KR20100001454A - A tidal power generation system floating on the sea - Google Patents

Abstract

PURPOSE: A tidal power generation system floating on the sea is provided to increase the efficiency of power production by mounting a structure increasing a flow rate of tidal current. CONSTITUTION: A tidal power generation system floating on the sea comprises a generation unit, a buoyancy number shift, an anchoring unit and a tidal pressure increasing unit. The generation unit produces the electricity with the flow of tide. The buoyancy number shift floats the generation unit on the water surface. The anchoring unit interlinks the buoyancy number shift on the sea bottom. The tidal pressure increasing unit increases the tidal pressure by guiding the flow of the tide toward the generation unit. The tidal pressure increasing unit comprises multiple blades(120), a turbine(100) and a generator. The generator converts the torque of the turbine into the electric power.

Description

Floating Tidal Power Units {A TIDAL POWER GENERATION SYSTEM FLOATING ON THE SEA}

The present invention relates to a floating tidal power generation apparatus, and in particular, it exists in a floating state on the sea, and is advantageous for the change of direction and the movement of a place, and thus, it is possible to use tidal power efficiently, and has a structure to increase the flow rate of tidal current, thereby producing power. An efficient floating tidal power plant.

Common power generation methods include hydroelectric power generation, thermal power generation, and nuclear power generation. These power generation methods require large-scale power generation facilities, and in the case of thermal power generation, huge amounts of oil or coal energy are required to operate power generation facilities. At the present time when oil and coal resources are depleted, many difficulties are foreseen and pollution is a big problem. In the case of nuclear power generation, radioactive leakage and nuclear waste treatment have serious problems. Therefore, a cheaper, safer and more breakthrough power generation method than the general power generation method is required.

On the other hand, there are various power generation methods that do not require oil or coal resources and do not have radioactive or nuclear waste problems such as solar power generation, wave power generation, tidal power generation, and wind power generation. It is tidal power generation.

Sea level rises gradually from low tide to high tide, and the tides move horizontally toward the coast. Tidal power generation is a method in which aberration is installed on the inflow direction of the tidal current, and when the aberration is rotated by the tidal power, the generator is driven by the rotational force to generate electric power therefrom. As long as the earth and moon exist, even tidal horizontal movements are made, so much research on tidal power generation has been conducted.

By the way, most conventional tidal power generators install aberrations in a fixed place and in a fixed direction. However, since the direction and the tidal force of tides change from time to time, the conventional tidal power generator has a problem that can not efficiently generate power according to the change of tides.

The present invention has been proposed in order to solve the above problems, it is present in the floating state on the sea is advantageous for the change of direction and the movement of the place, it is possible to efficiently use the tidal power, and to have a structure to increase the flow rate of the algae An object of the present invention is to provide a floating tidal power generation device having good power production efficiency.

Floating tidal power generation apparatus of the present invention for achieving the above object, the power generation means for generating power by operating in a non-powered by the flow of tides; Buoyancy means for floating the power generation means near the water surface; Position fixing means for connecting the buoyancy means to the ground of the seabed; And a tidal pressure increasing means for increasing the tidal pressure by guiding the tidal flow toward the power production means.

The electric power production means, the turbine having a plurality of blades receiving the water pressure by the flow of the tidal flow, the turbine is rotatably installed on the buoyancy means; And a power generation device for converting the rotational force of the turbine into electric power.

A plurality of through holes may be formed in the wing.

In addition, the wing may be provided with an opening and closing device for closing the through-holes at the position of the pressure of the bird, and opening the through-holes at the position not being pressured by the bird.

The opening and closing device, the hinge plate is rotatably coupled to the blade to open and close the through hole; And an elastic member for returning the blocking plate to a position for closing the through hole.

The wing is rounded in a shape in which the side receiving the bird embraces the bird.

The electric power generating means may further include algae inducing means for guiding the algae passing the wing in the rotational direction of the turbine.

The buoyancy means, buoyancy tank for floating the power generation means near the water surface; And a balance adjusting device for adjusting a relative height of the water producing means by adjusting the amount of water stored in the buoyancy tank.

The buoyancy tank is composed of a pair installed on both sides with the power generation means therebetween, and a bottom plate for connecting the bottom surface of the pair of buoyancy tank is installed.

The pair of buoyancy tanks may be provided with a first sluice for guiding a larger amount of the tides between the pair of buoyancy tanks.

The first sluice is installed in the buoyancy tank so that the angle is adjustable, an angle adjusting device for adjusting the angle of the first sluice is installed in the buoyancy tank.

The hydraulic pressure increasing means includes: a second sluice for guiding the flow of the tidal current toward the power generation means; And a moving unit for flowing the second sluice on the buoyancy means.

Floating tidal power generation device of the present invention is in a floating state on the sea, and is advantageous for the change of direction and the movement of the place, and can effectively use tidal power, and has a structure that increases the flow rate of the tidal flow, thereby improving power production efficiency. It works.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 is a perspective view of an tidal power generation device according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the tidal power generation device shown in FIG. 1, and FIG. 3 is a cross-sectional view of another direction of the tidal power generation device shown in FIG. 1.

Figure 4 is a perspective view of the turbine shown in Figure 1, Figure 5 is a perspective view of the blade shown in Figure 4, Figure 6 is a perspective view showing another example of the blade of the present invention.

Floating tidal power generation apparatus of the present embodiment, the power generating means for operating by the flow of tides to produce electric power; Buoyancy means for floating the power production means near the surface, position fixing means for connecting the buoyancy means with the ground of the seabed, and tidal pressure increasing means for increasing the tidal pressure by guiding the flow of tidal current to the power production means .

The electric power generating means has a plurality of vanes 120 which are subjected to hydraulic pressure by the flow of tides, and includes a turbine 100 rotatably installed in the buoyancy means, and a generator for converting the rotational force of the turbine 100 into electric power ( 150).

On the right side of FIG. 42, since the wing 120 is a section in which the tidal force is not received, the wing 120 may act as a force hindering the rotation of the turbine 100. Therefore, to form a through hole 126 in the wing 120 as shown in Figure 5 to reduce the force to interfere.

As another example of the wing 120, the opening and closing device for closing the through hole 126 in the position under pressure of the bird, and opening the through hole 126 in the position not under pressure of the bird as shown in FIG. It is provided.

The opening and closing device is hingedly rotatable to the wing 120 to open and close the through hole 126, and to return the blocking plate 122 to the position for closing the through hole 126. It is made of a torsion spring 124 as an elastic member.

The wing 120 is a cross section that receives the bird is a rounded cross in the 'C' shape to receive the force from the tide efficiently, and reduce the resistance in the section not receiving the force of the turbine to maximize the power of the turbine (100) Do not reduce it.

The buoyancy means is for adjusting the relative height of the turbine 100 by adjusting the amount of water stored in the buoyancy tank 200 and the water stored in the buoyancy tank 200 to rise near the water surface. It has a balance adjusting device (not shown). By adjusting or supplying water to the inside of the buoyancy tank 200, the balance adjusting device adjusts the height of the turbine 100 to protrude from the water surface so as to be optimal for power generation. The balance adjusting device includes a pump for introducing seawater into the buoyancy tank 200 or withdrawing the seawater inside the buoyancy tank 200 to the outside.

The buoyancy tank 200 is composed of a pair installed on both sides with the power production means therebetween, the bottom plate 210 for connecting the bottom of the pair of buoyancy tank 200 is installed. A beam is attached to the bottom of the bottom plate 210 to increase structural strength, and the top surface of the bottom plate 210 is smoothed so as not to disturb the flow of seawater.

Each buoyancy tank 200 is divided into several compartments, and has a function of separately filling the balance control device in each compartment.

The pair of buoyancy tanks 200 are provided with a first sluice gate 220 for guiding a larger amount of tidal water between the pair of buoyancy tanks 200.

The buoyancy tank 200 in which the turbine 100 is located is not filled with water, and each set of power generators 150 is installed on both sides of the turbine 100. The generator 150 is connected to the rotary shaft 110 of the turbine 100, the buoyancy tank 200 is a waterproof bearing device 112 for waterproofing the rotary shaft 110 to waterproof for the waterproofing of the generator 150 side. ) Is installed.

The first sluice gate 220 is installed to hinge-rotate the buoyancy tank 200 so that the angle can be adjusted, and the cylinder 230, which is an angle adjusting device for adjusting the angle of the first sluice gate 220, is mounted on the buoyancy tank 200. Is installed. By the action of the cylinder 230, the angle of the first sluice gate 220 is adjusted to control the amount and flow rate of the tidal flow flowing between the pair of buoyancy tank 200.

The power generation means may further include algae inducing means 240 for guiding algae passing through the wing 120 in the rotational direction of the turbine 100. The algae inducing means 240 is formed on the bottom plate 210 in the form of a rounded protrusion so as to be proportional to the curvature of the turbine 100.

The hydraulic pressure increasing means includes a second water gate 400 for guiding the flow of tidal current to the power generation means side, and a mobile unit 410 for flowing the second water gate 400 on the buoyancy tank 200.

The mobile unit 410 preferably uses a device that implements three operations that allow the second gate 400 to move forward and backward, move left and right, and adjust an angle of rotation.

The second sluice gate 400 is installed to be inclined to push the tidal downward as a whole, it is preferable that the lower end of the second sluice 400 is installed in an optimal state to induce the tide down the turbine 100.

Position fixing means is composed of an anchor 300 for connecting the bottom plate 210 to the ground of the seabed. Therefore, the bottom plate 210 and the buoyancy tank 200 can be freely rotated relative to the anchor 300 according to the direction of the bird.

In the case of moving the tidal power generator according to the present embodiment, when the anchor 300 is removed from the ground, the tidal power generator can be moved.

Hereinafter, the operation of the tidal power generator having the above configuration will be described.

The assistant is gathered between the pair of buoyancy tanks 200 by the guide of the first sluice gate 220.

The assistant tidal flow introduced into the buoyancy tank 200 is riding on the inclined surface of the second sluice 400 to bite to the lower side of the turbine (100). The assistant flows between the turbine 100 and the bottom plate 210, and applies a pushing force to the wing 120 to rotate the turbine 100.

Accordingly, the turbine 100 rotates the rotation shaft 110 to generate power in the power generator 150.

The tide pushing the wing 120 is pushed along the rounded surface of the tide guide means 240 formed on the bottom plate 210 continuously pushing the wing 120.

The tide passing through the wing 120 flows to the right based on FIG. 2 to leave the buoyancy tank 200.

Since the wing 120 does not generate resistance in a portion protruding above the surface of the water, there is no force that prevents the rotation of the turbine 100.

And the wing 120, the turbine plate 100 by opening the through-hole 126 while pushing the torsion spring 124 by the pressure of the water in the section rising to the surface without receiving the pushing force of the tide Reduce the force to hinder its rotation. The same applies if there is no switchgear.

Floating tidal power generation device of the present invention, it is possible to install and use in the area where the tide is generated, and can be installed at any time and anywhere in the fastest position, such as the stream, and can be used by connecting the same device in multiple have.

It can also be used as a naturally occurring minority in tidal flats, and in deep water, it can increase the power generation capacity by making the aberration as large as desired.

The present invention can easily move the installation site, it is possible to produce a high-efficiency power without being affected by the change in the direction of the current.

1 is a perspective view of an tidal power generation apparatus according to an embodiment of the present invention;

2 is a cross-sectional view of the tidal power generation device shown in FIG.

3 is a cross-sectional view of another direction of the tidal power generator shown in FIG. 1;

4 is a perspective view of the turbine shown in FIG.

5 is a perspective view of the wing shown in FIG.

6 is a perspective view showing another example of the wing of the present invention.

<Explanation of symbols for main parts of drawing>

100: turbine 110: axis of rotation

112: waterproof bearing device 120: wing

122: blocking plate 124: torsion spring

126: through hole 150: generator

200: buoyancy tank 210: bottom plate

220: first gate 230: cylinder

240: bird guide means 300: anchor

400: second gate 410: transfer unit

Claims (12)

Power production means for operating by the flow of tides to produce power; Buoyancy means for floating the power generation means near the water surface; Position fixing means for connecting the buoyancy means to the ground of the seabed; And Floating tidal power generation device comprising a; tidal pressure increasing means for increasing the tidal pressure by inducing the flow of the tidal current to the power production means. The method according to claim 1, wherein the power producing means, A turbine having a plurality of vanes receiving hydraulic pressure by the tidal flow, the turbine being rotatably installed on the buoyancy means; And Floating tidal power generation device comprising a; generator for converting the rotational force of the turbine into electric power. The floating tidal power generator according to claim 2, wherein the wing has a plurality of through holes. The method of claim 3, wherein the wing, Floating tidal power generation apparatus characterized in that the opening and closing device for closing the through hole in the position under the pressure of the tidal current, and opening the through hole in the position not being pressured by the tidal flow. The method according to claim 4, The opening and closing device, A blocking plate hinged to the wing to open and close the through hole; And Floating tidal power generation device characterized in that the elastic member is provided for returning the blocking plate to the position to close the through hole. The floating tidal power generation apparatus according to claim 2, wherein the wing is rounded in a shape in which the side receiving the tidal current embraces the tidal current. The method according to claim 2, wherein the power producing means, Floating tidal power generation device further comprises a tidal flow guide means for guiding the tidal flow through the wing in the rotational direction of the turbine. The method of claim 1, wherein the buoyancy means, Buoyancy tank for floating the power production means near the water surface; And Floating tidal power generation device characterized in that it comprises a balance adjusting device for adjusting the relative height to the water surface of the power production means by adjusting the amount of water stored in the buoyancy tank. The method of claim 8, wherein the buoyancy tank is composed of a pair installed on both sides with the power generation means therebetween, Floating tidal power generation device characterized in that the bottom plate is connected to connect the bottom of the pair of buoyancy tank. 10. The floating tidal power generator according to claim 9, wherein the pair of buoyancy tanks are provided with a first sluice for guiding a larger amount of the tidal water between the pair of buoyancy tanks. 10. The floating tidal power generator according to claim 9, wherein the first sluice is installed in the buoyancy tank so as to be adjustable in angle, and an angle adjusting device for adjusting the angle of the first sluice is installed in the buoyancy tank. The method according to claim 2, wherein the hydraulic pressure increasing means, A second sluice for guiding the flow of algae to the power production means; And Floating tidal power generation device comprising a; mobile unit for flowing the second gate on the buoyancy means.

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