KR101050304B1 - Wave power generator - Google Patents

Abstract

The present invention relates to a wave power generating device for generating power by converting the up and down motion of waves such as blue waves into the energy of turning the generator, the number of rotating blades rotated in accordance with the vertical movement of the wave on the body floating on the sea surface at regular intervals It is a wave power generator which is installed so that power generation can be performed continuously.

According to the present invention, the power generation shaft is installed inside, the main body is installed horizontally long; A floating tank fixed to both ends of the main body, each of which is floated by buoyancy, and has a generator connected to a power generation shaft inside of any one of them; It is rotated only in one direction by the vertical movement of the wave, a plurality of rotary blades are installed at regular intervals alternately on the upper and lower portions of the main body;

Wave power generation, rotary vane, floating tank, power generation shaft

Description

Wave-power generator {Wave-power generator}

The present invention relates to a wave power generating device for generating power by converting the up and down motion of waves such as blue waves into the energy of turning the generator, the number of rotating blades rotated in accordance with the vertical movement of the wave on the body floating on the sea surface at regular intervals It is a wave power generator which is installed so that power generation can be performed continuously.

The wave power generator is a device that converts the potential energy of the waves into mechanical energy by using aberrations such as rotary blades and uses this as energy for turning a generator. In other words, the cyclic up-and-down motion of the water surface and the forward and backward motion of water particles are converted into mechanical rotational motion through an energy converter, and then converted into electrical energy.

The wave power generation method can be classified according to the method of converting the kinetic energy of the blue, typically floats a float on the surface of the water, and the float moves up or down or rotates by the movement of the blue, and rotates the generator of the movement. . And it builds the air chamber where blue can enter, and generates turbine by turning the turbine into the air flow generated through the nozzle when the air in the air chamber is compressed and expanded as the water level in the air chamber changes due to the action of blue. There is this.

As fossil energy depletion increases as the value of use of wind power, tidal power, wave power, etc. as alternative energy increases, many power generation apparatuses using the natural force have been developed. In particular, in the use of wave energy as in the present invention, a technique of turning a turbine by compressing air in an air chamber by wave power by constructing an air chamber on the coast is common, but there is a difficulty in building an air chamber. In the structure of floating float at sea level and converting its up and down motion into energy to run generator, it was unable to generate continuous power because it could not generate rotational force at top and bottom dead center of blue.

Accordingly, an object of the present invention is to provide a simple structure for converting a motion of a wave into energy for rotating a generator, and to provide a device capable of obtaining continuous energy regardless of the position of the top dead center or the bottom dead center of the wave.

In order to achieve the above object, the present invention includes a plurality of rotary blades rotated in a downward motion of waves such as blue, and a plurality of rotary blades rotated in an upward motion alternately installed to be positioned near the water surface by a floating tank. Provide a wave power generation device.

According to the present invention, the configuration of the device for converting the energy of the wave into the energy for rotating the generator is characterized by a simple and easy installation thereof. In addition, even if there is a change in environmental aspects such as a change in the size of the blue light, it is possible to obtain continuous generation energy, which has a great advantage of generating efficiency.

The wave power generation apparatus according to the present invention includes a main body 2 in which a power generation shaft 1 is installed inside and installed horizontally; Floating tanks 4 fixed to both ends of the main body 2 and floated by buoyancy, and having a generator 3 connected to a power generation shaft 1 inside one of them; Rotating only in one direction by the vertical movement of the wave, a plurality of rotary blades 5 installed at regular intervals alternately on the upper and lower portions of the main body 2;

The floating tank 4 or the main body 2 is connected to the fixed body 6 and the fixed string 7 installed on the sea bottom as shown in FIG. Therefore, the main body 2 or the like can be generated by the waves without being lost.

And the rotary blade 5 is installed on one side end of the rotary shaft 8, as shown in Figure 3, the rotary shaft 8 is supported on the main body 2 as a bearing, the other end of the rotary shaft 8 in one direction The bevel gear 10b is provided through the bearing 9, and the bevel gear 10b is meshed with the bevel gear 10a of the power generation shaft 1. As shown in FIG. Therefore, when the rotary blade 5 rotates, the rotational force is transmitted to the rotary shaft 8, and the generator shaft 1 is rotated by the engagement of the bevel gears 10a and 10b, and a generator connected to one end of the generator shaft 1. (3) will develop.

In addition to the installation structure of the rotary blade 5 as described above, the embodiment shown in Figs. That is, the branch pipe 11 bent upward and the branch pipe 11 bent downward at regular intervals are connected to the main body 2, and each of the branch pipes 11 has a rotary blade 5 installed therein. Bevel gears are provided for connecting the rotating shaft 8 to the power generating shaft 1. Of course, in this embodiment, the bevel gear 10b installed at the lower end of the rotary shaft 8 is installed on the rotary shaft 8 by the one-way bearing 9.

In any embodiment, the rotary blade 5 is rotated by the downward movement of the wave as shown in Figure 3 is installed on top of the main body 2, the rotation of the wave by the upward movement of the main body 2 It is installed at the bottom of the Therefore, the movement of the wave acts directly on the rotary blade 5 without being interfered with the main body (2). That is, the movement of the downward wave reaches the main body 2 after rotating the rotary blade 5 first, as shown on the right side of FIG. 3, and the upward wave also rotates as shown on the left side of FIG. The vanes 5 are first rotated and then moved toward the main body 2.

In addition, a balance plate 12 is vertically fixed to the lower portion of each floating tank 4, and a weight 13 is installed at the lower end of the balance plate 12 to maintain the posture of the floating tank 4. Keep it. Therefore, the rotary blade 5 can always maintain the posture as shown in Figure 3 to maximize the efficiency of the vertical movement of the wave is converted to the rotary movement of the rotary blade (5).

In addition, one or more floats may be further installed on the main body 2. The float is to prevent the main body 2 from settling into the water by its own weight, so that the rotary blade 5 is positioned at the position where the vertical movement of the wave is greatest.

As described above, when the vertical movement of the wave occurs, the present invention utilizes a phenomenon in which the wave direction is different depending on the position of the rotary blade 5 installed in the elongated main body 2.

Therefore, when the floating tank 4 rises or falls with the main body 2, the power generating shaft 1 is rotated by the rotational force of the rotary blade 5 affected by the wave moving in the opposite direction, and the power generating shaft ( The rotational force of the rotary blades 5 rotating in a direction different from the rotation direction of 1) is a structure in which the one-way bearing 9 is mounted so as not to be transmitted to the power generating shaft 1.

In other words, while the floating tank 4 rises together with the main body 2, the rotary blade 5 which strikes the wave which is pushed downwards rotates the power generating shaft 1, and the floating tank 4 is connected to the main body 2. While descending together, the rotary blade (5) that strikes a wave rising in the upward direction rotates the power shaft (1).

In the power generation structure of the present invention as described above, the floating tank 4 and the main body 2 are any one or more unspecified rotating blades installed on the long main body 2 even in a state where the suspended tank 4 and the bottom dead center remain in a pause state ( 5) is rotated by the waves soaring up or down, it is possible to continuously transmit the rotational force to the power generating shaft (1) can be expected high power generation efficiency.

Therefore, in the present invention, all the components are installed as shown in FIG. 1 so as to have the high power generation efficiency as described above, and are positioned at the sea level by the floating tank 4 and installed at the position where the vertical movement of the wave occurs most.

And the installation interval of the rotary blade 5 is determined in consideration of the period of the wave, at least one or more of the plurality of rotary blades 5 installed even if the type of the wave is a structure that rotates. That is, in the top dead center and the bottom dead center positions of the waves, the up and down motion of the waves does not occur, and the rotary blade 5 which is in this position is not rotated so that the power generation shaft 1 cannot be rotated. Therefore, the present invention is designed such that at least one rotary blade 5 is located between the top dead center and the bottom dead center of the wave, that is, the position where the vertical motion of the wave occurs.

As described above, the present invention is connected to the fixing body 6 fixed to the sea bottom as shown in FIG. And it is located near the sea surface by the floating tank (4), the buoyancy of the floating tank (4) is determined so that the rotary blades 5 are located between the top dead center and the bottom dead center of the wave as seen above. And when it is difficult to install the specific position of the rotary blades 5 by the floating tank 4 only by the load of the main body 2, it is good to install the accessory to the main body 2 to be installed in the planned position.

When the wave occurs, the water moves up and down, the rotary blade 5 is rotated by its movement to obtain the power generation.

3 and 6, the downward flow of water rotates the rotary blade 5 located on the upper portion of the main body (2). When the rotary blade 5 is rotated by the downward flow of water, the bevel gear 10b provided at the lower end of the rotary shaft 8 is engaged with the bevel gear 10a provided at the power generating shaft 1, so that the power generating shaft 1 Rotate Of course, at this time, the one-way bearing 9 is rotated in the direction of transmitting force.

The rotary blade 5 rotated by the downward flow of water is installed on the upper portion of the main body 2, in order to prevent the case that the flow of water is blocked by the main body 2 does not properly rotate the rotary blade (5). That is, the downward flow of water immediately rotates the rotary blade (5). If the rotary blade (5) rotated by the downward flow of water is located in the lower portion of the main body 2, the downward flow of water hits the main body (2) first, and then rotates the rotary blade (5), the main body There is a loss of energy by (2).

Therefore, the rotary blade 5 rotated by the downward flow of water is installed on the upper portion of the main body 2, the rotary blade 5 rotated by the upward flow of water is preferably installed in the lower portion of the main body (2).

However, in the case of FIGS. 5 and 6, which are installed at a predetermined distance away from the main body 2 by the branch pipes 11, the portion of the main body 2 is smaller than that of the embodiment of FIGS. It is not necessary to separately install the rotary blades 5 which operate according to the upper and lower sides of the main body 2, respectively. However, in the case of FIG. 5 and FIG. 6, the branch pipe 11 also obstructs the up and down flow of water. In this case, the rotary blade 5 rotated by the downward flow of the water may be formed in the body 2 and the branch pipe 11. It is preferable to install in the upper part and the rotary blade 5 rotated by the upward flow of water in the lower part of the main body 2 and the branch pipe 11.

As the wave progresses, when the movement of the water is changed from the downward movement to the upward movement, the rotary blade 5 installed at the lower portion of the main body 2 is rotated. At this time, the rotary blades 5 installed on the upper portion of the main body 2 rotated by the downward motion is slightly rotated in the opposite direction, but the one-way bearing 9 at this time is a structure that goes back without transmitting a force. Therefore, power cannot be transmitted in a direction opposite to the direction in which the power generating shaft 1 rotates by the rotary blade 5 below the main body 2 rotated by the rise of water, and thus there is no problem in power generation.

Therefore, the generation of the force to rotate the power generating shaft 1 in the opposite direction by the one installed in the lower part of the main body 2 and the one installed in the upper by the one-way bearing 9 is prevented.

When the rotary blade 5 of the lower part of the main body 2 is rotated, the bevel gear 10b installed on the rotation shaft 8 is engaged with the bevel gear 10a of the power generation shaft 1, so that the power generation shaft 1 is rotated. do.

As described above, the positions of the bevel gears 10a and 10b and the rotating blades of the rotating blade 5 and the lower rotating blade 5 on the main body 2 rotate the power generating shaft 1 in the same direction. Naturally, the design of (5) should be made.

And it is provided with a device for maintaining the posture so that the rotary blade 5 is always perpendicular to the flow of water so that the flow of water can rotate the rotary blade 5 with high efficiency.

This is achieved by the balance plate 12 and the weight 13, the balance plate 12 is fixed to the floating tank 4, the weight 13 is installed in the lower portion of the balance plate 12 Since the floating tank (4) is to maintain a constant posture. Therefore, even if the attitude of the main body 2 is disturbed due to the occurrence of waves or wind, the balance plate 12 and the weight 13 are always moved downward by the load, so that the floating tank 4 is in the original position. It will be maintained, the rotary blade 5 will always maintain the posture to obtain the largest rotational force by the vertical movement of water. Of course, in the above, the above object can be achieved with only the balance plate 12 without the configuration of the weight (13).

As described above, the rotary blade 5 rotates the power generating shaft 1 to generate power by the vertical motion of the wave, and at least one of the rotary blades 5 generates a rotational force for power generation while the wave is generated. Continuous development is possible.

1 is an installation state diagram of the present invention

2 is a plan view of the present invention

3 is a cross-sectional view "A-A" of FIG.

4 is a cross-sectional view taken along line "B-B" in FIG.

5 is a plan view of another embodiment of the present invention.

Figure 6 is a cross-sectional view "C-C" of Figure 5

[Description of Drawings]

1: power generation shaft 2: main body

3: generator 4: floating tank

5: rotor blade 6: fixed body

7: fixed line 8: rotating shaft

9: one-way bearing 10a, 10b: bevel gear

11: branch pipe 12: balance plate

13: weight

Claims (6)

A main body 2 having a power generation shaft 1 installed therein and installed horizontally; Floating tanks 4 fixed to both ends of the main body 2 and floated by buoyancy, and having a generator 3 connected to a power generation shaft 1 inside one of them; And a plurality of rotary blades (5) rotated in one direction only by the vertical movement of the waves and installed at regular intervals alternately on the upper and lower portions of the main body (2), respectively. The wave power generating device according to claim 1, wherein the floating tank (4) or the main body (2) is connected to a fixed body (6) and a fixed string (7) installed on the sea bottom. According to claim 1, wherein the rotary blade (5) is installed at one end of the rotary shaft 8, the rotary shaft (8) is supported on the main body (2) by a bearing, the other end of the rotary shaft (8) 9) A wave power generation device characterized in that the bevel gear (10b) is installed through the bevel gear (10a) of the power generation shaft (1). According to claim 1, wherein the rotary blade 5 is rotated by the downward movement of the wave is installed on the upper portion of the main body 2, the rotation by the upward movement of the wave is installed on the lower portion of the main body (2) A wave power generator, characterized in that. The wave power generator according to claim 1, wherein a balance plate (12) is vertically fixed to the lower portion of each floating tank (4). The wave power generator according to claim 1, wherein at least one sub-ball is installed in the main body (2).

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