KR101324302B1 - The solar power equipment using an idleness public surface - Google Patents

Abstract

PURPOSE: A solar power apparatus using an idleness public surface is provided to improve generating efficiency by automatically moving a solar collector plate according to the altitude and the movement of the sun. CONSTITUTION: A base panel is installed on a buoy panel (2). A solar collector panel (3) is installed on the upper surface of a solar collector plate. The solar collector plate comprises a hinge combination part and a link. An anemometer (47) is installed at the upper end of an angle controlling device (4). The anemometer measures wind speed and direction.

Description

The solar power equipment using an idle shared surface

The present invention relates to a photovoltaic device using idle shared water, and more specifically, the facility for photovoltaic power generation, which has been spotlighted as environmentally friendly energy, is effectively utilized against the area of the ground to be installed by the rising land prices. The present invention relates to a photovoltaic device using idle shared water, which was developed to solve problems that could not be achieved and to utilize various spaces and increase power generation efficiency.

Since prehistoric times, mankind has burned and heated the most readily available wood and grass, and as the population grows, fossil energy, including coal, oil, and natural gas, has been used for more than 100 years, rather than the materials available in nature. Gradually, fossil energy reserves are reaching their limits, and interest in alternative energy is increasing.

At present, nuclear power is a significant part of the country, but since the tsunami in Japan, the safety of nuclear power plants has been unreliable, causing a lot of opposition from local residents when constructing a nuclear waste treatment plant and new nuclear power plant.

As an alternative, hydropower and tidal power have enormous costs and damage the natural environment of rivers and seas. Wind power generation is only possible in some areas where winds are high and wind speeds are secured.

On the other hand, in the case of photovoltaic power generation, there is an advantage in that it is easy to install and produce stable electric power unless it is always a shaded part, but even if it is installed on the roof of a single house in a general city, it is expected to save some electricity in an environment where power consumption is high. That's the limit.

In some cases, it can be formed in a large area in a relatively low land price, but it takes too long to recover it by photovoltaic power generation in consideration of the real estate price, that is, the cost of investing land and the cost of installing facilities. Farming and building other buildings in the space would be more profitable in the shorter time, and there were many obstacles to the expansion of solar power.

(Patent Document 1) Republic of Korea Patent Publication No. 10-2001-0016571 (March 05, 2001) (Patent Document 2) Republic of Korea Patent Publication No. 10-2010-0100276 (September 15, 2010) (Patent Document 3) Korean Patent Publication No. 10-2012-0114454 (October 17, 2012) (Patent Document 4) Republic of Korea Patent Publication No. 10-2012-0140011 (December 28, 2012)

The present invention was developed in order to solve the above problems, the purpose is to install on the idle shared water surface do not have a large environmental impact on the amount of sunshine such as reservoir, lake, sea, etc. The present invention is to develop a photovoltaic power generation device using a.

In addition, it is to develop a photovoltaic device using an idle common water surface to allow the solar panel to produce electricity at an optimal position and angle as the sun moves up and down and east to west.

In order to achieve the above object, the present invention provides a photovoltaic device that is mounted on the water surface to enable solar power generation;

A buoy panel floating on the surface with buoyancy and having a plate-shaped base panel mounted on the upper surface thereof;

A solar heat collecting panel having a solar heat collecting panel mounted on an upper surface thereof, the hinge coupling part of which both front sides protrude from the sides of the base panel to be rotatably coupled, and a link protruding rearwardly adjacent to both rear surfaces thereof;

A pair of angle control motors mounted on the rear of the base panel such that the shafts are installed in an upward direction, a screw mounted on the shafts of the angle control motors and extending vertically upward, and coupled to the screws and one side of the link The elevating member connected to the end of the link and the link pin by a long hole extending horizontally in the horizontal direction and horizontally extending and vertically bent from the base panel and then bent horizontally so that the top of the screw is engaged at a predetermined position. Solar heat collecting plate angle adjusting device consisting of a screw fixing bracket for rotating;

It is characterized in that it comprises a four position fixing means to be mounted on the four upper edges of the base panel to be fixed to the bottom under the water surface by vertically descending.

In addition, the angle adjustment device is installed vertically on the upper surface of the base panel is characterized in that the wind direction anemometer is further mounted to measure the wind direction and wind speed at the top.

In addition, the position fixing means is characterized in that consisting of a fixed weight motor is mounted to the wire drum on the shaft, and a fixed weight fixed to the other end of the wire wound on the wire drum.

In addition, adjacent to the four corners of the bottom of the buoy panel, the front two of the four to drive the water in the left and right direction, respectively, the rear two four directional motor equipped with a propeller to push the water to the rear It is characterized in that the mounting.

In addition, the position fixing means is installed in the four corners of the buoy panel and the post fixing bracket is formed with a vertically perforated guide hole, the fixing post to be inserted into the guide hole of the post fixing bracket so that the bottom is inserted into the bottom fixed Characterized in that consisting of.

In addition, the position fixing means is composed of a cylinder fixing bracket which is installed at the four corners of the buoy panel and the hydraulic cylinder which is mounted to the cylinder fixing bracket and the cylinder rod is extended downwards so that the lower end is inserted into the bottom when extended. It features.

In addition, a center of the upper surface of the base panel has a triangular cross section protruding rail is formed in a circle, the solar heat collecting plate and the solar heat collecting plate angle adjusting device is formed on a disk-shaped rotating panel, the bottom of the rotating panel An inner diameter corresponds to an outer diameter of the rail, a gear tooth is formed at an outer diameter thereof, and a rotating gear having a plurality of wheels formed at a bottom thereof is fixedly mounted;

The rotating panel is configured to rotate by a drive motor for rotating the drive gear interlocked with the rotary gear.

As described above, the present invention is installed on the surface of the water, where there is little environmental impact due to various production activities such as reservoirs, lakes, seas, etc. As a result, more power can be produced in the same area.

In addition, according to the movement and altitude of the sun, the solar heat collecting plate automatically moves in the direction and angle to obtain the most solar energy, thereby increasing the efficiency of photovoltaic power generation.

1 is a state diagram used in accordance with an embodiment of the present invention
FIG. 2 is a perspective view of an embodiment of the present invention.
3 is a rear perspective view of an embodiment of the present invention.
4 to 5 is a side view showing a change in the angle of the solar heat collecting plate according to an embodiment of the present invention
Figure 6 is a bottom perspective view, in accordance with one embodiment of the present invention,
7 is a conceptual diagram showing a descending process of the fixed weight according to an embodiment of the present invention
8 is a conceptual diagram illustrating a left-right rotation operation according to an embodiment of the present invention.
9 is a conceptual diagram illustrating a forward and backward movement according to an embodiment of the present invention.
10 is a perspective view according to a first enlarged embodiment of the present invention;
11 is a conceptual diagram illustrating a position fixing process according to a first enlarged embodiment of the present invention.
12 is a perspective view according to a second enlarged embodiment of the present invention;
13 is a conceptual diagram illustrating a position fixing process according to a second enlarged embodiment of the present invention.
14 is a perspective view according to a third enlarged embodiment of the present invention;
15 is an exploded perspective view according to a third enlarged embodiment of the present invention;
16 to 17 are conceptual views illustrating a rotation operation according to a third enlarged embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a state diagram used in accordance with an embodiment of the present invention, the present application floats the buoy panel (2) floating on the reservoir in a way that can be easily utilized mainly in a lake or reservoir (1) and ponds where the digging is still calm On top of that, the solar heat collecting plate 3 is installed to enable photovoltaic power generation. The solar heat collecting plate 3 is installed on an idle water surface which is not used, thereby reducing the utilization of space and facility costs.

In addition, the water surface is a place where the sunlight is reflected from the water surface has the advantage that the power generation is increased by several ten percent compared with the conventional installation on the ground.

In addition, compared with the cost of fixed installation at a certain height from the ground, the floating cost is maintained by the simple floating force, and the facility cost to support it is relatively low.

2 is a perspective view according to an embodiment of the present invention, Figure 3 is a rear perspective view according to an embodiment of the present invention, Figures 4 to 5 is a change in the angle of the solar heat collecting plate according to an embodiment of the present invention 6 is a bottom perspective view according to an embodiment of the present invention, Figure 7 is a conceptual diagram showing a descending process of the anchoring weight according to an embodiment of the present invention, Figure 8 is an embodiment of the present invention 9 is a conceptual view illustrating a horizontal rotation operation according to an embodiment of the present invention, and FIG. 9 is a conceptual view illustrating a forward and backward movement according to an embodiment of the present invention, wherein the solar cell apparatus is mounted on a water surface to enable solar power generation;

A buoy panel 2 which is buoyant and floats on the water surface and has a plate-shaped base panel 21 mounted thereon;

The solar heat collecting panel 31 is mounted on the upper surface and the hinge coupling portion 32 protrudes on both sides of the base panel 21 so as to be rotatably coupled, and a link protruding rearward adjacent to both sides of the rear surface. A solar heat collecting plate 3 including a 33;

A pair of angle control motors 41 are mounted to the rear of the base panel 21 in such a manner that the shafts are installed in the upward direction, and screws 42 are mounted on the shafts of the angle control motors 41 and extend in the vertical direction. And a long hole 43 which is coupled to the screw 42 and has one side extending horizontally in the direction of the link 33 and extending horizontally by the end of the link 33 and the link pin 44. Solar light consisting of a lifting member 45 is connected, and a screw fixing bracket 46 is vertically erected from the base panel 21 and then horizontally bent to rotate the upper end of the screw 42 at a predetermined position. A heat collecting plate angle adjusting device 4;

Solar light using idle shared water, characterized in that it comprises four position fixing means (5) is mounted on the four corners of the upper surface of the base panel 21 so that the bottom is vertically lowered to be fixed to the bottom of the water surface. The generator is shown.

In the present application, the solar orphan heat collecting plate 3 is floated on the water by the buoy panel 2, and the solar heat collecting plate angle adjusting device 4 is arranged so that sunlight can be collected at the right angle according to the altitude of the sun. Placed so that the angle of the solar tube heat collecting plate (3) can be varied.

In this case, the angle adjusting device 4 is vertically installed on the upper surface of the base panel 21, the wind vane anemometer 47 that can measure the wind direction and wind speed is further mounted to the top Is further presented.

The wind direction anemometer 47 is a solar power generator that is fixed to the position fixing means (5) by the force to move or move easily by the wind or the solar power generator floated on the water when the wind blows strongly If there is a variety of risks, such as colliding with or overturned, the angle adjusting device (4) is to operate when more than a certain wind speed to adjust the angle of the solar heat collecting plate (3) to the angle to reduce the influence of the wind.

In addition, the position fixing means 5 is fixed to the other end of the fixed weight motor 52, the wire drum 51 is mounted on the shaft, and one end of the wire 53 wound on the wire drum 51 An embodiment consisting of a weight 54 is presented.

At this time, it is preferable to adjust the length of the wire 53 by detecting the water level by mounting the water level sensor 28 in the buoy panel (2), which is the buoy panel ( When 2) is locked lower than the set height is for the operation such as extending the wire 53 more relaxed.

In addition, an example of the position fixing means 5 described above is adjacent to the four corners of the bottom surface of the buoy panel 2 so that the two fronts push water in the left and right directions, respectively, and the rear two back waters. It can be said that the related to the embodiment characterized in that the four turning motor (6) is equipped with a propeller to push the.

This is not a fixed fixed, but if the flow can be fixed to some extent, the turning motor 6 is able to switch the direction by selectively operating one motor as shown in Figure 8 according to the direction of the sun.

In addition, as shown in FIG. 9, in the rear direction turning motor 6, the wire 53 is wound by forward rotation and reverse rotation so that the fixing weight 54 can be moved up.

10 is a perspective view according to a first enlarged embodiment of the present invention, Figure 11 is a conceptual diagram showing a position fixing process according to a first enlarged embodiment of the present invention, the position fixing means 5 is the buoy panel (2) Post fixing bracket 55 is installed in the four corners of the vertical and perforated guide hole is formed, and the fixing post 56 is inserted into the guide hole of the post fixing bracket 55 so that the bottom is inserted into the bottom fixed An embodiment characterized in that the configuration is presented.

In the simplest configuration, when the fixed post 56 is fixed to the floor, the buoy panel 2 moves up and down according to the height of the water surface, and is firmly fixed at a predetermined position and configured to only lift up and down.

12 is a perspective view according to a second enlarged embodiment of the present invention, Figure 13 is a conceptual diagram showing a position fixing process according to a second enlarged embodiment of the present invention, the position fixing means 5 is the buoy panel (2) Cylinder fixing bracket 57 is installed at the four corners of the), and the hydraulic cylinder 59 is mounted to the cylinder fixing bracket 57, the cylinder rod 58 extends downwards so that the lower end is inserted into the bottom when extended An embodiment is characterized by being configured as.

The above embodiment is an embodiment in which the hydraulic cylinder 59 is automatically fixed and detached to enable the position movement in the above-described embodiment.

14 is a perspective view according to a third enlarged embodiment of the present invention, FIG. 15 is an exploded perspective view according to a third enlarged embodiment of the present invention, and FIGS. 16 to 17 are rotations according to a third enlarged embodiment of the present invention. As a conceptual diagram showing the operation, a rail 22 protruding with a triangular cross section is formed in a circle at the center of the upper surface of the base panel 21, and the solar heat collecting plate 3 and the solar heat collecting plate angle adjusting device 4 are formed. Is formed on a disk-shaped rotating panel 23, the inner diameter of the bottom of the rotating panel 23 corresponds to the outer diameter of the rail 22, the gear is formed on the outer diameter and a plurality of wheels 24 are formed on the bottom Rotating gear 25 is fixedly mounted;

An embodiment of the present invention is characterized in that the rotating panel 23 is configured to rotate by a drive motor 27 for rotating the drive gear 26 interlocked with the rotary gear 25.

The above embodiment is an embodiment for rotating the vertical angle according to the direction of the sun in a state firmly positioned so that the left and right angles as close to the right angle as possible when the solar heat collector angle control device (4) is adjusted. .

In this case, a separate battery is built-in, so that some of the power produced may be charged to maintain sufficient power to drive the driving motor 27 by charging the battery.

1: reservoir
2: buoy panel
21 Base panel 22 Rail
23: rotating panel 24: wheels
25: rotary gear 26: drive gear
27: drive motor 28: water level sensor
3: solar heat collecting plate
31: solar heat collecting panel 32: hinge coupling
33: link
4: solar heat collector angle adjuster
41: angle control motor 42: screw
43: long hole 44: link pin
45: screw 46: screw fixing bracket
47: wind direction anemometer
5: position fixing means
51: wire drum 52: fixed weight motor
53: wire 54: anchor
55: post fixing bracket 56: fixing post
57: cylinder fixing bracket 58: cylinder rod
59: hydraulic cylinder
6: direction change motor

Claims (7)

A photovoltaic device mounted on the water surface to enable solar power generation;
A buoy panel 2 which is buoyant and floats on the water surface and has a plate-shaped base panel 21 mounted thereon;
The solar heat collecting panel 31 is mounted on the upper surface and the hinge coupling portion 32 protrudes on both sides of the base panel 21 so as to be rotatably coupled, and a link protruding rearward adjacent to both sides of the rear surface. A solar heat collecting plate 3 including a 33;
A pair of angle control motors 41 are mounted to the rear of the base panel 21 in such a manner that the shafts are installed in the upward direction, and screws 42 are mounted on the shafts of the angle control motors 41 and extend in the vertical direction. And a long hole 43 which is coupled to the screw 42 and has one side extending horizontally in the direction of the link 33 and extending horizontally by the end of the link 33 and the link pin 44. Solar light consisting of a lifting member 45 is connected, and a screw fixing bracket 46 is vertically erected from the base panel 21 and then horizontally bent to rotate the upper end of the screw 42 at a predetermined position. A heat collecting plate angle adjusting device 4;
Solar light using idle shared water, characterized in that it comprises four position fixing means (5) is mounted on the four corners of the upper surface of the base panel 21 so that the bottom is vertically lowered to be fixed to the bottom of the water surface. Power generation device. According to claim 1, wherein the angle adjusting device (4) is installed vertically on the upper surface of the base panel 21, the wind direction anemometer 47 is further mounted to the upper end of which can measure the wind direction and wind speed Photovoltaic device using idle shared water. 3. The position fixing means (5) according to claim 1 or 2, wherein the position fixing means (5) includes a fixed weight motor (52) on which a wire drum (51) is mounted on a shaft, and a wire (53) having one end wound on the wire drum (51). Photovoltaic device using idle shared water surface, characterized in that consisting of a fixed weight (54) fixed to the other end of the). 4. The propeller according to claim 3, wherein the two fronts of the buoy panel 2 adjacent to the four corners of the buoy panel 2 push the water to the left and the right, respectively, and the rear two of the propellers push the water to the rear. Photovoltaic device using idle shared water surface, characterized in that the four turning motor (6) mounted. The post fixing bracket (55) of claim 1, wherein the position fixing means (5) is installed at four corners of the buoy panel (2) and is formed with a vertically perforated guide hole, and the post fixing bracket (55). Is inserted into the guide hole of the bottom of the solar power generation device using an idle shared water surface, characterized in that consisting of a fixed post 56 to be fixed to the bottom. According to claim 1, wherein the position fixing means (5) is a cylinder fixing bracket 57 is installed on the four corners of the buoy panel (2), the cylinder fixing bracket 57 is mounted on the cylinder rod 58 Solar power generation apparatus using an idle shared water surface, characterized in that consisting of a hydraulic cylinder (59) extending downwards to be fixed to the bottom when extended to the bottom. According to claim 5 or 6, wherein the center of the upper surface of the base panel 21 has a triangular cross section protruding rail 22 is formed in a circle, the solar heat collecting plate 3 and the solar heat collecting plate angle adjustment Apparatus 4 is formed on a disk-shaped rotating panel 23, the inner diameter of the bottom of the rotating panel 23 corresponds to the outer diameter of the rail 22, the gear diameter is formed on the outer diameter and the bottom of the plurality of wheels ( A rotary gear 25 in which 24 is formed is fixedly mounted;
Photovoltaic device using idle shared water surface, characterized in that the rotating panel 23 is rotated by a drive motor 27 for rotating the drive gear 26 in conjunction with the rotary gear (25).

Images