KR101378138B1 - Wave force generation system using floating structure - Google Patents

Abstract

The present invention relates to a wave power generation system using floating materials. The present invention provides a wave power generation system using floating materials comprising: a power generation body having an accommodating part accommodating waves and a wave induction part improving a horizontal force of the waves; buoyant barrels provided in a plural number at positions opposite to each other on both sides of the power generation body, and operated by a vertical force of the waves; an electricity generation housing provided on the upper part of the power generation body, and having an electricity generation part to generate electricity using the horizontal and vertical forces of the waves; and a power generation part including a fixing shaft having a power transmission member connected to the buoyant barrels to receive the vertical force thereof, a power generation means receiving the horizontal and vertical forces of the waves from the fixing shaft and generating power while being operated from left to right, a piston housing fixing the power generation means to the electricity generation housing, and a rotary door operating the power generation means by using the horizontal force of the waves; and a transfer shaft configured to transfer, to the electricity generation part, power generated by the power generation part.

Description

Wave force generation device using floating material {Wave force generation system using floating structure}

The present invention relates to a wave power generator using a float. More specifically, by operating the buoyancy cylinder through the horizontal and vertical kinetic energy of the waves that are often generated or destroyed in the ocean to generate power by generating power such as air pressure, inflow and water pressure required to drive the turbine and generator, power generation efficiency And not only to improve the amount of power generation, but also easy to manufacture, maintenance and maintenance, and relates to a wave power generation apparatus using a floating material with extremely low initial investment and operating costs.

In general, marine energy has no merit to be exhausted by the temperature difference of blue, tide, algae, ocean current, and sea water, and it is not only abundant enough to meet human energy demand but also has no pollution It is possible to overcome the problems such as lack of energy resources due to soaring energy demand and increase of energy resources, and it is possible to overcome the environmental pollution which is one of the biggest problems of the fossil energy currently used as the main energy source and the global warming problem It is the next generation energy source.

Therefore, various kinds of marine power generation methods capable of producing electricity using marine energy having these advantages have been developed and used experimentally. The types of marine power generation methods include tidal power generation, wave power generation, temperature difference generation, Ocean power generation, wind power generation, and salinity generation.

Wave power generation is a method of acquiring power for power generation using up and down kinetic energy of waves. In the wave power generation device, a stationary wave power generation system that rotates a generator by causing a floating body on the surface to move up or down by blue movement. Floating wave power generation device that generates electricity by rotating turbine using the flow of air passing through the nozzle when the air in the air chamber is compressed and expanded due to the action of the device and the blue wave. .

A wave power generation system according to the prior art is disclosed in Korean Patent Registration No. 0989594 (Oct. 18, 2010). The wave power generation system according to the related art includes a floating structure that is installed on the sea surface and reciprocates in a vertical direction by a wave height difference, A screw connection portion having one end connected to one side of the lower end and a screw thread formed on the other end thereof, a rotating device connected to the threaded portion of the threaded connection portion at one side thereof and rotating according to the axial movement of the threaded connection portion, And a connection part having one side connected to the other side of the rotating device and the other side fixed to the sea floor through the fixing part.

In the case of a floating wave power generator, power is generated by using the air flow that changes according to the water level difference caused by the vertical motion of the wave, so that the power generation is performed by utilizing all of the wave energy in which the vertical motion and the horizontal motion occur at the same time There is a problem that power generation efficiency is deteriorated.

In addition, the conventional wave power generation system is complicated in its structure and is not easy to install, and thus there is a problem in that efficiency of power generation is not large

(Patent Document 1) Korean Patent No. 0989594 (Oct. 18, 2010)

In order to solve this problem, the present invention operates the buoyancy cylinder through the horizontal and vertical kinetic energy of the waves that are often generated or extinguished in the ocean to produce power such as air pressure, inflow and hydraulic pressure required to drive the turbine and generator. The purpose of the present invention is not only to improve power generation efficiency and power generation, but also to provide a wave power generation apparatus using floating materials that are easy to manufacture, easy to maintain, and have extremely low initial investment and operation costs.

In addition, the present invention is to increase the flow force of the wave in the process of the wave flowing into one side of the power generation body portion to the other side, by further maximizing the horizontal movement force of the wave power generation efficiency using the horizontal force of the wave The goal is to maximize this further.

The present invention for achieving the above object is a power generation body portion formed with a receiving portion for receiving the wave, and a wave guide portion for improving the horizontal force of the wave; Buoyancy cylinders are installed in a plurality of positions on opposite sides of the power generating body portion opposed to each other to operate by the vertical force of the wave; A power generation housing configured at an upper portion of the power generation main body and configured to generate power through horizontal and vertical forces of waves; A fixed shaft having a power transmission member connected to the buoyancy cylinder to receive the vertical force of the buoyancy cylinder, and receiving the horizontal force and the vertical force of the wave from the fixed shaft to operate left and right to generate power such as air pressure, inflow and hydraulic pressure. A power generator comprising a power generating means, a piston housing for fixing the power generating means to the power generation housing, and a rotary door for operating the power generating means by using horizontal force of waves; And it provides a wave power generation apparatus using a float, characterized in that it comprises a transfer shaft for transferring the power generated from the power generation unit to the power generation unit.

In addition, in the present invention, the buoyancy cylinder is fixed wire is configured so that one side and the other side is respectively connected to the fixed shaft and the power generating body portion, the connection wire for transmitting the vertical force of the wave to the fixed shaft side is configured to rotate the power transmission member It provides a wave power generator using a float characterized in that the.

In addition, in the present invention, the fixing wire has a predetermined elastic force, it provides a wave power generation apparatus using a float, characterized in that for supporting the up and down movement of the buoyancy cylinder by this elastic force.

In addition, in the present invention, the transfer shaft is characterized in that the floating tank is characterized in that the compression tank is stored in the input power is stored so as to maintain the transfer amount of the power supplied from the power generating unit and the transfer pipe for supplying power to the power generation unit side. It provides a wave power generator using.

In the present invention, the compression tank is composed of a pressure gauge panel capable of confirming the compression amount and the storage amount of the power, and an over safety pin for discharging the power when the storage amount of the power stored in the compression tank exceeds the limit. It provides a wave power generator using a float characterized in that the.

In addition, in the present invention, the transfer pipe provides a wave power generation apparatus using a float, characterized in that a pressure regulator for adjusting the supply amount of power supplied to the power generation unit side according to the compression amount of the power.

In addition, in the present invention, the power generation unit is supplied with power received in the transfer shaft, the turbine to rotate the power by the power, a generator for producing a predetermined electric power according to the amount of rotation of the turbine and a capacitor in which the generated power is stored It provides a wave power generation apparatus using a float comprising a.

According to the present invention, by operating the buoyancy cylinder through the horizontal and vertical kinetic energy of the waves that are often generated or extinguished in the ocean to produce the power required to drive the turbine and generator to generate power, thereby improving power generation efficiency and power generation In addition, it is easy to manufacture, easy to maintain, and has an extremely low initial investment and operation cost.

In addition, according to the present invention, by allowing the flow force of the wave to be increased in the course of the wave flowing into one side of the power generation body portion to the other side, by using the horizontal force of the wave further maximize the horizontal movement force of the wave There is an effect that can further maximize the power generation efficiency.

1 is a plan view showing a wave power generator using a float according to a preferred embodiment of the present invention,
Figure 2 is a side cross-sectional view showing a wave power generating device using a float according to a preferred embodiment of the present invention,
3 is an enlarged view illustrating main parts of FIG. 2 according to a preferred embodiment of the present invention;
Figure 4 is a side view showing a buoyancy cylinder structure of the wave power generator using the floating according to a preferred embodiment of the present invention,
5 is a front view showing a wave power generating apparatus using a float according to a preferred embodiment of the present invention,
6 to 9 is an operating state diagram showing a wave power generation apparatus using a float according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a plan view showing a wave power generator using a float according to a preferred embodiment of the present invention, Figure 2 is a side cross-sectional view showing a wave power generator using a float according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention 2 is an enlarged view of a main part of FIG. 2, FIG. 4 is a side view illustrating a buoyancy structure of a wave power generator using a float according to a preferred embodiment of the present invention. FIG. 5 is a view illustrating a buoyant tube structure according to a preferred embodiment of the present invention. 6 to 9 is an operational state diagram showing a wave power generator using a float according to a preferred embodiment of the present invention.

As shown, the wave power generator of the present invention is the power generation unit 110, which is installed to enable the power generation using the force of the wave, such as a breakwater, or the coastal power generator, power generation using the force of the wave Power generation such as the power generation housing 120 is installed inside the power generation system 120, buoyancy cylinder 130 for converting the vertical movement of the wave into power, and the pneumatic pressure, hydraulic pressure and hydraulic pressure generated through the power generating unit 200 Inflow, the transfer shaft 140 for transferring this power to the power generation unit 160, the compression tank 150, the power generated by the power generating unit 200 is stored, the power required for driving the generator 164 It is configured to include a power generation unit 200 to generate and a power generation unit 160 for producing electric power based on the power generated from the power generation unit 200.

The power generation unit 110 is installed in the sea, such as a breakwater, a seashore, or a port of entry and exit of a ship, and an upper portion includes a power generation housing 120 in which a power generation unit 200 is built, and a lower portion of the wave is horizontal. While receiving the movement, the wave receiving portion 112 is formed to be penetrated so that the wave can pass.

The power generation main body 110 has a wave guide portion 114 to improve the flow force when the wave flows to the center side in order to improve the horizontal force of the wave is a horizontal motion on the lower side of the receiving portion 112 Is formed to protrude upward, it is formed to be inclined upward by a predetermined angle from the open both sides to the center side.

That is, the wave induction part 114 is to increase the flow force of the wave toward the center side of the power generation body portion 110 in the process of the wave flowing into one side of the power generation body portion 110 flows to the other side, As the horizontal horizontal force of the wave is further maximized, the power generation efficiency using the horizontal force of the wave can be further maximized.

The power generating body unit 110 of the present invention constitutes a plurality of buoyancy cylinders 130 installed on opposite sides of each other to produce a vertical force for the vertical movement of the incoming wave to drive the power generation unit 160. Configured to do so.

Here, the buoyancy cylinder 130 is configured in a plurality of spaced apart a predetermined interval along the longitudinal direction to both sides of the power generation body portion 110, one end is connected to the power generating unit 200 to be described later, according to the vertical movement of the wave, It is configured to drive the power generating unit 200 while moving down.

The buoyancy cylinder 130 has a fixed wire 134 is configured so that one side and the other side is connected to the fixed shaft 210 and the power generation main body 110 of the power generating unit 200 to be described later, the vertical movement of the wave Accordingly, the connection wire 132 is configured to rotate the power transmission member 212 configured in the fixed shaft 210 through the vertical force generated while the buoyancy tube 130 moves up and down.

Here, the connection wires 132 are formed at both ends of the outer surface of the buoyancy cylinder 130, respectively, the connection wire 132 formed on one side connects the power transmission member 212 and the buoyancy cylinder 130, formed on the other side The connection wire 132 connects the power generation main body 110 and the buoyancy tube 130 to support the up and down movement of the buoyancy cylinder 130.

In addition, the fixing wire 134 is coupled with a predetermined elastic force to be able to move with a predetermined elastic force during the up and down movement of the buoyancy cylinder 130, thereby further improving the power generation efficiency of the vertical force of the wave It becomes possible.

The power generation housing 120 is configured on an upper portion of the power generation main body 110, and is a component in which the power generation unit 200 and the power generation unit 160 that feed power by using horizontal and vertical forces of waves are embedded therein. .

The power generation housing 120 is composed of a plurality of at least two, but are configured to be spaced apart by a predetermined interval is configured to maximize the use until the wave flowing into the receiving portion 112 of the power generating body portion 110 flows out.

One end of the buoyancy tube 130 may be fixed to both sides of the power generation housing 120. That is, the buoyancy cylinder 130 of the present invention is coupled to the power generation body 110 or the power generation housing 120.

The conveying shaft 140 is formed in a hollow pipe shape, and both ends thereof are coupled to a breakwater to which the power generating body part 110 is fixed, or directly fixed to both ends of the power generating body part 110, and penetrates the power generating housing 120. And, it is configured to communicate with the piston pump 224 of the power production unit 200 to be described later.

The transfer shaft 140 receives power generated from the power generating unit 200, that is, air pressure, hydraulic pressure, hydraulic pressure, and the like, and is transferred to the power generation unit 160.

In addition, the upper portion of the transfer shaft 140 is connected to the compression tank 150 in which the inflow of power is stored in order to maintain the air transfer amount of the transfer shaft 140 when the inflow of power is out of the limit value.

At this time, one side of the compression tank 150 is configured with a pressure gauge panel 152 that can check the compression amount, the storage amount and the like of the stored power, if the storage amount of the power stored in the compression tank 150 exceeds the limit, this An over safety pin 154 for discharging power is configured.

In addition, any one of the transfer shaft 140 or the compression tank 150 is further configured to transfer the power pipe 142 for transferring power to the turbine 162 side configured in the power generation unit 160.

One side of the transfer pipe 142 is preferably a pressure regulator 144 for adjusting the amount of power supplied to the turbine 162 side in accordance with the amount of compression of the power to be transferred, but is not limited thereto.

The power generation unit 160 receives the power received in the transfer shaft 140 through the transfer pipe 142 to produce predetermined electric power according to the rotation amount of the turbine 162 and the turbine 162 rotated by the power. A generator 164 and a capacitor 166 in which the generated power is stored.

On the other hand, the power generating unit 200 receives the horizontal and vertical force of the wave from the fixed shaft 210, the fixed shaft 210 is connected to the buoyancy cylinder 130, the power generating means for generating power while operating left and right ( 220, a piston housing 230 for fixing the power generating means 220 to the power generation housing 120, and a rotation door 240 for converting the vertical movement of the wave into a vertical force.

The fixed shaft 210 is a component for connecting the buoyancy tube 130 and the power generating unit 200 is coupled to the fixed wire 134 is configured in the buoyancy cylinder 130, the up and down movement of the buoyancy cylinder 130 The power transmission member 212 receives the vertical force is provided.

The power transmission member 212 is rotatably coupled to the fixed shaft 210, the component for operating the power generating means 220 constituting the power generating unit 200 of the vertical force of the wave transmitted from the buoyancy cylinder 130 to be.

The power transmission member 212 is to operate the power generating means 220 by using the vertical force transmitted from the buoyancy cylinder 130 through the power generating means 220 and the transmission means 212a such as a belt, chain, wire. do.

The power generating means 220 has a piston cylinder 222 moving left and right according to the rotation of the power transmission member 212, and both ends of the piston cylinder 222 is inserted into the operation of the piston cylinder 222. It is configured to include a piston pump 224 for generating power according to, one end of the piston pump 224 is configured to discharge nozzle 226 for discharging the generated power to the transfer shaft 140 side.

Here, the piston cylinder 222 is connected to the power transmission member 212 through the transmission means 212a on the outer circumference, and converts the rotational force of the power transmission member 212 to the left and right movement movement piston cylinder 222 The operating member 216 is configured to support the operation of the.

In addition, the piston pump 224 is prevented from flowing out when the power generated by the operation of the piston cylinder 222 inserted therein is transferred to the transfer cylinder 140 through the discharge nozzle 226, The power generating unit 220 is installed in the piston housing 230 to be stably installed in the power generation housing 120.

At this time, the discharge nozzle 226 may be configured to be directly connected to the transfer cylinder 140, but is not limited thereto, and is connected to a connection pipe 228 connecting the piston pump 224 and the transfer shaft 140. It might be able to transfer power.

The power generating means 220 of the present invention configured as described above can of course produce power using the horizontal force of the wave through the buoyancy cylinder 130. In addition, the power generating means 220 of the present invention may further comprise a rotating door 240 to generate power by using the horizontal force of the wave.

That is, the rotary door 240 is configured in the receiving portion 112 of the power generation body portion 110, rotates through the horizontal movement of the wave flowing into the receiving portion 112, the power generated by the rotational force generated at this time ( By transmitting to 220, the power is generated to drive the power generation unit 160 to produce power not only through the vertical movement of the wave, but also through the horizontal movement.

The rotary door 240 is fixed to the power generating means 220 and the fixed shaft 210, the power transmission member 212 on the top, the rotational force generated while the rotary door 240 rotates in the left and right directions To the fixed shaft 210 and the power transmission member 212 to operate the power generating means 220, the power generated from the power generating means 220 through the connecting pipe 228 transfer shaft 140 In accordance with the transfer to the drive of the power generation unit 160 is to be made.

The wave power generator using the float of the present invention configured as described above operates the buoyancy barrel 130 and the rotating door 240 through the horizontal and vertical kinetic energy of the waves that are often generated or destroyed in the ocean turbine 162 and the generator ( 164) By generating the power required to drive the power generation is not only to improve the power generation efficiency and power generation, but also easy to manufacture, easy maintenance, initial investment and operating costs are extremely low, and the power generation main body ( By allowing the flow force of the wave to increase in the process of the wave introduced to one side of the 110) to the other side, by further maximizing the horizontal movement force of the wave can further maximize the power generation efficiency using the horizontal force of the wave It is an invention.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

110: power generation body portion 112: receiving portion
114: wave guide portion 120: power generation housing
130: buoyancy tube 140: feed shaft
150: compression tank 160: power generation unit
162: turbine 164: generator
166: capacitor 200: power generating unit
210: fixed shaft 212: power transmission member
220: power generating means 222: piston cylinder
224: piston pump 226: discharge nozzle
230: piston housing 240: rotary door

Claims (7)

A power generation body portion including a receiving portion for receiving waves and a wave guide portion for improving horizontal force of the waves;
Buoyancy cylinders are installed in a plurality of positions on opposite sides of the power generating body portion opposed to each other to operate by the vertical force of the wave;
A power generation housing configured at an upper portion of the power generation main body and configured to generate power through horizontal and vertical forces of waves;
A fixed shaft having a power transmission member connected to the buoyancy cylinder to receive the vertical force of the buoyancy cylinder, and receiving a horizontal force and a vertical force of the wave from the fixed shaft to operate left and right to generate a predetermined air pressure, hydraulic pressure, or hydraulic pressure; A power generating unit comprising a power generating means for activating, a piston housing for fixing the power generating means to the power generation housing, and a rotary door for operating the power generating means using a horizontal force of waves; And
Transfer shaft for transferring the power generated from the power generation unit to the power generation unit
Wave power generation apparatus using a float, characterized in that it comprises a.
The method of claim 1,
The buoyancy cylinder is a fixed wire is configured so that one side and the other side is connected to the fixed shaft and the power generation body, respectively, and the floating wire characterized in that the connection wire for rotating the power transmission member by transmitting the vertical force of the wave to the fixed shaft side Wave power generator using.
3. The method of claim 2,
The fixing wire has a predetermined elastic force, the wave power generation apparatus using a float, characterized in that for supporting the up and down movement of the buoyancy cylinder by this elastic force.
The method of claim 1,
The transfer shaft is a wave power generation apparatus using a float, characterized in that the transfer tank for supplying the power to the power generation unit and the compression tank is stored so that the power supplied from the power generating unit to maintain the transfer amount of power.
5. The method of claim 4,
The compression tank includes a pressure gauge panel capable of checking the compression amount and the storage amount of the power, and an over safety pin for discharging the power when the storage amount of the power stored in the compression tank exceeds a limit. Wave power generator using.
5. The method of claim 4,
The conveying pipe is a wave power generation apparatus using a float, characterized in that the pressure regulator for adjusting the supply amount of power supplied to the power generation unit side according to the amount of compression of the power.
The method of claim 1,
The power generation unit is supplied with the power received in the transfer shaft, a float that comprises a turbine for rotating the power by the power, a generator for producing a predetermined power in accordance with the amount of rotation of the turbine and a capacitor in which the generated power is stored Wave power generator using.

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