KR20110121075A - Wave Power Generation System Using Digging - Google Patents

Abstract

PURPOSE: A wave power generation system using a wave height is provided to power a generator by generating vertical kinetic energy using the potential energy change of waves. CONSTITUTION: A wave power generation system using a wave height comprises a command ship(10), floats(20), connecting rods(30), hydraulic pressure generation devices(40), intake and exhaust pipes, intake and exhaust manifolds, hydraulic motors, and generators. The command ship is floated on the water. Through grooves(14) are formed in both sides of the command ship. The floats are floated on the water at both sides of the command ship. The connecting rods are installed in one side of each float and are extended to the inside the command ship. Each hydraulic pressure generation device is composed of a piston and a cylinder and couples the ends of the connecting rod to piston rods. The intake and exhaust pipes are formed on the top of the cylinders. The intake and exhaust manifolds are formed in the ends of the intake and exhaust pipes. The hydraulic motors are connected to outlet and inlet pipes formed in one end of the intake and exhaust manifolds. The generators are powered when the hydraulic motors are rotated.

Description

Wave Power Generation System Using Digging

The present invention relates to a wave power generation system, and more particularly, to a wave power generation system using a wave height for generating a vertical kinetic energy in the vertical direction using a change in the potential energy of the wave at sea level to drive a generator by operating a hydraulic motor. .

As fossil fuels, which are used as the most fuel sources in modern society, are gradually decreasing in reserves, the future energy supply and demand prospects become opaque.

It is a power generation system that gets electricity or heat by using natural energy such as wind, sun, and waves as an alternative energy source that has begun to keep up with the problem of fossil fuel failure. Many developments using waves have been developed.

However, tidal power generation system that generates electricity in the sea is blocked by large spaces between tides, and the wave power generation system using wave potential energy has not been commercially successful.

In the existing wave power generation system, the generator housed inside the generator is located under the sea level, and the wire extending upward from the generator is connected to the buoy on the sea level, which makes it difficult to install, maintain, and repair during installation. There was a problem that the power generation device is corroded by sea water, thereby causing a problem of marine pollution.

The present invention has been made to solve this problem, the object of the present invention is to produce power at a low cost 24 hours, to minimize the corrosion of the power generation device does not reach the sea water, using the potential energy change of the wave environment It is to provide a wave power generation system using digging which is easy to install, assemble and repair without polluting the soil.

The present invention for achieving the above object, the floating on the water, the space is formed therein, and the mother wire formed through holes on both sides;

A floating port floating on water on both sides of the bus bar;

A connecting rod installed at one side of the floating port, extending into the mother bus through a through hole of the bus bar, and having one end rotatably coupled to the inside of the bus bar;

A hydraulic pressure generating device having a piston rod rotatably coupled to an end of the connecting rod, the piston being formed at an end of the piston rod and a cylinder surrounding the piston;

Intake and exhaust pipes respectively formed on the upper side of the cylinder;

An intake and exhaust manifold formed at each end of the intake and exhaust pipe;

A hydraulic motor connected to an outlet pipe and an inlet pipe respectively formed at one end of the intake / exhaust manifold;

Characterized in that the generator is made by operating the rotation of the hydraulic motor.

In addition, it characterized in that it further comprises an elastic body formed between the end of the connecting rod and one end axially rotatable inside the bus bar.

The apparatus may further include a check valve installed at one end of the intake and exhaust pipe.

In addition, it characterized in that it further comprises a sail formed on the top of the bus bar.

In addition, it characterized in that it further comprises a weight formed in the center or the upper portion of the bus bar.

Further objects and effects of the present invention will become apparent from the following detailed description, and the detailed description and examples showing the preferred embodiments of the present invention are not intended to limit the scope of the present invention.

According to the wave power generation system using the wave height according to the present invention, it is possible to produce power at low cost for 24 hours, the power generation device does not reach the sea water to minimize corrosion, without using the potential energy change of the wave to pollute the environment, It is easy to install, analogize and repair.

1 is a view showing an installation state of a wave power generation system using a wave height in accordance with the present invention.
Figure 2 is a view showing a combination of the hydraulic generator and the hydraulic motor applied to the present invention.
Figure 3 shows the operation of the generator through the hydraulic generator applied to the present invention.
Figure 4 is a view showing that the hydraulic generating device is operated by the floating sphere applied to the present invention.
5 is a view showing an operating state of the elastic body applied to the present invention.
6a and 6b is a view showing that the hydraulic generator is operated by the rolling of the bus bar applied to the present invention.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, like reference numerals designate functionally identical or similar parts throughout the drawings.

1 is a view showing an installation state of a wave power generation system using a wave height according to the present invention, Figure 2 is a view showing a combination of the hydraulic generator and the hydraulic motor applied to the present invention, Figure 3 is a hydraulic generation applied to the present invention 4 is a view showing the operation of the generator through the device, Figure 4 is a view showing the operation of the hydraulic generator by the floating sphere applied to the present invention, Figure 5 is a view showing the operating state of the elastic body applied to the present invention, 6a and 6b is a view showing that the hydraulic generator is operated by the rolling of the bus bar applied to the present invention.

1 to 3, the wave power generation system using the wave height according to the present invention is formed in the mother bus 10 and the mother bus 10 to operate the hydraulic motor 60 to operate the generator 70 The hydraulic generator 40 and the floating port 20 for operating the hydraulic generator 40 is composed of.

The bus bar 10 floats on water, has a space formed therein, and has the same shape as a normal ship whose outer shape is narrower from the upper side to the lower side.

The mother buoyancy body 12 may be further formed at an inner lower end of the mother bus 10 so that the mother bus 10 may be easily floated on the water.

Through grooves 14 are formed on both side surfaces of the bus bar 10, and a plurality of through grooves 14 are formed along the longitudinal direction of the bus bar 10.

The floating hole 20 is provided with the same number as the through groove 14 on both sides of the through groove 14 of the bus bar 10, the bus side through the through groove 14 on one side of the floating hole 20 The connecting rod 30 extending into the inside of the 10 is installed to be rotatable.

Referring to FIG. 4, the connecting rod 30 is axially coupled by the rotating shaft 32 to be rotatable inside the bus bar 10, and when the floating hole 20 rises by digging, the connecting rod 30 is connected. The end of the falling, and when the floating hole 20 is lowered again, the end of the connecting rod 30 rises.

Preferably, the connecting rod 30 has an elastic body 34 formed between an end extending into the bus bar 10 and one end axially coupled by the rotation shaft 32.

Referring to FIG. 5, the elastic body 34 prevents the connecting rod 30 from being damaged when the rotation of the connecting rod 30 exceeds the vertical operation range of the hydraulic generator 40 to be described later due to high digging. In order to increase or decrease the length of the elastic body 34, the connecting rod 30 rotated by the rotation shaft 32 stably operates the hydraulic generator 40 in the vertical direction.

2 and 3 again, the hydraulic generator 40 is rotatably coupled to the end of the connecting rod 30 and the piston rod 42 and the piston which is operated up and down by the connecting rod 30. It consists of a cylinder 46 surrounding the piston 44 formed on the top of the rod 42 to seal.

On the upper side of the cylinder 46, intake pipes 48a and exhaust pipes 48b are formed at positions facing each other.

An intake manifold 50 is provided at the end of the intake pipe 48a, and an exhaust manifold 52 is provided at the end of the exhaust pipe 48b.

At this time, it is preferable that a check valve 49 is installed at one end of the intake pipe 48a and the exhaust pipe 48b.

Again, the outlet pipe 50a and the inlet pipe 52a are formed in the intake manifold 50 and the exhaust manifold 52, respectively, and the outlet pipe 50a and the inlet pipe 52a are connected to the hydraulic motor 60. It is connected.

As described above, the oil pressure generated by the oil pressure generating device 40 moves to the exhaust manifold 52 through the exhaust pipe 48b, and the oil pressure filled in the exhaust manifold 52 is hydraulically supplied through the inlet pipe 52a. After operating the motor 60 is moved to the intake manifold 50 through the outlet pipe (50a), this flow is repeated continuously.

The hydraulic motor 60 is coupled by the generator 70 and the belt or chain so that the rotational force of the hydraulic motor 60 is transmitted to the generator 70 to generate power.

Referring to Figure 6a and 6b as another embodiment of the wave power generation system using a wave height according to the present invention, the floating port 20 is moved up and down by the wave to operate the hydraulic generator 40, of course, bus The hydraulic generator 40 may be operated by rolling in the left and right directions generated by the wind 10.

When the bus bar 10 is inclined to one side by wind, one side of the bus bar 10 moves downward instead of the floating port 20 to operate the piston rod 42 downward, and when the bus bar 10 is inclined to the other side again. One side of the bus bar 10 rises to operate the piston rod 42 upwards, and the rolling of the bus bar 10 may be repeatedly generated to operate the hydraulic generator 40.

To this end, a sail 16 is further formed at the top of the bus bar 10 to widen the area where the bus bar 10 is in contact with the wind.

The sail 16 serves to generate a rolling in which the mothership 10 is rotated in the left and right directions under a lot of wind resistance.

In addition, the weight (18) is further formed in the center or the upper portion of the bus bar 10 to reduce the restoring force during rolling of the bus bar 10 may increase the rotation angle when rolling occurs in the left and right direction of the bus bar 10. have.

The present invention may be embodied in many other forms without departing from the spirit or essential characteristics thereof. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the scope of the claims, and is not limited by the specification text. Modifications and variations falling within the scope of the appended claims all fall within the scope of the present invention.

Explanation of symbols on main parts of the drawings
10: mother bus 12: mother buoyancy body
14: through groove 16: sail
18: weight 20: float
30: connecting rod 32: rotating shaft
34: elastic body 40: hydraulic generator
42: piston rod 44: piston
46: cylinder 48a: intake pipe
48b: exhaust pipe 49: check valve
50: intake manifold 50a: outlet pipe
52: exhaust manifold 52a: inlet pipe
60: hydraulic motor 70: generator

Claims (5)

A mothership floating on water, having a space formed therein, and having through grooves formed at both sides thereof;
A floating port floating on water on both sides of the bus bar;
A connecting rod installed at one side of the floating port, extending into the mother bus through a through hole of the bus bar, and having one end rotatably coupled to the inside of the bus bar;
A hydraulic pressure generating device having a piston rod rotatably coupled to an end of the connecting rod, the piston being formed at an end of the piston rod and a cylinder surrounding the piston;
Intake and exhaust pipes respectively formed on the upper side of the cylinder;
An intake and exhaust manifold formed at each end of the intake and exhaust pipe;
A hydraulic motor connected to an outlet pipe and an inlet pipe respectively formed at one end of the intake / exhaust manifold;
Wave power generation system using a wave height, characterized in that consisting of a generator for operating by the rotation of the hydraulic motor.
The method of claim 1,
And an elastic body formed between an end of the connecting rod and one end axially coupled to be rotatable inside the bus bar.
The method of claim 1,
Wave power generation system using a wave height characterized in that it further comprises a check valve installed on one end of the intake and exhaust pipe.
The method of claim 1,
Wave power generation system using a wave height characterized in that it further comprises a sail formed on the top of the mother ship.
The method of claim 1,
Wave power generation system using a wave height characterized in that it further comprises a weight formed in the center or the upper portion of the bus bar.

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