to be vertically used according to the water level.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a floating solar power generation system and a rotating unit,

The present invention relates to a power generation apparatus using a solar cell in which a solar cell is installed in a watercourse such as a lake or a reservoir and is provided with a floating means having a rotating means for rotating the solar cell array along the azimuth angle and altitude angle of the sun, Type solar photovoltaic power generation system.

Power generators that generate electricity by using solar cells are well known. After installing a solar cell array in which several solar cells are fixed on the land, the angle of the solar cell array is adjusted according to the azimuth angle of the sun, And the like.

However, when the solar cell array is installed on the ground, it is difficult to construct a large quantity due to a lot of land purchase cost and installation cost, so that it is installed in a lake, a reservoir, And a solar cell array that combines solar cells is rotated according to the azimuth angle of the sun.

In this way, the solar power generation apparatus installed on the water surface must rotate the solar cell array according to the azimuth angle of the sun and rotate the solar cell array according to the altitude angle of the sun to obtain the best generation efficiency regardless of the season and time. As a matter of fact, it is not easy to rotate the solar cell array floating on the water surface according to the azimuth angle and the altitude angle, and it is difficult to rotate the solar cell array according to the azimuth angle.

Conventionally, a solar cell generator installed on a water surface has a bottom plate of a predetermined area floated on a surface of a water surface, and then a solar cell array is installed on an upper surface of the bottom plate to rotate the solar cell array in the east- The solar cell array is rotated in accordance with the seasonal elevation angle.

In this way, when the solar cell array is rotated according to the azimuth angle and elevation angle in the floor plate fixed by floating on the water surface, the bottom plate floating on the water surface is fixed, and when the solar cell array is rotated The load due to the elevation angle was required. In particular, the rotation according to the elevation angle was installed floating on the water surface, but it was the same as the case where it was installed on the land,

Korean Patent Publication No. 10-2010-0130515 (published Dec. 13, 2010) Korea Utility Model Registration 20-0442808 (Registered on September 30, 2008) Korea patent registration 10-0831382 (registered on May 15, 2008) Korea Patent Registration 10-0975212 (Registered on August 4, 2010) Korea Patent Registration No. 10-1032365 (Registered on April 25, 2011)

The present invention relates to a method of rotating a solar cell array according to an azimuth angle and an elevation angle of a sun by installing a power generation device using solar cells on a water surface, This is to solve the problem that a lot of load is generated when the solar cell array is rotated. In this case, the bottom plate on which the solar cell array is installed is floated on the surface of the water.

In the present invention, a bottom plate provided on a top surface of a solar cell array is floated on a water surface using a float, and a U-shaped outer frame is bent outwardly of the bottom plate to form a circular shape. The supporting frame is provided with a pivoting means for rotating the bottom plate. The supporting frame is linked with the supporting frame. The supporting frame is fixed to the ground and moved up and down according to the water level And the bottom plate on which the solar cell array is mounted is floated on the water surface by using the rotating means in the fixed support frame.

In the present invention, the solar cell array installed on the bottom plate allows the solar cell array to rotate in accordance with the azimuth angle of the sun by a conventional method, while the rotation corresponding to the sun's altitude angle drives the rotating means while the bottom plate is floated on the water surface, So that the solar cell array is rotated to find the solar cell altitude angle by rotating the bottom plate without rotating the solar cell array on the top surface of the bottom plate.

In the present invention, a bottom plate floating on a water surface using a float is fixed to a circular outer frame, while the outer frame is coupled to a support frame, the bottom plate is rotated by driving the rotation unit, The frames are fixed to the ground in a linked state with each other, but the height changes according to the water level.

The present invention relates to a sub-aquarium power generation apparatus using a solar cell, and it is possible to install the solar cell array on the water surface without having to secure a site for installing the solar cell array, thereby reducing land acquisition cost and installation cost. So that the solar cell array can be rotated along the elevation angle by rotating the plate, so that the bottom plate can be rotated with a small force.

In particular, the present invention can be mounted on a large scale by connecting the support frames for rotating the bottom plate to each other by a link, and the solar cell array installed on the bottom plate is rotated in the azimuthal angle by a conventional method, The solar cell array is rotated along the elevation angle by rotating the bottom plate itself by using a small load in a state where the solar cell array is rotated.

According to the present invention, the solar cell array is rotated without lifting the solar cell array along the elevation angle and azimuth angle, while the bottom plate on which the solar cell array is installed is floated on the water surface, so that the solar cell array can be rotated with a small load.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a perspective view of an embodiment of the present invention.
3 is a plan view showing the inside of the bottom plate of the present invention.
4 is a cross-sectional view of a part of the bottom plate of the present invention
5 is a sectional view showing a state in which the outer frame covering the bottom plate of the present invention is supported by the support roller and the support roller;
FIG. 6 is a diagram illustrating a fixed state explanatory diagram
Fig. 7 is a plan view of the supporting frame,
Fig. 8 is a perspective view of the supporting frame and the rotating means of the present invention,
9 is a perspective view of the bottom surface of the turning means of the present invention.
10 is a front view of the rotating means of the present invention

The present invention has a bottom plate capable of mounting a plurality of solar cell arrays each having a plurality of solar cells combined therein, wherein the bottom plate has a built-in buoy to allow the bottom plate to float on the water surface, And a solar cell array provided on an upper part of the bottom plate is installed in a tilted state, and the solar cell array is arranged in an inclined state, So that it can be rotated along the azimuth angle.

And a supporting frame for coupling the outer frame to the outside by about half, wherein the supporting frame is provided with a rotating means for rotating the bottom plate and a supporting roller for supporting the rotation of the bottom plate is provided, The outer frame is supported while the inner side of the outer frame is supported by the support roller, and the support frame is provided with a rotating means to provide rotational power to the outer frame.

The rotation means is configured to rotate the rotation wheel having the rotation protrusion formed on the outer side by using the rotation power of the motor and to rotate the outer frame while the rotation protrusion of the rotation wheel is inserted into the rotation groove of the outer frame, The support frame provided with the rotating means is fixed to the floor and is moved up and down along the water level.

The rotating means of the present invention is such that the rotating wheel is brought into close contact with the outer frame so that the rotating protrusion is inserted into the rotating groove to transmit the rotating force while the outer frame is supported by the receiving roller at the lower side of the rotating wheel, By supporting the rollers and the support rollers, the rotational force of the rotary wheel can be accurately transmitted to the outer frame while allowing the normal rotation to be performed.

The support frames are connected with each other by a link so that two or four bottom plates can be symmetrically connected to each other. The support frame is fixed to the floor with an anchor, and the support frame is moved up and down according to the water level.

In the present invention, the bottom plate is fixed to the inside of the outer frame having a circular shape, and the bottom plate is allowed to float by using a float, and the outer frame is coupled to the support frame, So that the solar cell array installed on the upper surface of the bottom plate is rotated without rotating the bottom plate in a floating state.

In the present invention, the bottom plate provided with the solar cell array is coupled to the support frame and rotated while floating, so that the solar cell array installed on the bottom plate can be rotated at an angle of inclination To be adjusted.

The rotation means provided on the support frame of the present invention rotates the rotary frame protruded by the rotation protrusion of the motor with the motor so that the rotary frame of the rotary wheel rotates with the support frame supporting the outer frame formed with the rotation groove, Since the bottom plate is fixed to the inside of the outer frame, the outer frame is rotated to rotate the bottom plate. At this time, the bottom plate is rotated while being floated on the water surface, and rotation is performed with a small load.

In the support frame of the present invention, the outer frame is supported and rotated, while the link is used to engage with another support frame, and the support frame can be fixed to the floor using an anchor.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a solar cell array 10 that floats a bottom plate 20 on a water surface and adjusts the inclination angle of the top plate 20 in accordance with the azimuth angle of the sun, The bottom plate 20 is rotated while being floated on the water surface according to the elevation angle, and two or four of the bottom plates 20 are coupled to each other.

The bottom plate 20 has a circular outer frame 22 having a U-shaped cross section and is connected to a bottom plate 20 inside the outer frame 22 to fix the bottom plate 20, 9, a coupling groove 23 is formed in the outer frame 22 at a position spaced apart from the outer frame 22 by a predetermined distance The bottom plate 20 is connected to the inside of the outer frame 22 as shown in FIG. 4, while the bottom plate 20 receives the buoyancy force by embedding the float 21.

A supporting frame 30 is formed in a semi-circular shape so as to surround the outer frame of the bottom plate 20 by about half and the supporting frame 30 is provided with a rotating means 50 to rotate the bottom plate 20 The support roller 31 and the support roller 32 are spaced apart from the rotation means 50 so as to be stably rotated while being supported by the outer frame 22. [

The rotating means 50 of the present invention is provided with a rotating wheel 52 that receives the power of the motor 51 and rotates so that the rotating protrusion 53 formed on the rotating wheel 52 is rotated by the rotating wheel 52 formed on the outer frame 22, And the outer frame 22 is supported by the support roller 54 at a position facing the rotary wheel 52. The outer frame 22 is spaced apart from the rotation unit 50, The outer frame 22 can be rotated while the inner frame 22 is supported by the support roller 31 while the inner frame 22 is supported by the support roller 32. As the rotary wheel 52 is rotated, So that the bottom plate 20 is rotated.

5, the rotation of the support roller 31 and the support roller 32 is performed while the outer frame 22 is supported, and the rotation unit 50 is rotated using the adjustment bolt 55 52 to the side of the outer frame 22 can be adjusted so that the degree of fit of the rotation protrusion 53 into the rotation groove 23 can be adjusted to ensure reliable power transmission.

The pivoting means 50 is installed at the center of the support frame 30 and transmits rotational power to the outer frame 22. The pivoting means 50 is supported on the support frame 30 located at both sides of the pivoting means 50, A roller 31 and a support roller 32 are installed and a half of the outer frame 22 is wrapped around the support frame 30 to make stable rotation.

The support frame 30 is coupled with the link 40 in a state in which the bottom plate 20 is rotatably coupled to the support frame 30 so that the bottom plate 20 can be installed symmetrically on the water surface And the support frame 30 is coupled with the link 40 so as to have a symmetrical shape in the front, rear, left and right sides. Here, the reason why the support frames 30 are coupled to each other by the link 40 is that, In order to keep the bottom plate 20 in a stable state even if the height of the bottom plate 20 is different.

The present invention is characterized in that a support rod 60 is fixed to an upper surface of a link 40 and a roller 61 is installed on the support rod 60. A wire 62 is attached to the roller 61, The balance weight 63 and the anchor 64 are coupled to both ends of the anchor 64 so that the anchor 64 is fixed on the floor while the balance weight 63 is held on the wire 62 caught by the roller 61 .

Here, the anchors 64 are kept fixed on the floor, and the balancers 63 are suspended using the rollers 61 provided at the ends of the support rods 60. This is because when the height of the water surface changes, The balance plate 63 is moved up and down so that the bottom plate 20 does not always move in a floating state on the water surface.

At this time, the wire 62 for fixing the anchor 64 may be provided with a weight 65 on the upper portion of the anchor 64 by fitting the weight 65 so as not to be released to the outside. In this case, The weight weight 65 is sandwiched by the wire 62 and stacked on top of the anchor 64 to prevent movement.

 In this embodiment of the present invention, the bottom plate 20 is installed in a floated state using the secondary flow 21, and the solar cell array 10 is installed on the top surface of the bottom plate 20 at regular intervals Since it is well known in the art to adjust the angle of inclination of the solar cell array 10 to match the azimuth angle of the sun, a detailed description thereof will be omitted, The process of rotating the rotor in a floating state will now be described.

The bottom plate 20 is covered with the outer frame 22 and the outer frame 22 is coupled to the support frame 30 by the support roller 31 and the support roller 32, When the rotary wheel 52 is rotated by the rotating means 50, the rotary protrusion 53 is supported by the receiving roller 54 in a state of being fitted in the rotary groove 23, This means that the solar cell array 10 installed on the bottom plate 20 is rotated at a high altitude by the rotation of the bottom plate 20, It becomes possible to rotate according to the angle.

When the rotary wheel 52 is rotated by the motor 51, the rotary protrusion 53 of the rotary wheel 52 is gradually rotated while being inserted into the rotary groove 23 of the outer frame 22, Thus, the outer frame 22 rotates horizontally and rotates the bottom plate 20.

At this time, the bottom plate 20 is suspended on the water surface by the lifting barrel 21, so that the bottom plate 20 is fixed on the bottom plate 20, and the solar cell array 10 It is possible to rotate without using a large load by using a significantly lower energy than when rotating.

A plurality of bottom plates 20 may be provided by symmetrically connecting supporting frames 30 for rotating the bottom plate 20. The bottom plates 20 may be provided by connecting the supporting frames 30 with the links 40, Even when the height of the adjacent bottom plate 20 is different, the link 40 can absorb the change in position and maintain the connected state.

In order to rotate the bottom plate 20, the support frame 30 must be held in a fixed state. To this end, the support rod 60 having the roller 61 is fixed to the upper surface of the link 40, A weight 63 is fixed to one side of the wire 62 and an anchor 64 fixed to the ground is connected to the other side of the wire 62. A weight weight 65 to be able to increase the weight of the anchor 64.

The anchors 64 of the present invention are fixed on the floor and hang the balance weight 63 by using the rollers 61 provided at the ends of the support rods 60 so that when the height of the water surface changes, The balance weight 63 is moved up and down so that the bottom plate 20 is kept floating in the water surface at all times while the weight weight 65 is fixed to secure the anchor 64 use.

As described above, according to the present invention, the bottom plate 20 provided on the upper surface of the solar cell array 10 is installed on the water surface, and the bottom plate 20 is rotated in a floating state on the water surface, The bottom plate 20 can be rotated using less energy.

10: solar cell array 20: bottom plate
21: support tube 22: outer frame
23: rotation groove 30: support frame
31: Support roller 32: Support roller
40: Link 50:
51: motor 52: rotating wheel
53: rotation projection 60: support rod
61: roller 62: wire
63: balance weight 64: anchor
65: Weights

Claims (3)

The solar cell array 10 is installed on the top surface of the bottom plate 20 having the buoyancy tube 21 embedded therein and a circular outer frame 22 is installed outside the bottom plate 20,
The outer frame 22 is provided with a bottom plate 20 having a U-shaped cross section and having rotation grooves 23 arranged at predetermined intervals on the outer side and a flotation tube 21 on the inner side,
A support frame 30 is installed to surround half of the outer frame 22 and a support roller 31 is installed on the support frame 30 to support the outer side of the outer frame 22, So as to support the inside of the outer frame 22,
A rotating unit 50 is installed at the center of the supporting frame 30 and the rotating unit 50 rotates the rotating wheel 52 with the motor 51 so that the rotating projection 53 of the rotating wheel 52 rotates The outer frame 22 fitted in the groove 23 is rotated,
The support frame 30 is symmetrically connected with the link 40,
A support rod 60 provided with a roller 61 is installed on the link 40 and the balance weight 63 is connected to the wire 62 held on the roller 61 and the anchor 64 fixed to the ground is connected And a rotating means for rotating the solar cell. 2. The apparatus according to claim 1, wherein a circular bottom plate (20) is inserted and rotated in a semicircular support frame (30), and a support roller (31) and a support roller (32) And the rotation protrusion 53 formed on the rotary wheel 52 of the rotation means 50 provided at the center of the support frame 30 is formed in the outer frame 22 And the outer frame 22 is supported by the support roller 54. The rotation wheel 52 is rotated by the rotation bolt 55 so that the rotation protrusion 53 is engaged with the rotation groove 23 And a rotating unit for rotating the float-type solar photovoltaic power generation system. The anchor according to claim 1, wherein an anchor (64) for fixing a link (40) connecting the support frame (30) is fixed to the support frame (30) by fixing a weight (65) Wherein the support frame (30) is prevented from rotating along the rotation of the bottom plate (20) coupled to the bottom plate (20).

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