KR20120138577A - Wave force generation device using structure and rotating wing type - Google Patents

Abstract

PURPOSE: A wave power generation facility with a breakwater and rotary blades is provided to effectively produce electricity as the rotary blades rotate by the wave breaking against the breakwater. CONSTITUTION: A wave power generation facility with a breakwater(10) and rotary blades(120) comprises a circulation groove(110) and a power motor(140). The circulation groove is horizontally formed in the front side of the breakwater, and wave circulates through the circulation groove. The rotary blades are installed inside the circulation groove, and generate electricity with rotating by the wave passing through the circulation groove. A plurality of gears(130) which are engaged each other is formed on one side of the rotary blade. The power motor is connected to one side of the gear.

Description

Wave generation device using breakwater and rotating wing {Wave force generation device using structure and rotating wing type}

The present invention relates to a wave power generating device using a breakwater and a rotary wing, and more particularly, a wave power generating device using a breakwater and a rotary wing to generate power by rotating the rotary wing using the kinetic energy of the waves hitting the breakwater. It is about.

In Korea, due to the geographic characteristics of the three sides of the sea, it has a good condition to install a power generator using wave power.

Under these circumstances, the world is accelerating technology acquisition using environmentally friendly energy, and some countries are operating wave power generators.

However, since the conventional wave power generators are all installed near the sea or near the sea surface, the initial cost is increased and the kinetic energy of the waves is lowered, resulting in a small amount of power generation and difficult maintenance and management.

In addition, the breakwater plays a role of attenuating the kinetic energy generated when the wave hits the wave, but in contrast, the enormous kinetic energy generated when the wave hits the breakwater cannot be utilized. The device is desperately needed.

Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The present invention can be generated by using the kinetic energy of the wave by forming a circular groove in the horizontal direction to circulate the waves hitting the front of the breakwater, and having a rotary wing to rotate by the waves inside the circulation groove. An object of the present invention is to provide a wave power generator using a breakwater and a rotary blade.

The present invention forms a circulating groove 110 to circulate the waves in the horizontal direction on the front of the breakwater 10, the inside of the circulating groove 110, the rotary wing 120 so as to rotate when hit with the wave It is installed, the one side of the rotary blade 120 is provided with a plurality of gears 130 meshed with each other, one side of the gear 130 is characterized in that for connecting the power generation motor 140.

The present invention has the effect of maximizing the power generation efficiency by rotating the rotary blades using the kinetic energy of the waves hitting the breakwater.

In addition, since the present invention can perform the power generation function by using the breakwater that has performed a function to block the waves so far has the effect of improving the use efficiency of the breakwater as well as the range of application.

In particular, since the present invention can be generated by using a breakwater, it has the effect of reducing the installation and maintenance costs of the wave power generator installed near the sea or the sea level as in the prior art.

1 is a perspective view for showing the structure of a wave power generator using the present invention breakwater and a rotary blade.
2 is a sectional view taken along the line AA in Fig.
Figure 3 is a cross-sectional view for showing the operating state of the wave power generator using the present invention breakwater and rotary blades.

When described in detail by the accompanying drawings, the configuration of the present invention as described above are as follows.

1 is a perspective view showing the structure of a wave power generator using the breakwater and the rotary blade of the present invention, Figure 2 is a cross-sectional view taken along line AA of Figure 1, Figure 3 is an operation of the wave power generator using the breakwater and the rotary blade of the present invention The cross section for showing a state is shown.

The present invention forms a circulating groove 110 to circulate the waves in the horizontal direction on the front of the breakwater 10, the inside of the circulating groove 110, the rotary wing 120 so as to rotate when hit with the wave It is installed, one side of the rotary blade 120 is provided with a plurality of gears 130 engaged with each other, one side of the gear 130 connects the power generation motor 140.

The circulation groove 110 serves to guide the waves hitting the front of the breakwater 10 to pass through the inside and to be smooth.

At this time, the circulation groove 110 is formed in a gentle curved form from the top to the bottom is preferably formed so that the waves can naturally pass through.

In addition, the rotary blade 120 secures a rotational force capable of generating power while rotating by the waves passing through the circulation groove (110).

At this time, the bearing 121 is installed at both ends of the rotary blade 120, the bearing 121 is mounted on both sides of the breakwater (10).

In particular, the rotary blade 120 may be manufactured in the form of aberration or screw so as to smoothly rotate when the wave hits or passes through the circulation groove 110.

On the other hand, the gear 130 is configured to adjust the rotational speed by receiving the rotational force of the rotary blade 120, can maintain the power generation efficiency by increasing or decreasing the speed in a state in which a plurality of gears are engaged with each other as needed. have.

At this time, the gear 130 may be a known gear having a variety of forms and structures according to the installation and power generation efficiency.

In addition, the power generation motor 140 performs a function for generating power based on the rotational force transmitted through the gear 130.

At this time, the power motor 140 is a natural motor having a variety of configurations can be used.

Therefore, the present invention rotates the rotary blade 120 at high speed while passing through the circulation groove 110 while the wave hits the front surface of the breakwater 10 as shown in Figure 3 and the rotational force is the gear 130 By passing to the power generation motor 140 can be smoothly generated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

10: breakwater
100: wave power generation device using the present invention breakwater and rotary blades
110: circulation groove
120: rotor blade 121: bearing
130: gear 140: power motor

Claims (1)

The circulation groove 110 is formed on the front surface of the breakwater 10 so that the waves can be circulated in the horizontal direction, and the rotary blade 120 is installed inside the circulation groove 110 so as to rotate when the wave hits the wave. One side of the rotary blade 120 has a plurality of gears 130 engaged with each other, one side of the gear 130, the wave power using the breakwater and the rotating blades, characterized in that for connecting the power motor 140 Power generation device.

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