KR101357391B1 - Generator using force of wave - Google Patents

Abstract

The present invention relates to a wave power generator, in the state of being installed in shallow water, such as the shallow and low tide to generate electricity at a higher efficiency as well as the simple structure of the structure can greatly reduce the manufacturing cost, in particular, The blade of the can be smoothly unfolded according to the flow direction of the high tide and low tide there is no effect that the electricity generation is not reduced.

Description

Wave Power Generator {GENERATOR USING FORCE OF WAVE}

The present invention not only generates electricity with high efficiency by the high water and the low tide in the state of being installed in shallow water, etc., but also the structure is simple, the manufacturing cost can be greatly reduced, in particular, a plurality of blades high and low tide The present invention relates to a wave power generator which can be smoothly unrolled according to the flow direction of the power generator, so that the amount of electricity generated is not reduced.

In general, a power generation system is a device for generating electricity, and is classified into a thermal power generator, a hydroelectric generator, a nuclear power generator, a wind power generator, and an tidal power generator by an operation medium.

Conventional electricity is mostly produced by thermal or nuclear power generators, but these generators generate electricity by using natural resources, and thus their use is limited, and these generators emit substances that hinder the environment, and thus their use is limited. Should be.

Therefore, in recent years, efforts have been made to develop a generator using natural forces such as currents and wave forces.

Among these, the current generator is an Anchan bridge platform supported on the sea floor and a number of turbines are installed on the platform to respond to the movement of the current to generate power.

However, the above-mentioned current generator has a problem that it is difficult to install on the sea bottom because it is necessary to install a turbine with an inner leg platform.

In order to solve the above problems, in recent years, a wave power generation system using a high tide and a low tide that can be produced not only in the case of high tide but also in the case of low tide is easy to construct on the sea bottom.

However, in the case of the wave power generation system, the blade rotated according to the flow direction of the high tide and the low tide does not spread smoothly along the flow direction of the high tide and the low tide, and thus there is a problem that the amount of electricity generated decreases.

The present invention was created in order to solve the above-described problems, it is possible to generate electricity with higher efficiency by high water and low tide in a state where water depth is installed in shallow shores, etc., and its structure is simple, which can greatly reduce the manufacturing cost. In particular, it is an object of the present invention to provide a wave generator with a plurality of blades can be smoothly unfolded along the flow direction of the high and low tide, there is no fear that the amount of electricity generated.

The present invention for achieving the above object is a frame; A rotating body comprising one side rotating body and the other side rotating body axially coupled to one side of the frame and the other side of the frame, respectively; A rotating member wound around one rotating body and the other rotating body of the rotating body; A plurality of blades having a lower side axially coupled to the rotating member so that the rotating member is provided at a predetermined interval; A connecting member having a lower side connected to one of the plurality of blades so as to be positioned between the plurality of blades, and an upper side connected to an upper side of the other blade adjacent to any one of the blades; It provides a wave generator characterized in that it comprises a; generator coupled to the rotating body.

Here, the rotating member is preferably made of a chain.

Alternatively, the rotating member is preferably made of a belt.

Furthermore, it is preferable that the tension adjusting member for adjusting the tension of the rotating member is provided.

In particular, the lower side of the connecting member is preferably connected to the surface portion between the lower side and the upper side of any one of the plurality of blades.

Here, the connection member is preferably made of a wire.

Alternatively, the connection member is preferably made of a chain.

The present invention not only generates electricity with high efficiency by the high water and the low tide in the state of being installed in shallow water, etc., but also the structure is simple, the manufacturing cost can be greatly reduced, in particular, a plurality of blades high and low tide It can be smoothly unfolded according to the flow direction of the effect that there is no fear of lowering the amount of electricity generated.

1 is a front view schematically showing a wave power generator which is an embodiment of the present invention,
2 is a partially enlarged front view of an enlarged blade;
3 is a sectional view taken along the line A-A in Fig. 1,
4 is a partially enlarged cross-sectional view illustrating an enlarged tension adjusting unit of FIG. 1;
5 and 6 are front views schematically showing a rotation state of the rotating body of Figure 1,
7 is a plan view schematically showing a wave power generator which is another embodiment of the present invention;
FIG. 8 is a cross-sectional view taken along line BB of FIG. 7.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a front view schematically showing a wave power generator according to an embodiment of the present invention, FIG. 2 is a partially enlarged front view of an enlarged blade 40, and FIG. 3 is a cross-sectional view taken along line AA of FIG.

As shown in FIGS. 1 to 3, the wave generator is an embodiment of the present invention, such as a frame 10, a rotating body 20, a rotating member 30, a plurality of blades 40, a connecting member 50, and a generator ( 60).

First, the frame 10 may be formed in a rectangular shape or the like.

The frame 10 may be installed at a predetermined height on a shallow shore.

For example, the frame 10 may be erected vertically in a state in which the lower surface of the frame 10 faces the ground such as a shallow shore, orthogonal to the ground such as a shallow shore.

On one side of the lower surface of the frame 10 and the other side of the lower surface of the frame 10, leg portions 110 extending vertically in a predetermined length in the lower direction of the frame 10 may be formed, respectively. The lower side of the 110 may be inserted into a fixed depth to the ground, such as the shallow shore.

Next, the rotating body 20 is composed of one rotating body 210 and the other rotating body 220 as shown in FIG.

The central axis 211 of the one side rotating body 210 may be coupled to the front side of the frame 10 so as to be capable of forward and reverse rotation.

The central shaft 221 of the other side rotating body 220 may be coupled to the other side of the front surface of the frame 10 so as to be capable of forward and reverse rotation.

Next, one side of the rotating member 30 is wound on the outer circumferential surface of the one side rotating body 210, the other side of the rotating member 30 is wound on the outer circumferential surface of the other rotating body 220.

Protruding pieces 310 protruding outwardly of the rotating member 30 may be formed at a predetermined interval on a surface of the rotating member 30.

The rotating body 20 may be formed of a pulley, a timing gear, a sprocket, and the like.

When the rotating body 20 is made of a pulley, the rotating member 30 may be made of a general belt wound around the outer peripheral surface of the rotating body 20 made of a pulley,

When the rotating body 20 is made of a timing gear, the rotating member 30 may be made of a timing belt wound around the outer circumferential surface of the rotating body 20 made of a timing gear.

When the rotating body 20 is made of a sprocket, the rotating member 30 may be made of a chain wound on the outer circumferential surface of the rotating body 20 made of a sprocket.

In particular, in order to prevent slip between the rotating body 20 and the rotating member 30, the rotating body 20 is made of a timing gear, and the rotating member 30 is made of a timing gear. It is preferable that the timing belt is wound around the outer circumferential surface of 20).

Next, the lower side of the plurality of blades 40 as shown in Figure 2 so that the plurality of blades 40 are provided on the surface of the rotating member 30 at a predetermined interval as shown in Figure 2 It may be coupled to the rotating member 30 by a connecting shaft 410 penetrating the lower side of the 310 and the plurality of blades 40, respectively.

The plurality of blades 40 positioned above the rotating member 30 may be formed in an arc shape convex toward the other side of the frame 10 at one side of the frame 10.

The plurality of blades 40 positioned below the rotating member 30 may be formed in an arc shape convex toward one side of the frame 10 at the other side of the frame 10.

The upper side of the plurality of blades 40 on the basis of the lower side of the plurality of blades 40 can be folded down and folded while rotating in the direction of the rotating member 30 by high water and low tide,

In addition, the upper side of the plurality of blades 40 may be raised and unfolded while rotating in the outward direction of the rotating member 30 by the high and low tide (see FIGS. 5 and 6).

Next, the connection member 50 may be located between each of the plurality of blades (40).

More specifically, the connection member 50 may be made of a wire, a chain or the like.

The lower side of the connection member 50 may be connected and fixed to the front of the blade 40 of any one of the plurality of blades (40).

The upper side of the connection member 50 may be connected and fixed to the front upper side of the other blade 40 adjacent to any one of the blade 40.

The lower side of the connection member 50 may be connected and fixed to a surface portion between the front lower side of the one of the blades 40 of the plurality of blades 40 and the front upper side of any one of the blades 40. .

In particular, the connecting member 50 may be inclined upward in the upper direction of the other rotating body 220 from the lower side to the upper side so that the plurality of blades 40 can be smoothly unfolded by the high and low tide.

To this end, the lower side of the connection member 50 is the front of any one of the blades 40 to be located in the upper direction of the connecting shaft 410 of any one of the blades 40 of the plurality of blades (40) Can be fixed to the lower side.

4 is an enlarged partial cross-sectional view of the tension control unit 70 of FIG.

Next, as shown in Figure 1, the upper middle portion of the rotating member 30 may be provided with a tension adjusting member 70 for adjusting the tension of the rotating member (30).

The tension control member 70 is made of a known tension device provided in the upper middle portion of the rotating member 30, or as shown in Figure 4, the rotary tube 710, one side shaft 720 and the other It may be configured as a side axis 730.

The rotating tube 710 may be horizontally provided at the upper middle portion of the rotating member 30.

One side of the one side shaft 720 may be integrally connected to one side of the upper middle portion of the rotating member (30).

The other side of the one side shaft 720 may be screwed into the inside of one side of the rotary tube 710.

One side of the other side shaft 730 may be screwed into the other side of the rotary tube 710.

The other side of the other side shaft 730 may be integrally connected to the other side of the upper middle portion of the rotating member (30).

The outer circumferential surfaces of the one side shaft 720 and the other side shaft 730 may be formed with symmetrical threads.

When the worker rotates the rotary tube 710 in the forward direction, the one side shaft 720 and the other side shaft 730 in both sides of the rotary tube 710 in both sides of the rotary tube 710 in the outer direction, respectively It may be withdrawn, which may cause the rotating member 30 to be loosened.

When the worker rotates the rotary tube 710 in the reverse direction, the one side shaft 720 and the other side shaft 730 is in both the inner direction of the both sides of the rotary tube 710 at both outside of the rotary tube 710 It may be pulled in, which may cause the rotating member 30 to be taut.

5 and 6 are front views schematically showing a rotation state of the rotating body 20 of FIG.

In the case of high water flowing in the other direction of the frame 10 from one side of the frame 10, as shown in Figure 5 the plurality of blades 40 located on the top of the rotating member 30 due to the high water In addition to being expanded in the outward direction of the rotating member 30, the connecting member 50 is expanded,

The plurality of blades 40 positioned below the rotating member 30 are folded toward the rotating member 30 due to the high water, and the connection member 50 is contracted, and the rotating body 20 The rotating member 30 is rotated in the forward direction.

In the case of the low tide flowing in one direction of the frame 10 from the other side of the frame 10, as shown in Figure 6 the plurality of blades 40 located on the top of the rotating member 30 due to the low tide In addition to being folded in the direction of the rotating member 30, the connecting member 50 is contracted,

The plurality of blades 40 positioned below the rotating member 30 extend outwardly of the rotating member 30 due to a low tide and the connection member 50 is expanded, and the rotating body 20 And the rotating member 30 is rotated in the forward direction.

Next, as shown in FIG. 3, the shaft 601 of the generator 60 is the central axis 211 of the one rotating body 210 of the rotating body 20 or the central axis of the other rotating body 220 ( The generator 60 may be provided in a state where the bolt is fixed to one side of the rear side of the frame 10 or the other side of the rear side of the frame 10 in a state coupled with the 221.

The shaft 601 of the generator 60 is rotated in the forward direction along the one side of the rotating body 210 or the other side of the rotating body 220, the generator 60 is to generate electricity.

FIG. 7 is a plan view schematically illustrating a wave generator as another embodiment of the present invention, and FIG. 8 is a cross-sectional view taken along line BB of FIG. 7.

Next, the wave generator, which is another embodiment of the present invention, is the frame 10, the rotating body 20, the rotating member 30, and the plurality of blades 40 as shown in FIGS. 7 and 8 as in the exemplary embodiment. ), Including a connecting member 50 and the generator 60,

The frame 10 may be laid horizontally in parallel with the ground, such as a beach, such as a shallow shore, while the rear surface of the frame 10 faces a ground, such as a shallow beach.

In addition, the leg part 110 may be vertically formed at one rear side of the frame 10 and the other rear side of the frame 10.

The present invention configured as described above can generate electricity with high efficiency by high water and low tide in a state where water depth is installed on the shore and the like, and its structure is simple, so that the manufacturing cost can be greatly reduced. Blade 40 can be smoothly unfolded according to the flow direction of the high and low tide there is an advantage that there is no fear that the amount of electricity generated.

10; Frame, 20; Rotating Body,
30; Rotating member 40; blade,
50; A connecting member, 60; generator.

Claims (7)

A frame 10;
A rotating body (20) comprising one side rotating body (210) and the other side rotating body (220) which are axially coupled to one side of the frame (10) and the other side of the frame (10), respectively;
A rotating member 30 wound around one rotating body 210 and the other rotating body 220 of the rotating body 20;
The lower side is axially coupled to the rotating member 30 so that the rotating member 30 is provided at a predetermined interval, and the upper side is folded and rotated in the direction of the rotating member 30 by the high water and the low tide based on the lower side. A plurality of blades 40 which are spread out by rotating in the outer direction of the rotating member 30;
A lower side is connected to the blade 40 of any one of the plurality of blades 40 so as to be located between each of the plurality of blades 40, and an upper side thereof is adjacent to the one of the blades 40. Connection member 50 is connected to the upper side of the;
And a generator 60 axially coupled with the rotor 20.
The method of claim 1,
The rotating member 30 is a wave generator, characterized in that consisting of a chain.
The method of claim 1,
The rotating member 30 is a wave generator, characterized in that consisting of a belt.
The method of claim 1,
Wave generator, characterized in that provided with a tension control member 70 for adjusting the tension of the rotating member (30).
The method of claim 1,
The lower side of the connecting member 50 is a wave generator, characterized in that connected to the surface portion between the lower side and the upper side of any one of the plurality of blades (40).
The method of claim 1,
The connecting member 50 is a wave generator, characterized in that consisting of a wire.
The method of claim 1,
The connecting member 50 is a wave generator, characterized in that consisting of a chain.

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