KR101022333B1 - Amphibious photovoltaic power generation apparatus - Google Patents

Abstract

PURPOSE: An amphibious photovoltaic power generating apparatus is provided to simply control the angle of a photovoltaic module by rotating a weight. CONSTITUTION: A base(10) comprises a plurality of first posts(12). A floating body(20) is installed on the lower side of the base. Two anchors are connected to the base with a wire. A fixing frame(40) is fixed to the upper side of the first post. A photovoltaic module(70) receives sunlight and generates power. A weight is rotatably and eccentrically installed on the lower side of a connection rod.

Description

Amphibious photovoltaic power generation apparatus

The present invention relates to a photovoltaic device, and more particularly, to an amphibious photovoltaic device that can be installed in a non-utilized space such as a reservoir, a river, a beach, and the like, which can be amphibious.

Recently, all resources, including fossil fuels, have been exhausted worldwide. In addition, due to these energy consumption CO2 gas is released, environmental problems are emerging as a big issue. As interest in clean energy development is increasing in the future, commercialization of fuel cell power generation, wind power generation, and photovoltaic power generation, which are recently called renewable energy, including nuclear fusion power generation, hydrogen energy generation power generation, small hydro power generation, geothermal power generation and tidal power generation. Promotion is taking place.

Although the solar power generation system has a small amount of power generation, it is getting much attention because of the better power quality than the wind power generation, the size of the system can be reduced, and the installation location is not restricted.

The photovoltaic power generation system is installed in various places using the bridge member, and further has a base and a floating body has been developed that can be installed in the water.

However, when installing on the ground it is not easy to prepare an installation place, and when the water installation is difficult to install compared to the ground and has a risk of a safety accident.

The present invention has been proposed to solve the above problems according to the prior art, and can be installed on the ground near rivers, reservoirs, beaches that are not normally used, and at the same time water can land when floating in the water The purpose is to provide a dual-use photovoltaic device.

An amphibious solar system according to the present invention for achieving the above object is a base having a plurality of first pillars; Floating body installed in the lower portion of the base; An anchor connected by the base and the string, the anchor being provided with at least two so as not to rotate when the base is positioned in the water phase; A fixing frame fixedly installed on the first pillar and having a receiving space therein; A first rotating frame installed inside the fixing frame and rotatably installed based on the X-axis, and having an accommodating part therein; A second rotary frame installed inside the first rotary frame and rotatably installed from a Y axis; A solar module fixedly installed on an upper portion of the second pillar formed perpendicular to the second rotating frame and generating power by receiving sunlight; And a weight that is fixed to the second rotating frame by a connecting rod.

In addition, the weight is eccentrically characterized in that it is rotatably installed.

In addition, a plurality of wheels are further provided on the lower surface of the base, and the wheels are rotatable in contact with the ground.

In addition, the lower surface of the base is further provided with a board, the board is characterized in that the slide moves when the external pressure is applied at the same time in contact with the ground.

As described above, in the amphibian solar power generation device according to the present invention, the solar module is fixed to the second rotating frame, the weight installed on the solar module, the first rotating frame, and the second rotation By being rotated by the frame and maintaining a constant inclination, it can be installed on the inclined ground, and the floating body can be provided to float on water.

That is, by being able to install on the ground and the water surface, there is an effect that can utilize the unused space near the reservoir or the river or the beach which is not generally used.

In addition, since the weight is rotatably installed, it is possible to easily adjust the angle of the solar module by rotating the weight installed eccentrically without the need to rotate the base.

In addition, the base, the fixed frame, the first rotating frame, the second rotating frame is made of a tubular body, less weight than the plate body is easy to carry, and by installing a relatively small size of the floating body can reduce the volume It works.

In addition, the wheel or the board is further provided to be in contact with the ground, it is easy to carry the amphibious solar power generation device according to the invention.

1 is a perspective view showing an amphibian solar power generation device according to the present invention,
2 is a perspective view of a part of FIG. 1 is omitted;
3 is a side cross-sectional view of FIG. 1,
4 is a front cross-sectional view of FIG.
5 is a view showing a state in which the weight of the amphibian solar power generation device according to the present invention is eccentrically and rotatably installed,
Figure 6 is a view showing that the wheel is further provided in the amphibian solar power generation device according to the invention,
Figure 7 is a view showing that the board is further provided in the amphibian solar power generation device according to the invention,
8 is a view showing a state in which the amphibian photovoltaic device according to the invention floating in the water,
9 is a view showing a state in which the amphibian photovoltaic device according to the present invention is mounted on the ground.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the amphibian solar power generation device according to the present invention will be described.

1 is a perspective view showing an amphibian solar power generation device according to the present invention, Figure 2 is a perspective view without a part of Figure 1, Figure 3 is a side cross-sectional view of Figure 1, Figure 4 is a front sectional view of Figure 1 5 is a view showing a state in which the weight of the amphibian solar power generation apparatus according to the present invention is eccentrically and rotatably installed, and FIG. 6 shows that the wheel is further provided in the amphibian solar power generation apparatus according to the present invention. 7 is a view showing that the board is further provided in the amphibian photovoltaic device according to the present invention, Figure 8 is a view showing a state in which the amphibian photovoltaic device according to the present invention floating in water. 9 is a view showing a state in which the amphibian photovoltaic device according to the present invention is mounted on the ground.

As shown in Figs. 1 to 4, the amphibian solar power generation device according to the present invention includes a base 10, a floating body 20, an anchor 30, a fixing frame 40, It comprises a first rotating frame 50, the second rotating frame 60, the solar module 70 and the weight 80.

The base 10 may be made of a plate body, but jointly welded at both ends of the plurality of pipe bodies 11 so as to float in water by the floating body 20 to be described later to make a square shape.

In addition, a plurality of first pillars 12 are vertically installed on the upper surface of the base 10 so that the fixing frame 30 to be described later is installed.

The floating body 20 is installed under the base 10 so that the base 10 floats in water.

The floating body 20 is made of a tube and a plastic or metal cylinder in which air is accommodated therein, but at least one is installed, as shown in Figures 1 to 4, each one is preferably installed on each side.

In addition, the floating body 20 mainly serves to float the base 10 in water, but when water is dropped, it is preferable to be made of a plastic tub that is harder than a tube and lighter than a metal material by contacting the ground.

The anchor 30 is provided with a string 31 having a predetermined length, and is connected to the base 10 by using the string 31, and prevents the base 10 from moving when floating in water. At least two are provided so as not to rotate at the same time.

In other words, as shown in Figs. 3 to 4, the strings 31 are tied to both sides of the base 10, and the strings 31 are positioned on the ground so that the strings 31 become oblique. The base 10 is prevented from moving outside a certain radius and at the same time does not rotate.

The fixing frame 40 is fixed to the upper portion of the first pillar 12 of the base 10 so that the receiving space 41 is provided inside and the upper and lower portions of the receiving space 41 are opened.

And, it can be made in a circular or polygonal shape using the tubular body 42, it is preferable that it is made of a square shape that is easy to make, it is fixedly installed on the first pillar 12 of the base (10).

The first rotating frame 50 is made by using the tubular body 51, the receiving portion 52 is provided on the inside and at the same time the upper and lower portions of the receiving portion 52 of the receiving space of the fixing frame (40) 41) is rotatably installed.

In other words, the first protrusions 53 are formed at the centers of both sides of the outer surfaces to be rotatably installed from the Y axis, and the first protrusions 53 are rotatable on both inner surfaces of the fixing frame 40. To be installed.

In addition, the first rotary frame 50 has auxiliary weights 55 at both sides of the central lower portion perpendicular to the Y axis so that the first rotary frame 50 rotates and maintains horizontality when the base 10 is inclined in contact with the ground. ) Is further provided.

The auxiliary weight 55 is preferably formed to be inclined inward so as not to contact the fixing frame (40).

The second rotating frame 60 may be made of a plate body, but is made by using a tubular body 61 to reduce weight, and is rotatably installed in the receiving portion 52 of the first rotating frame 50. .

In other words, second projections 62 are formed at the centers of both outer surfaces of the second projections 62 so as to be rotatably installed from the X-axis, and the second projections 62 are formed on both inner surfaces of the first rotation frame 50. It is rotatably inserted.

Therefore, a plurality of second pillars 63 are provided on the upper surface of the solar module 70 to be described later, and the weight 80 to be described below is fixed to the center of the second rotating frame 60. The auxiliary connecting bar 64 is installed to cross the center of the second rotary frame 60 so as to be connected.

The solar module 70 is fixed to the upper portion of the second pillar (63) formed perpendicular to the second rotating frame 60, and receives the sunlight to generate power.

Since the solar module 70 has a general configuration, to be briefly described, an inclined plate 70 installed obliquely at an angle of 30 degrees to 50 degrees on an upper portion of the second pillar 63 and an upper surface of the inclined plate 71 is provided. It consists of a solar cell 72 installed in.

The weight 80 is fixedly connected to the second rotating frame 60 by a connecting rod 81. That is, the upper end of the connecting rod 81 is fixed to the center of the auxiliary connecting bar 64 of the second rotary frame 60, the weight 80 is fixed to the lower end of the connecting rod 81, the base 10 is Even if it is seated on the ground and tilted, the first rotating frame 50 or the second rotating frame 60 or the first rotating frame 50 and the second rotating frame 60 are rotated in accordance with the inclination of the solar module 70. ) To prevent it from tilting.

As shown in FIG. 5, the weight 80 may be eccentrically installed and rotatably installed, thereby rotating the weight 80 without rotating the base 10, and thus rotating the weight 80. Alternatively, the inclination angle of the solar module 70 may be set by rotating the second rotation frame 60 or the first and second rotation frames 50 and 60.

On the other hand, as shown in Figure 6, the amphibian photovoltaic device according to the present invention a plurality of installation bar 13 protrudes downward on the bottom surface of the base 10 so as to facilitate transportation of the installation bar 13 At the end, the wheel 14 may be rotatably installed in contact with the ground.

In addition, as shown in Figure 7, the amphibian photovoltaic device according to the present invention a plurality of installation bar 13 protrudes downward on the bottom of the base 10 and the board (at the end of the installation bar 13) 15) is installed, the board 15 is installed on the bottom surface is in contact with the ground, the external pressure is applied, that is, it is easy to carry the slide 30 is moved by pulling the string 31 when holding the anchor 30.

Referring to the use state of the amphibian solar system according to the present invention described above with reference to FIGS.

First, the base 10 is positioned to float in water near a place to be installed, that is, a reservoir, a river, and a beach.

At this time, the photovoltaic module 70 is positioned to the base 10 so as to generate power by receiving sunlight, and to make the anchor 30 in contact with the ground, the end of the string 31 provided in the anchor 30 This is connected to the base 10 to prevent the base 10 from moving outside a certain radius and at the same time to prevent the base 10 from rotating.

In this state, if a certain amount of time elapses after the water is drained, the base 10 moves downward so that the floating body 20 installed under the base 10 comes into contact with the ground.

At this time, the base 10 is inclined because the ground is not flat.

Then, the second rotary frame 60 or the first rotation rotatably installed on the first rotary frame 50 or the first rotary frame 50 rotatably installed on the fixed frame 40 by the weight 80. The frame 50 and the second rotating frame 60 is rotated so that the solar module 70 maintains a predetermined slope.

That is, by preventing the solar module 70 from tilting by rotating the first rotary frame 50 and the second rotary frame 60 by the inclination angle, the solar module 70 receives solar light and generates electricity. do.

On the other hand, the amphibian photovoltaic device according to the present invention may be installed on the ground first because the photovoltaic module 70 can generate solar power regardless of the inclination of the base 10.

In other words, when water enters in a state where it is installed on the ground, the base 10 installed to be inclined by the floating body 20 floats in the water, and at this time, the first rotating frame 50 or the second rotating frame 60 or The first rotating frame 50 and the second rotating frame 60 are rotated.

Therefore, the base 10 is rotated to be in a horizontal state while the solar module 70 maintains a constant angle, and the base 10 is prevented from being moved out of a certain radius by the anchor 30 and simultaneously rotated. Not.

10: base, 11: tubular, 12: first pillar, 13: mounting bar, 14: wheel, 15: board, 20: floating body, 30: anchor, 31: string, 40: fixing frame, 41: receiving space, 42: tube, 50: first frame, 51: tube, 52: accommodating part, 53: first projection, 55: auxiliary weight, 60: second frame, 61: tube, 62: second protrusion, 63 : Second pillar, 64: auxiliary connecting bar, 70: solar tube module, 71: inclined plate, 72: solar cell, 80: weight, 81: connecting rod

Claims (6)

A base provided with a plurality of first pillars;
Floating body installed in the lower portion of the base;
Two anchors connected by the base and the string and installed so as not to rotate when the base is positioned in the water phase;
A fixing frame fixedly installed on the first pillar and having a receiving space therein;
A first rotating frame installed inside the fixing frame and rotatably installed on the basis of a Y-axis, and having a receiving part provided therein;
A second rotary frame installed inside the first rotary frame and rotatably installed at an X axis;
A solar module fixedly installed on an upper portion of the second pillar formed perpendicular to the second rotating frame and generating power by receiving sunlight; And
An amphibious solar system, comprising: a weight installed on the second rotating frame by a connecting rod, the weight being eccentrically and rotatably installed at the bottom of the connecting rod.
The method according to claim 1,
The second rotary frame is an auxiliary connecting bar is installed so as to cross the center, the amphibian solar power generation device, characterized in that the weight of the connecting rod is fixed is installed in the center of the auxiliary connecting bar is fixed.
delete The method according to claim 1,
A plurality of wheels is further provided on the lower surface of the base, the wheels are amphibious solar system, characterized in that the rotatable contact with the ground.
The method according to claim 1,
The lower surface of the base is further provided with a board, the board is in contact with the ground and the amphibious solar system, characterized in that the slide moves when an external pressure is applied.
The method according to claim 1,
The first rotary frame is an amphibious solar system, characterized in that the auxiliary weight is further provided on both lower surfaces.

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