KR20110115336A - Wave power generation unit and wave power generation ship having the same - Google Patents

Abstract

A wave power generation unit is disclosed. Wave power generation unit according to an embodiment of the present invention is a wing portion for the first vertical movement by the wave force, the connecting portion for the second vertical movement by the first vertical movement of the wing portion, the rotary portion for rotational movement by the second vertical movement of the connection portion And a power generation unit for generating electricity by the rotational movement of the rotation unit.

Description

WAVE POWER GENERATION UNIT AND WAVE POWER GENERATION SHIP HAVING THE SAME

The present invention relates to a wave power generation unit, and more particularly, to a wave power generation unit for generating power using wave power and a wave power generation vessel including the same.

In general, ships can be broadly classified into merchant ships, warships, fishing vessels and special working vessels according to their purpose of use. Merchant ships are ships whose purpose is to obtain freight income by carrying passengers or cargoes. Merchant ships are classified into cargo ships, passenger ships and passenger ships.

Among these ships, cargo ships are designed for the transportation of cargoes, and are designed to simplify and secure residential facilities, to enlarge docks, and to transport large quantities of cargo safely and promptly at once. Various facilities are provided for the safety and comfort of the passengers. Lifeguards are also provided in case of emergency.

Such a conventional vessel has a power generation facility that uses a generator engine using fossil energy to supply necessary electricity.

However, such a conventional vessel uses a generator engine using fossil energy such as diesel, and thus, the operating cost of the shelf increases due to the burden of continuously increasing oil prices, and the environment due to the combustion gas generated when burning the fossil energy. The problem of contamination has arisen. Therefore, there is a need for development of alternative energy that can cope with the cost reduction and environmental regulation of power generation.

One embodiment of the present invention can provide a wave power generation unit and a wave power generation vessel including the same that can reduce the operating cost of the vessel and at the same time minimize environmental pollution.

The first side of the present invention is connected to the wing portion to the first vertical movement by the wave force, the wing portion, and is connected to the connecting portion to the second vertical movement by the first vertical movement of the wing portion, the connecting portion, It provides a wave power generation unit which is connected to the rotating part and the rotating part by the second vertical motion of the connecting portion, and a power generation unit for generating electricity by the rotating motion of the rotating part.

The rotating part includes a first rotating plate for performing the rotational movement, and the connecting portion includes a first connecting shaft connected to a first peripheral portion of the first rotating plate to perform the second vertical movement, The wing portion may include a first plate portion connected to a second portion of the first connecting shaft to perform the first vertical motion based on the first connecting shaft and contacting waves.

And a first support shaft connected to a second peripheral portion of the first rotating plate, wherein the rotating part is spaced apart from the first rotating plate, and further connected to the first supporting shaft to perform the rotational movement. And the connecting portion further comprises a second connecting shaft connected to a first peripheral portion of the second rotating plate to perform the second vertical movement, and the first plate portion of the wing part is connected to the second connection. It is connected to the second portion of the shaft may perform the first vertical movement with respect to the second connecting shaft.

And a second support shaft connected to a second peripheral portion of the second rotating plate, wherein the rotating part is spaced apart from the second rotating plate, and further connected to the second supporting shaft to perform the rotational movement. And the connecting portion further comprises a third connecting shaft connected to a first peripheral portion of the third rotating plate to perform the second vertical movement, and the wing portion is connected to a second portion of the second connecting shaft. Connected to perform the first vertical movement based on the second connecting shaft, and are connected to the second portion of the third connecting shaft to perform the first vertical movement based on the third connecting shaft to contact the wave The second plate portion may further include.

In addition, the second aspect of the present invention includes a ship body including the bow portion and the wave generating unit is installed on the bow portion, the wing portion provides a wave generating vessel protruding in the water direction from the bow portion.

According to one of the embodiments of the present invention, by supplying the electricity required for the vessel by the wave power generation, it is possible to reduce the operating cost of the vessel and minimize the environmental pollution.

1 is a view showing a wave power generation vessel according to a first embodiment of the present invention.
FIG. 2 is a view partially shown along the direction of viewing the wave power generating vessel shown in FIG. 1.
3 is a view showing a wave power generation unit included in the wave power generation vessel according to the first embodiment of the present invention.
4 is a view showing a wave power generation unit according to a second embodiment of the present invention.
5 is a view showing a wave power generation unit according to a third embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to the illustrated.

In addition, throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding the other components unless otherwise stated. Also, throughout the specification, the term "on " means to be located above or below a target portion, and does not necessarily mean that the target portion is located on the image side with respect to the gravitational direction.

Hereinafter, a wave power generation vessel according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 3.

1 is a view showing a wave power generation vessel according to a first embodiment of the present invention. FIG. 2 is a view partially shown along the direction of viewing the wave power generating vessel shown in FIG. 1. In Figure 2 (a) is a view from the front of the wave power generating vessel shown in Figure 1, (b) is a view of the bow portion of the wave power generation vessel shown in Figure 1 as viewed from the upper side.

1 and 2, the wave power generation vessel according to the first embodiment of the present invention includes a vessel body 100 and the wave power generation unit 200.

The ship body 100 travels on the surface of the surface SS and includes a bow 110 covering the surface of the surface SS. In general, waves are generated on the surface SS, and the wave generation unit 200 to be described later generates electricity by the wave force caused by the waves.

The wave power generation unit 200 is a unit for generating electricity using wave power, and is installed in the bow portion 110 of the ship body 100. The bow portion 110 of the ship body 100 is a portion in which a lot of strong waves are generated by the relative movement between the wave and the ship body 100 when the ship body 100 is running on the surface (SS).

According to the present embodiment, the wave power generation unit 200 is installed in the bow portion 110 of the ship body 100 in which a lot of strong waves are generated, the wave power generation unit 200 is easy to use the high wave power of the strong waves. It generates a lot of electricity.

The wave power generation unit 200 includes a wing 210 to be described later. The wing 210 is exposed to the outside from the ship body 100 is in direct contact with the waves generated on the surface (SS).

Hereinafter, the wave power generation unit 200 included in the wave power generation vessel according to the first embodiment of the present invention will be described in more detail with reference to FIG. 3.

3 is a view showing a wave power generation unit included in the wave power generation vessel according to the first embodiment of the present invention.

As shown in FIG. 3, the wave power generation unit 200 includes a wing portion 210, a connecting portion 220, a rotating portion 230, a first support shaft 240, a second support shaft 250, and a power generator ( 260).

The wing part 210 is in contact with the wave, and is a portion for performing the first vertical movement UD1 by the wave force of the contacting wave. The wing portion 210 includes a first plate portion 211 and a second plate portion 212.

The first plate portion 211 has a plate shape and directly contacts the wave to perform the first vertical movement UD1 by the wave force of the wave.

One end of the first plate portion 211 is connected to the first connecting shaft 221 of the connecting portion 220 which will be described later, and the other end of the first plate portion 211 is the second connecting shaft 222 of the connecting portion 220. )

The first plate portion 211 is rotatably connected to a portion connected to each of the first connecting shaft 221 and the second connecting shaft 222.

The first plate part 211 performs the first vertical movement UD1 based on the first connecting shaft 221 and the second connecting shaft 222.

The second plate portion 212 has a plate shape similar to the first plate portion 211, and directly contacts the wave to perform the first vertical movement UD1 by the wave force of the wave.

One end of the second plate portion 212 is connected to the second connecting shaft 222 of the connecting portion 220 which will be described later, and the other end of the second plate portion 212 is connected to the third connecting shaft 223. . The second plate portion 212 is rotatably connected to a portion connected to each of the second connecting shaft 222 and the third connecting shaft 223.

Although the first plate portion 211 and the second plate portion 212 of the wave power generation unit 200 included in the wave power generation vessel according to the first embodiment of the present invention has a plate shape, according to another embodiment of the present invention The first plate portion and the second plate portion of the wave power generation unit included in the wave power generation vessel may be configured in various forms capable of performing the first vertical movement by the wave force of the wave, such as streamline, circular, or oval.

The second plate part 212 performs the first vertical movement UD1 based on the second connection shaft 222 and the third connection shaft 223.

The connection part 220 is connected between the wing part 210 and the rotating part 230, and is a part that moves up and down by the first vertical motion UD1 of the wing part 210. The connection part 220 includes a first connecting shaft 221, a second connecting shaft 222, and a third connecting shaft 223.

The first connecting shaft 221 has a rod shape and performs a second vertical movement UD2 by the first vertical movement UD1 of the first plate portion 211.

The first connecting shaft 221 connects between the wing 210 and the rotating unit 230, and is connected to the first rotating plate 231 of the rotating unit 230 to be described later.

More specifically, the first portion 221a of the first connecting shaft 221 is connected to the first rotating plate 231, and the second portion 221b of the first connecting shaft 221 is the first plate portion 211. By being connected to one end of the first, when the first plate portion 211 performs the first vertical movement (UD1) based on the second connecting shaft 222, the first vertical movement of the first plate portion 211 ( The first connecting shaft 221 performs the second vertical movement UD2 by the UD1.

The first connecting shaft 221 is rotatably connected to the portion connected to the first plate portion 211.

The second connecting shaft 222 has a rod shape, and performs the second vertical movement UD2 by the first vertical movement UD1 of each of the first plate portion 211 and the second plate portion 212.

The second connecting shaft 222 connects between the wing 210 and the rotating unit 230, and is connected to the second rotating plate 232 of the rotating unit 230 to be described later.

More specifically, the first portion 222a of the second connecting shaft 222 is connected to the second rotating plate 232, and the second portion 222b of the second connecting shaft 222 is the first plate portion 211. By being connected to the other end of the) and one end of the second plate portion 212, the first plate portion 211 performs the first vertical movement (UD1) with respect to the first connecting shaft 221 and at the same time the second When the plate part 212 performs the first up and down motion UD1 based on the third connecting shaft 223, the plate part 212 may be formed by the first up and down motion UD1 of the first plate part 211 and the second plate part 212. The second connecting shaft 222 performs the second vertical movement UD2.

The second connecting shaft 222 is rotatably connected based on a portion connected to each of the first plate portion 211 and the second plate portion 212.

The third connecting shaft 223 has a rod shape, and performs the second vertical movement UD2 by the first vertical movement UD1 of the second plate portion 212.

The third connecting shaft 223 connects between the wing 210 and the rotating unit 230, and is connected to the third rotating plate 233 of the rotating unit 230 to be described later.

More specifically, the first portion 223a of the third connecting shaft 223 is connected to the third rotating plate 233, and the second portion 223b of the third connecting shaft 223 is the second plate portion 212. When the second plate portion 212 performs the first vertical movement UD1 with respect to the second connecting shaft 222, the first plate downward movement of the second plate portion 212 is performed. The third connecting shaft 223 performs the second vertical movement UD2 by the UD1. The third connecting shaft 223 is rotatably connected to the portion connected to the second plate portion 212.

The first connecting shaft 221, the second connecting shaft 222 and the third connecting shaft 223 of the wave power generating unit 200 included in the wave power generating vessel according to the first embodiment of the present invention have a rod shape. However, the first connecting shaft, the second connecting shaft and the third connecting shaft of the wave power generating unit included in the wave power generating vessel according to another embodiment of the present invention is made of a bent rod, streamline, circular, or oval It may be configured in various forms capable of performing the second vertical movement by the vertical movement.

The rotating part 230 is connected to the connecting part 220 and is a part which rotates by the second vertical motion UD2 of the connecting part 220. The rotating unit 230 includes a first rotating plate 231, a second rotating plate 232, and a third rotating plate 233.

The first rotating plate 231 has a circular shape and performs the rotational movement CY by the second vertical movement UD2 of the first connecting shaft 221.

In more detail, the first connecting portion 221a of the first connecting shaft 221 is connected to the first peripheral portion 231a of the first rotating plate 231, so that the first connecting shaft 221 is second up and down. When the movement UD2 is performed, the first rotating plate 231 performs the rotation movement CY by the second vertical movement UD2 of the first connecting shaft 221.

The second rotating plate 232 is spaced apart from the first rotating plate 231. The first rotating plate 231 is rotatably connected based on a portion connected to the first connecting shaft 221.

The second rotating plate 232 is spaced apart from the first rotating plate 231 and has a circular shape, and performs the rotational movement CY by the second vertical movement UD2 of the second connecting shaft 222.

In more detail, the first connecting portion 222a of the second connecting shaft 222 is connected to the first peripheral portion 232a of the second rotating plate 232, so that the second connecting shaft 222 is second up and down. When the movement UD2 is performed, the second rotating plate 232 performs the rotational movement CY by the second vertical movement UD2 of the second connecting shaft 222. The second rotating plate 232 is rotatably connected to the portion connected to the second connecting shaft 222.

The third rotating plate 233 is spaced apart from the second rotating plate 232 and has a circular shape, and performs the rotational movement CY by the second vertical movement UD2 of the third connecting shaft 223.

In more detail, the first connecting portion 223a of the third connecting shaft 223 is connected to the first peripheral portion 233a of the third rotating plate 233, so that the third connecting shaft 223 is second up and down. When the movement UD2 is performed, the third rotating plate 233 performs the rotation movement CY by the second vertical movement UD2 of the second connecting shaft 222.

The third rotating plate 233 is rotatably connected based on the portion connected to the third connecting shaft 223.

Although the first rotating plate 231, the second rotating plate 232, and the third rotating plate 233 of the wave generating unit 200 included in the wave generating vessel according to the first embodiment of the present invention have a circular shape, The first rotary plate, the second rotary plate and the third rotary plate of the wave power generation unit included in the wave power generation vessel according to another embodiment of the present invention perform the rotary motion by the second vertical motion of the connecting portion such as a streamline, rod, or ellipse. It can be configured in various forms.

The first support shaft 240 has a rod shape, is connected to the second peripheral portion 231b of the first rotating plate 231, and is spaced between the first rotating plate 231 and the second rotating plate 232 spaced apart from each other. Is connecting.

The first support shaft 240 is supported by the first rotating plate 231 and the second rotating plate 232 so that the rotational movements of the first rotating plate 231 and the second rotating plate 232 are performed in the same phase. The rotational movement is performed by the rotational movement of the 231 and the second rotating plate 232.

The first support shaft 240 is rotatably connected to a portion connected to each of the first rotating plate 231 and the second rotating plate 232.

The second support shaft 250 has a rod shape, is connected to the second peripheral portion 232b of the second rotating plate 232, and is spaced between the second rotating plate 232 and the third rotating plate 233 spaced apart from each other. Is connecting.

The second support shaft 250 is supported by the second rotating plate 232 and the third rotating plate 233 so that the rotational movement of the second rotating plate 232 and the third rotating plate 233 is performed in the same direction, and thus the second rotating plate ( The rotational motion is performed by the rotational motion of 232 and the third rotating plate 233.

The second support shaft 250 is rotatably connected based on a portion connected to each of the second rotating plate 232 and the third rotating plate 233.

That is, the first support shaft 240 connects between the first rotating plate 231 and the second rotating plate 232, and the second supporting shaft 250 is the second rotating plate 232 and the third rotating plate 233. By connecting between them, the rotational motion of the first rotating plate 231, the second rotating plate 232, and the third rotating plate 233 is performed in the same direction.

Furthermore, the rotational movement of the first rotating plate 231, the second rotating plate 232, and the third rotating plate 233 is performed in the same direction, such that the first connecting shaft 221 and the second connecting shaft ( 222 and the third connecting shaft 223 performs the second vertical movement UD2 along the predetermined path, and at the same time, the first plate portion 211 and the second plate portion 212 of the wing portion 210 follow the defined path. Accordingly, the first vertical movement UD1 is performed.

Although the first support shaft 240 and the second support shaft 250 of the wave power generation unit 200 included in the wave power generation vessel according to the first embodiment of the present invention have a rod shape, another embodiment of the present invention The first support shaft and the second support shaft of the wave power generating unit included in the wave power generating vessel according to the example have the same rotational motion of the first rotating plate, the second rotating plate, and the third rotating plate such as a bent rod, streamline, circular, or oval. It can be configured in various forms that can be performed in the direction.

The power generating unit 260 is connected to the rotating unit 230, and is connected to each of the first rotating plate 231, the second rotating plate 232, and the third rotating plate 233 of the rotating unit 230, and thus, the first rotating plate 231. Electricity is generated by the rotational movement of each of the second and second rotary plates 232 and 233.

Electricity generated by the power generation unit 260 may be charged in a storage battery (not shown), and the electricity may be used in fields related to the operation of the ship body 100.

As described above, the wave power generation vessel according to the first embodiment of the present invention includes a wave power generation unit 200 for generating electricity by using the wave power of the wave, it is possible to supply the electricity required for the wave power generation vessel using wave power generation. Therefore, it is possible to reduce the operating cost of the wave-powered ship and at the same time reduce the use of fossil energy, thereby minimizing the environmental pollution caused by the burning of fossil energy.

Hereinafter, a wave power generation unit according to each of the second and third embodiments of the present invention will be described with reference to FIGS. 4 and 5.

Hereinafter, only the characteristic parts distinguished from the first embodiment will be described and described, and the descriptions thereof will be omitted according to the first embodiment. Incidentally, in the second and third embodiments of the present invention, for the convenience of description, the same components will be described with the same reference numerals as in the first embodiment of the present invention.

4 shows a wave power generation unit 202 according to a second embodiment of the present invention.

As shown in FIG. 4, the wave power generation unit 202 according to the second embodiment of the present invention includes a wing portion 210, a connection portion 220, a rotation portion 230, a first support shaft 240, and a power generation portion. 260.

The wing portion 210 includes a first plate portion 211, the connection portion 220 includes a first connecting shaft 221 and a second connecting shaft 222, and the rotating portion 230 includes the first rotating plate 231. ) And the second rotating plate 232.

As described above, the wave power generation unit 202 according to the second embodiment of the present invention includes a wave power generation unit 202 for generating electricity by using the wave power of the waves, thereby using the wave power generation Because it can be supplied, it is possible to reduce the operating cost of wave-powered vessels and reduce the use of fossil energy, thereby minimizing the environmental pollution caused by the burning of fossil energy.

In addition, the wave power generation unit 202 according to the second embodiment of the present invention is implemented in a simpler configuration than the wave power generation unit 200 according to the first embodiment described above, the wave power generation unit 200 according to the first embodiment It can be installed on a small ship compared to).

 5 is a view showing a wave power generation unit 203 according to the third embodiment of the present invention.

As shown in FIG. 5, the wave power generation unit 203 according to the third embodiment of the present invention includes a wing portion 210, a connection portion 220, a rotation portion 230, and a power generation portion 260.

The wing portion 210 includes a first plate portion 211, the connecting portion 220 includes a first connecting shaft 221, and the rotating portion 230 includes a first rotating plate 231.

The first plate portion 211 is connected to the first connecting shaft 221 so as to be rotatable with respect to the first connecting shaft 221, or the first plate portion 211 and the first connecting shaft 221 are integrally formed. Can be.

In addition, the first connecting shaft 221 may be connected to various points of the first plate portion 211, which may correspond to the point of the vessel in which the wave power generating unit 203 according to the third embodiment of the present invention is installed. Can be applied.

As described above, the wave power generation unit 203 according to the third embodiment of the present invention includes a wave power generation unit 203 for generating electricity by using wave power of waves, thereby using wave power generation to generate electricity required for the wave power generation vessel. Because it can be supplied, it is possible to reduce the operating cost of wave-powered vessels and reduce the use of fossil energy, thereby minimizing the environmental pollution caused by the burning of fossil energy.

In addition, the wave power generation unit 203 according to the third embodiment of the present invention is implemented in a simpler configuration than the wave power generation unit 202 according to the second embodiment described above, the wave power generation unit 202 according to the second embodiment It can be installed on a small ship compared to).

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the following claims. Those who are engaged in the technology field will understand easily.

210 wing 220 connection
230 rotating part 260 generating part

Claims (5)

A wing portion configured to move up and down by a wave force;
A connecting part connected to the wing part and configured to perform a second vertical motion by the first vertical motion of the wing part;
A rotating part connected to the connection part and configured to rotate by a second vertical motion of the connection part; And
A power generation unit connected to the rotation unit and generating electricity by a rotational movement of the rotation unit;
Wave power generation unit comprising a.
The method of claim 1,
The rotating part includes a first rotating plate for performing the rotational movement,
The connecting part includes a first connecting shaft connected to a first peripheral portion of the first rotating plate to perform the second vertical movement.
The wing unit is connected to a second portion of the first connecting shaft to perform the first vertical movement based on the first connecting shaft, and a wave power generation unit including a plate-like first plate portion in contact with the wave.
The method of claim 2,
Further comprising a first support shaft connected to the second peripheral portion of the first rotating plate,
The rotation unit includes:
A second rotary plate spaced apart from the first rotary plate and connected to the first support shaft to perform the rotary motion;
The connecting portion,
Further comprising a second connecting shaft connected to the first peripheral portion of the second rotating plate to perform the second vertical movement,
The first plate portion of the wing portion is coupled to the second portion of the second connecting shaft is a wave power generation unit for performing the first vertical movement based on the second connecting shaft.
The method of claim 3,
Further comprising a second support shaft connected to the second peripheral portion of the second rotating plate,
The rotation unit includes:
A third rotary plate spaced apart from the second rotary plate and connected to the second support shaft to perform the rotary motion;
The connecting portion,
Further comprising a third connecting shaft is connected to the first peripheral portion of the third rotating plate to perform the second vertical movement,
The wing portion,
The first vertical movement is connected to the second portion of the second connecting shaft to perform the first vertical movement based on the second connecting shaft, and the second vertical axis is connected to the second portion of the third connecting shaft. And a second plate portion in the form of a plate in contact with the waves.
A ship body including a bow and
Installed in the bow portion, wave power generation unit according to any one of claims 1 to 4.
Including;
The wing portion is a wave-powered ship protruding from the bow portion in the water direction.

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