KR100795516B1 - Tidal current energy converter - Google Patents

Abstract

The present invention relates to a wave energy converter for producing compressed air that is easy to convert into electrical energy by using the kinetic energy of tidal current and wave, which is the flow of sea water, and prevents the floating body 10 from being pushed back by the sea water (SW). The fluid 10 is towed by the towing rope 52 to the seabed anchoring device 50, the aberration 20 is mounted on the float 10, and the aberration 20 is a seawater passage of the float 10. Rotated by sea water passing through the (16), the rotational force of the aberration 20 is transmitted to the air compressor 30 mounted inside the floating body 10, the air compressor 30 is operated, the air compressor The compressed air of 30 is stored in the primary air tank 40 installed in the floating body 10, and is then stored in the secondary air tank 60 on land through the air hose 62 again.

Description

Tidal current energy converter {Tidal current energy converter}

1 is a schematic view showing a wave energy converter according to the present invention

2 is a perspective view of the floating body of FIG. 1 according to a first embodiment of the present invention;

3 is a plan view of the floating body of FIG.

4 and 5 are side views of the floating body of FIG.

6 is a plan view of the floating body of FIG. 1 according to a second embodiment of the present invention.

7 is a schematic view showing a floating body according to a second embodiment of the present invention;

The present invention relates to a wave energy converter for making compressed air by using kinetic energy of tidal currents and waves, which are the flow of seawater, and more particularly, aberrations are mounted on a float, and the aberration passes through a seawater passage of a float. It is rotated by the force of sea water, and the rotational force of the aberration is transmitted to the air compressor, so that the air compressor is operated and the compressed air is stored in the primary air tank installed in the floating body, and then the secondary air tank on land through the air hose. It relates to a wave energy inverter stored in.

Korean Utility Model Registration No. 0186211 (April 7, 2000) introduces a "class type sailing turbine for algae power generation."

The type sail sail turbine for tidal power generation is installed in a semi-immersion state at the bottom of the side of the anchored side hull of the rotor blade is rotated around the horizontal axis to drive the generator by its driving force. , The wing support is fastened to a variable wing made of a curved sail to form a reactionary concave drip in response to the tide of high and low tide.

The type sail sail turbine for tidal power generation has a generator connected to the horizontal axis, the generator is easily corroded in the marine environment, when the power generation directly from the sea to store electrical energy, there is a high risk of leakage, high waves or It is difficult to evacuate to a safe place when a typhoon comes.

Accordingly, an object of the present invention is that the aberration is mounted on the float, the aberration is rotated by the force of seawater passing through the seawater passage of the float, the rotational force of the aberration is transmitted to the air compressor, the air compressor is operated Wave energy converter that can store compressed air in a secondary air tank on land through an air hose so that compressed air can be easily converted to electrical energy on land after compressed air is stored in a primary air tank installed in a floating body. To provide.

Another object of the present invention is to provide a wave energy converter that can fill the floating body with seawater when the sea weather worsens, and can float the floating body to float the floating body by injecting air into the floating body. It is.

Preferred embodiments of the present invention for achieving the above object will be described in detail with reference to the drawings.

Referring to FIG. 1, in the wave energy converter according to the present invention, the floating body 10 is connected to the subsea fixing device 50 by the towing rope 52 so that the floating body 10 is not pushed back by the seawater SW. The aberration 20 is attached to the float 10, the aberration 20 is rotated by the seawater passing through the seawater passage 16 of the float 10, and the rotational force of the aberration 20 is increased. The air compressor 30 is operated by being transferred to the air compressor 30 mounted inside the floating body 10, and the compressed air of the air compressor 30 is installed in the floating body 10. 40 is stored in the secondary air tank 60 on land through the air hose 62 again.

In the wave energy converter according to the present invention configured as described above, the structure of the floating body according to the first embodiment of the present invention will be described in detail with reference to FIGS.

1 and 2, the floating body 10 is watertight so that the seawater does not flow into the inside, the front deck (11; front deck) is formed to be slanted, the seawater by the wave front deck ( 11, an upper plate 12 (upper plate) connected to the front deck 11 is formed horizontally, and side bridges 13 and 14 on both sides of the upper plate 12; ) And the guide vane 15 is disposed on the upper plate 12, so that the seawater passage 16 is formed between the upper plate 12 and the guide vane 15 by the side bridges 13 and 14. Is formed, both ends of the aberration 20 are rotatably mounted on the side bridges 13 and 14, and the rudder 70 is mounted on the bottom plate 17 (bottom plate).

Referring to FIG. 3, when the length L of the floating body 10 in the longitudinal direction is long, the diaphragm 18 is disposed in the middle of the floating body 10, and the aberration 20 is divided into two. Can be.

The connection structure of the aberration 20 and the air compressor 30 can be connected through a transmission means, such a structure can be easily known to those skilled in the art, detailed description thereof will be omitted.

The rudder 70 allows the front of the float to always be directed in the direction of the flow of algae.

Referring to FIG. 4, a long pipe 80 may be erected on the floating body 10, and a lower end of the pipe 80 may be connected to an air inlet (not shown) of the air compressor 30. Is supplied to the air compressor 30 through the pipe 80, the lighting device 85 for indicating the position of the floating body 10 is mounted on the top of the pipe (80).

Referring to FIG. 4 again, the floating body 10 has a sea export inlet 41, an air outlet 42, and an air hose connector 43 formed in the primary air tank 40, and the primary air. The tank 40 is connected to the air compressor 30 by the compressed air supply pipe 44, respectively, to the seawater inlet 41, the air outlet 42, the air hose connector 43 and the compressed air supply pipe 44, respectively. First to fourth control valves V1, V2, V3, and V4 are mounted.

As a result, in the normal state in which the air compressor 30 operates, the first and second control valves V1 and V2 are closed, and the third and fourth control valves V3 and V4 are opened, and the air compressor 30 is opened. ) Compressed air is supplied to the primary air tank 40 through the compressed air supply pipe 44, and is compressed again to the secondary air tank 60 through the air hose 62 in the primary air tank 40. Air is supplied. However, when it is necessary to sink the floating body 10 to the sea floor due to a typhoon or bad weather, the third and fourth control valves V3 and V4 are closed, and the first and second control valves V1 and V2 are opened. As a result, the seawater is filled in the primary air tank 40, and the air filled in the primary air tank 40 is discharged to the outside through the air outlet 42 while the seawater is filled, so that the floating body 10 is filled. It sinks to the sea floor. Thereafter, in order to float the floating body 10 that has sunk on the sea floor, the air hose 62 is opened while the first and third control valves V1 and V3 are opened and the remaining control valves V2 and V4 are closed. When the air is supplied to the primary air tank 40 through the seawater, the seawater stored in the primary air tank 40 is discharged through the seawater outlet 41 and the air is filled in the primary air tank 40 while the float 10 ) Will be injured.

Referring to FIG. 5, in another alternative, the float 10 may be provided with a water tank 90 separately from the primary air tank 40. As a result, when the water tank 90 is filled with seawater, the float 10 sinks to the seabed, and when the water in the water tank 90 is discharged and filled with air, the float 10 floats.

The operation of the valve for this is already described above, and the detailed description thereof will be omitted.

The control valve may be controlled by a control unit (not shown) installed in the floating body, the operation of the control unit can be controlled on land by wire or wireless, the operating power of the control unit is compressed air filled in the battery or primary air tank Small generators and batteries that can self-generate using

Referring back to FIG. 1, the air hose 62 is buried in the seabed starting from the land to the seabed on which the seabed fixing device 50 is installed, and along the towing rope 52 from the place where the seabed fixing device 50 is installed. It extends to the primary air tank 40 of (10).

In the wave energy converter according to the present invention, the structure of the floating body according to the second embodiment of the present invention will be described in detail with reference to FIGS. 6 and 7.

The floating body 10 has a shape <, and wings 111 and 112 are connected to both sides of the main body 110, respectively, and aberrations 20; 20a and 20b are respectively connected to the wings 111 and 112. Two air compressors (30; 30a, 30b) are installed in the main body (110), and the air compressors (30a, 30b) are operated by receiving power from the aberrations (20a, 20b), respectively.

In addition, in the floating body 10, the wing portions 111 and 112 are divided into zones a1, a2, ab; b1, b2, b3 by a plurality of diaphragms P1, P2; (20a; 20b) has a plurality of rotors (R1, R2, R3; R4, R5, R6) corresponding to each zone, the water tanks 121, 122, 123; 124, 125, and 126 are installed and the water tanks 121, 122, 123; 124, 125, and 126 can be submerged to the sea floor when the seawater is filled, and the primary air tank 40 installed in the main body 110. When air is supplied to the water tanks 121, 122, 123; 124, 125, and 126 through the valve V, air is filled in the water tank and seawater is discharged to float the float 10.

As described above, the wave energy converter according to the present invention converts the moving energy of the tidal current (sea water) into compressed air that can be easily converted into electrical energy and stored in a secondary air tank disposed on land, When the weather is bad, it is possible to submerge the floating body filled with seawater in the floating body, there is an effect that can float the submerged floating body by injecting air into the floating body.

Claims (9)

The float 10 is towed by the towing rope 52 to the subsea fixing device 50 so that the float 10 is not pushed back by the sea water SW, and the aberration 20 is mounted on the float 10. And the aberration 20 is rotated by the seawater passing through the seawater passage 16 of the floating body 10, and the rotational force of the aberration 20 is mounted inside the floating body 10. The air compressor 30 is operated by being transferred to the air compressor 30, and the compressed air of the air compressor 30 is stored in the primary air tank 40 installed in the floating body 10, and then landed through the air hose 62 again. Wave energy converter, characterized in that stored in the secondary air tank (60). The method of claim 1, The floating body 10 is watertight so that seawater does not flow into the inside, and the front deck 11 is formed to be slanted so that the seawater may ride over the front deck 11 by waves, and the front deck 11 The upper plate 12 connected to the horizontal is formed horizontally, side bridges (13, 14) are disposed on both sides of the upper plate 12, guide blades (15) on the upper plate (12) By the arrangement, the seawater passage 16 is formed between the upper plate 12 and the guide vanes 15 by the side bridges 13 and 14, and both ends of the aberration 20 on the side bridges 13 and 14. The rotatable energy converter, which is rotatably mounted and is equipped with a rudder (70) on the bottom plate (17). The method according to claim 1 or 2, When the length L in the longitudinal direction of the floating body 10 is long, the diaphragm 18 is disposed in the middle of the floating body 10, and the aberration 20 may be divided into two parts. Surf energy inverter. The method according to claim 1 or 2, An elongated pipe 80 may be erected on the floating body 10, and a lower end of the pipe 80 may be connected to an air inlet of the air compressor 30, so that the air is compressed through the pipe 80. Supply to the wave, the wave energy converter, characterized in that the lighting device (85) mounted on the top of the pipe (80) to inform the position of the floating body (10). The method according to claim 1 or 2, The floating body 10 has a seawater inlet 41, an air outlet 42 and an air hose connector 43 formed in the primary air tank 40, the primary air tank 40 is a compressed air supply pipe 44 Is connected to the air compressor 30 by the first and fourth control valves V1 to the seawater inlet 41, the air outlet 42, the air hose connection 43, and the compressed air supply pipe 44, respectively. , V2, V3, V4) is characterized in that the wave energy converter. The method according to claim 1 or 2, The floating body 10 may be provided with a water tank 90 separately from the primary air tank 40, when the water tank 90 is filled with seawater, the floating body 10 sinks to the seabed, Wave energy converter characterized in that the floating body (10) is floated when the water of the water tank (90) is discharged and filled with air. The method of claim 1, The air hose 62 is buried in the seabed starting from the land to the seabed on which the seabed fixing device 50 is installed, and the primary air of the floating body 10 along the towing rope 52 from the place where the seabed fixing device 50 is installed. Wave energy converter, characterized in that extending to the tank (40). The method of claim 1, The floating body 10 has a shape <, and wings 111 and 112 are connected to both sides of the main body 110, respectively, and aberrations 20; 20a and 20b are respectively connected to the wings 111 and 112. It is mounted, and two air compressors (30; 30a, 30b) are installed in the main body 110, the air compressor (30a, 30b) is operated by receiving power from the aberrations (20a, 20b), respectively Surf energy inverter. The method according to claim 1 or 8, The floating body 10 is divided into a plurality of diaphragms P1, P2; P3, and P4 in the wing portions 111 and 112, and the aberrations a1, a2, ab; b1, b2, and b3 are divided into aberrations 20a. 20b has a plurality of rotors (R1, R2, R3; R4, R5, R6) corresponding to respective zones, and has water tanks 121, 122, 123 inside the vanes 111; 112; 124, 125, 126 is installed and the water tank (121, 122, 123; 124, 125, 126) is filled with seawater can be submerged to the seabed, the primary air tank 40 installed in the body 110 When air is supplied to the water tank (121, 122, 123; 124, 125, 126) through the valve (V), the air is filled in the water tank and the sea water is discharged so that the float 10 is floated. Surf energy inverter.

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