KR20060130875A - Wave power generation device - Google Patents

Abstract

A wave power generating device is provided to reduce costs and prevent environmental contamination by connecting a plurality of floating bodies in such a manner that the floating bodies move in accordance with the tide. A wave power generating device comprises a connection member(15), a power converting unit, and a generating system. The connection member serves to maintain a balance between floating bodies(10,20). The connection member is arranged so that both ends of the connection member are rotatable in left and right directions by the difference of height between the floating bodies during the relative rising and falling motion of the floating bodies. The power converting unit includes a plurality of gears arranged at each floating body so as to convert left and right rotation motion of ends of the connection member generated during rising and falling motion of opposite floating body into one direction rotating motion. The generating system generates electrical energy from the rotating force output from the power converting unit, and transmits thus-generated electrical energy to an external unit.

Description

Wave power generation device

1 is an exemplary view of a wave power generator according to the present invention,

2 is a configuration diagram of a power conversion unit provided in each floating body of the wave power generator according to the present invention;

3 and 4 is an operating state diagram of the power converter according to the lifting of the floating body,

5 is a schematic diagram illustrating the rotation state of the power converter of the other floating body and the rotation state of the power input shaft in a series of continuous states when the floating body on one side is elevated according to the waves of the sea in the wave power generator according to the present invention,

6 and 7 are examples of the extended configuration of the wave power generator according to the present invention.

※ Brief description of symbols for the main parts of the drawings

10: first sub fluid 15: connecting member

20: second sub-liquid 30: power generation equipment

40: power converter 42: drive shaft

43,45: Drive gear 46,47,48,49: Drive gear

50: driven shaft 55: power input shaft

60, 61: first and second ratchet wheel 62, 64: stopper

70: transmission means

10-1,10-2,10-3: lifting fluid 10a, 10b: power generating fluid

The present invention relates to a wave power generation apparatus using waves, and more particularly, by using a plurality of floating body to be lifted by the difference in wave height generated on the sea surface of the continuous lifting movement of different floating body in a certain direction The present invention relates to a power generation apparatus using wave power capable of generating electricity by converting the rotational movement into a power source of a power generation facility.

Electricity is an indispensable element in our lives. In the past, most of the electricity needed for our lives was produced using fossil energy as a raw material.

However, the problems of limited depletion of fossil fuels, difficulty in purchasing raw materials, destruction of the global environment, and high cost of power generation facilities have raised the necessity of finding new power generation facilities using new alternative energy instead of fossil energy generation facilities. .

Therefore, many countries around the world are investing in the development of power generation facilities using alternative energy, and in fact, countries and regions that use electricity produced using various alternative energy such as solar heat, solar light, fuel cell, wind power and tidal power are increasing. Recently, in Korea, wind power generation facilities have been attracted to various places to supply a certain amount of electricity.

However, it is true that such power generation facilities using alternative energy such as solar and wind power also have many benefits compared to the conventional power generation facilities using fossil energy, but the investment cost of the facilities is high, and the installation of the power generation device is specific. There was a problem of limited installation in the area.

Another alternative energy is to use the marine energy of the ocean, for example, tidal power generators or wave power generators using waves, the present invention relates to the technical field of wave power generators using the waves of the sea, three sides In light of the situation of Korea surrounded by the sea, the development of alternative energy using the sea is very low investment or research and development compared to the development of other alternative energy.

On the other hand, as a power generation device using waves, some technologies other than Korean Patent Registration No. 384891 "power generation device using waves" have been known. However, the wave power generator using the conventionally known waves has a disadvantage in that the configuration of the device is complicated, and the installation must be fixed to the sea floor, thereby limiting the installation area and maintaining and manufacturing cost thereof.

The present invention is to solve the disadvantages of the prior art to provide a power generation device using a simple wave configuration, easy to manage and maintain.

In particular, it is another object of the present invention to provide a power generation apparatus using wave power that can further improve the power generation efficiency by continuously configuring a plurality of floating bodies as needed.

In order to achieve the above object, the power generation apparatus using the wave power in accordance with the present invention is a power generation apparatus using the wave power configured to produce a predetermined electricity by using a plurality of floating body to be elevated by waves on the sea surface, The power generation apparatus includes: a connecting member configured to be configured to rotate left and right by a certain displacement at both ends due to a difference in height between floating bodies during balance maintenance between both floating bodies and relative lifting motions of both floating bodies; A power converter having a plurality of gears installed at each of both ends of the connection member to convert the left and right rotational movements of the connection member ends into one-way rotational movements generated during the elevating motion of the opposing floating body; And a power generation facility configured to generate electricity by using a rotational force of a constant speed output from the final stage of the power conversion unit and to transmit the produced electricity to the outside by a transmission means.

In particular, the power conversion unit is connected to the distal end of the drive shaft drive shaft left and right by a certain displacement in accordance with the lifting of the floating body; First and second ratchet wheels are formed to be spaced apart at regular intervals on the drive shaft to form a ratchet in mutually opposite directions so as to transmit the rotational force of the drive shaft in each direction when the drive shaft is rotated left and right: the first, second ratchet wheel Drive gears respectively installed on one side of the driving shaft to rotate in the same direction as the ratchet wheel by the rotational force of the ratchet wheel connected only when the idling state is maintained when the driving shaft is rotated and connected to the ratchet wheel; Stops provided on one side of the driving gear on the side of the side on which the ratchet wheel is installed so as to transmit the rotational force of the ratchet wheel to the drive gear only when the first and second ratchet wheels provided with the ratchet in opposite directions are rotated in any one selected direction. phrase; One or more driven gears provided on the driven shaft or the power input shaft to be selectively engaged with the driving gears on both sides, respectively, so that the rotational force of each driving gear rotates in the same direction in the final gear; And a power input shaft for providing a final rotational force transmitted through the driven gear to a power source of the power generation facility.

Hereinafter, the configuration of the present invention will be described in more detail with reference to the accompanying drawings.

Wave power generation apparatus using the wave according to the present invention, as illustrated in a perspective view of Figure 1, as a plurality of different floating body is firmly coupled by the connecting member 15 as the floating body of one side as the lifting movement by the wave The other floating body connected to this relates to a power generating device that generates electricity by converting the lifting motion of one floating body into a rotational motion as a power source, and the lifting motion of one floating body is a rotating motion from the other floating body. In addition, the lifting motion in the other side fluid is converted into rotational motion in one side floating body so that it can be used as a power source of the power generation equipment 30 is configured to enable electricity production in a plurality of floating body at the same time.

In the detailed description of the present invention, a plurality of floating bodies are limited to two floating bodies coupled to both ends of one connecting member 15, that is, the first floating body 10 and the second floating body 20 to facilitate explanation. Will be described.

The first sub-fluid 10 and the second sub-fluid 20 have a certain strength and durability, in particular to be connected to the end of the connection member 15 made of a material that can maintain corrosion resistance against seawater The connecting member 15 is configured to be able to rotate left and right by a certain displacement at both ends due to the difference in height generated between the two floating bodies due to the wave during the relative lifting movement of the two floating bodies.

The end of the connection member 15 having such a configuration is provided with a power conversion unit 40 connected to the power generation equipment 30 provided in each floating body 10, 20 is rotated left and right of the connection member 15 It is configured to convert the movement into a constant rotational movement, the power generation unit 30 is installed at the final end of the power conversion unit 40 to produce a predetermined electricity by using a rotational force of a constant speed output as a power source and In addition, the power generation facility 30 is provided with a power transmission means 70 to transmit the electricity produced outside.

Figure 2 is a perspective view showing a part of the configuration to make it easier to see the configuration of the power converter 40 provided in each floating body.

The power conversion unit 40 is provided with a drive shaft 42 connected to each end of the connecting member 15 and the left and right repeated rotation by a predetermined displacement in accordance with the lifting of the one side floating body, the drive shaft 42 on To be installed at regular intervals, the ratchet in each direction is different in order to transmit the rotational force of the drive shaft 42 in different directions while the right turn or the left turn is made by the lifting movement according to the rise or fall of one floating body according to the digging. Each formed first and second ratchet wheels 60 and 61 are provided.

In addition, one side of the drive shaft 42 provided with the first and second ratchet wheels 60 and 61 rotates the first and second ratchet wheels 60 and 61 provided with ratchets in opposite directions. Drive gears 43 and 64 provided on one side of each ratchet wheel are provided with stops 62 and 64 respectively engaged with the ratchets of the first and second ratchet wheels 60 and 61 so as to transmit rotational forces in different directions. 45) is provided on one side.

Each of the stoppers 62 and 64 provided in the drive gears 43 and 45 may be rotated by each ratchet when the first and second ratchet wheels 60 and 61 rotate according to the rotation of the drive shaft 42. According to the forming direction of the ratchet formed in the wheel, only one is coupled to the ratchet of the ratchet wheel to transmit the rotational force of the ratchet wheel to the drive gear, and the other one of the ratchet does not force the stopper and the ratchet even though the ratchet wheel is rotated. It is configured not to transmit the rotational force of the wheel to the drive gear installed on one side, the first and second ratchet wheels 60, 61 are also the same in the rotational direction of the changed drive shaft 42 when the rotational direction of the drive shaft 42 is changed Direction is rotated, but only one of the two ratchet wheels is configured to transmit power to the drive gear.

The driving gears 43 and 45 maintain an idling state when the driving shaft 42 is rotated, and then, when the stopper is coupled to the ratchet of any one ratchet wheel according to the rotational direction of the driving shaft 42, the stopper is provided. Only one side of the drive gear is rotated by the rotational force of the ratchet wheel is made of a structure that transmits power.

In addition, the drive gears 43 and 45 are geared directly or indirectly, so as to convert left and right rotational forces of the drive gears 43 and 45 in the same one direction in the same way as the driven shaft 50 and the power input shaft. One or more driven gears 46, 47, 48, and 49 are provided at 55, and a plurality of gears are engaged to finally transmit rotational force in one direction to provide power to the power plant 30 as a power source. The power input shaft 55 is provided at the end of the power supply shaft 55 so as to be connected to the power generation facility 30 so as to be provided as a driving source of the power generation facility 30 while maintaining a constant speed.

The power generation facility 30 includes all the usual technical means including a stop required for the generation of electricity, which can be sufficiently implemented by a conventional known technology, so the detailed description thereof will be omitted. Each floating body connected to the connection member 15 may be provided with a cushioning means for absorbing the rolling in a certain range when rolling is generated by the waves.

On the other hand, it will be described below with reference to Figures 3 and 4 attached to the operation state and its operation of the wave power generator according to the present invention having the above-described configuration.

In the present invention, a plurality of floating body is connected to each other by the connecting member 15, the lifting movement of one floating body is converted into rotational movement from the other floating body to generate a rotational force, and conversely the lifting movement of the other floating body is one side Although adopting a two-way power generation system configured to be converted to a rotational motion in the floating body to generate a rotational force to produce electrical energy, the operation state of the wave power generator according to the present invention described below is described in the first sub-fluid ( 10) is limited to the moving part fluid, and the second sub-fluid 20 is limited to the generating part fluid, and only the one-way power generation system in which the generating part is generated as the moving part fluid moves up and down, and vice versa. The description of the power generation system that is lifted and developed in the moving part fluid is omitted because it follows the same principle. do.

FIG. 3 shows the first and second sub-fluids as the first and second sub-liquids 10 are lifted and lifted when a wave forming a floor and a valley having a constant height is generated in accordance with the waves in the sea. The connecting member 15 connected between the 20 is also rotated by a constant displacement is a constant rotational force is generated in the power conversion unit 40 on the second sub-fluid 20 connected to the other end of the connecting member 15 The principle is shown.

The rise of the first sub-fluid 10, which is the moving part fluid, is a rotational movement based on the other end of the connecting member 15 connected to the first sub-fluid 10 connected to the power converter 40 of the second sub-fluid 20. The rotation (rising) movement of the connecting member 15 causes the rotation of the drive shaft 42 to which the ends of the connecting member 15 are coupled, and the rotation of the drive shaft 42 is spaced at regular intervals on its outer circumference. Rotation is also made to the first and second ratchet wheels 60 and 61 respectively installed.

The first and second ratchet wheels 60 and 61 installed at regular intervals are simultaneously rotated according to the rotation of the drive shaft 42, but the ratchets of the first and second ratchet wheels 60 and 61 are mutually different. Power is transmitted only to one of the driving gears according to the selective coupling relationship with the stoppers 62 and 64 provided on the side surfaces of the driving gears 43 and 45 formed in the other direction.

That is, in FIG. 3, two first and second ratchet wheels 60 and 61 are rotated in the clockwise direction simultaneously with the rotation of the drive shaft 42, but two first and second rotated in the clockwise direction. Of the ratchet wheels 60 and 61, only the first ratchet wheel 60 on one side of which the ratchet is formed in a direction corresponding to the rotational direction of the drive shaft 42 is provided with a stopper 64 provided on one side of the drive gear 43. And the second ratchet wheel 61 on the other side of which the ratchet is formed in a reverse direction with respect to the rotational direction of the drive shaft 42 is not engaged with the stopper 62 so as to engage with the first ratchet wheel 60. 64 and only the drive gear 43 is rotated in the clockwise direction.

The driven gear 49 meshed with the drive gear 43 by the rotation of the drive gear 43 is rotated counterclockwise, and the power input shaft 55 to which the driven gear 49 is coupled is counterclockwise. Rotation is performed to provide a power source of the power generation equipment 30 of the second sub-fluid 20.

Meanwhile, in FIG. 4, when the first sub-fluid 10 moves downward in the direction opposite to the movement direction of FIG. 3, the connecting member 15 connected to the first sub-fluid 10 is again connected to the second sub-fluid ( The rotation (falling) motion of the power conversion unit 40 of 20), the rotation (falling) motion of the connecting member 15 to rotate the drive shaft 42 in the counterclockwise direction, the drive shaft 42 Rotation of the drive the rotation of the first and second ratchet wheels (60, 61) installed at regular intervals on the outer periphery.

Of the two first and second ratchet wheels 60 and 61 rotated, only the second ratchet wheel 61 having a ratchet formed in a direction corresponding to the rotational direction of the drive shaft 42 is provided on one side of the drive gear 45. The first ratchet wheel 60 is engaged with the provided stopper 62 and the power transmission gear is formed in a reverse direction with respect to the rotational direction of the drive shaft 42, so that the first ratchet wheel 60 is not engaged with the stopper 64. Only the stop gear 62 and the driving gear 45 engaged with the 61 are rotated, and the driven gears 46 and 47 of the driven shaft 50 continuously connected to the drive gear 45 and the driven gear of the power input shaft 55. 48 is continuously rotated to rotate the power input shaft 55 counterclockwise to transmit power to the power generation equipment.

As described above, the two first and second ratchet wheels 60 and 61 formed on one drive shaft 42 are displaced in one direction or the other direction according to the lifting and lowering of the first sub-fluid 10, which is a moving part fluid. As much as the rotation is made, the two first and second ratchet wheels 60 and 61 are formed with ratchets in different opposite directions, so that the rotational force is opposite to each other according to the lifting or lowering of the connecting member 15. Although it is transmitted to the power input shaft 55 is always configured to transmit the rotational force in the same direction to drive the power generation equipment, two drive gears in accordance with the lifting of the first sub-fluid 10 and the connecting member (15). (43) and (45) are to be provided to the power source of the power generation facility 30 by receiving the rotational force while being repeated with each other repeatedly.

As such, when the connecting member 15 moves upward due to the rise of the first sub-fluid 10, any one of the ratchet wheels 60 is engaged with the stopper 64 to the driving gear 43 in any one direction. When the power is transmitted, the other ratchet wheel 61 is maintained in the idle state is not formed with the stopper 62 is not transmitted to the drive gear 45 even when the ratchet wheel 61 is rotated. When the connecting member 15 moves downward due to the descending of the first sub-fluid 10, the ratchet wheel 61 and the driving gear 62 are coupled to each other in a direction opposite to the above to receive a rotational force and receive a power input shaft. Rotating 55 allows power generation to occur in the power generation facility 30.

Meanwhile, the stoppers 62 and 64 provided at one side of each of the driving gears 43 and 45 may be disposed in any one direction depending on the installation direction of the first and second ratchet wheels 60 and 61. The rotation is made freely, the rotation is fixed in the other direction is configured to be a power transmission by coupling with the ratchet wheel.

Meanwhile, in FIG. 5, the power input shaft 55 finally moves up and down according to the relative motion between the first sub-fluid 10 and the second sub-fluid 20 in the wave power generator according to the present invention having the above-described configuration. ) Is a diagram schematically showing a relationship in which the rotational force is generated, and in particular, the power generation equipment 30 provided in the second sub-fluid 20 in accordance with a change in the position of the first sub-fluid 10 that changes according to the wave height. Illustrates the rotation state of the power input shaft 55 for transmitting power to the.

That is, in the case of (a) of FIG. 5, the first sub-fluid 10 is located on the floor of the wave and the second sub-fluid 20 is located on the valley. In this state, the first sub-fluid 10 is located. Is positioned at a relatively high position relative to the second sub-fluid 20, so that one end of the connection member 15 connected to the first sub-fluid 10 rises based on the other end connected to the second sub-fluid 20. As the end of the connection member 15 is raised, the driving shaft 42, the first ratchet wheel 60, and the driving gear 43 are rotated, and the driven gear 49 and the power input shaft engaged with the driving gear are rotated. 55) Rotation is performed by this constant displacement.

In FIG. 5, the rotation of the power input shaft 55 in which power is finally transmitted from the power converter 40 is 1/4 in order to easily understand the state of movement between the first sub-fluid 10 and the second sub-fluid 20. Although the state is made by rotation, the rotation amount of the power input shaft 55 can be adjusted by the gear ratio of the drive gear and the driven gear.

In FIG. 5 (b), the first sub-fluid 10 is positioned at the valley and the second sub-fluid 20 is located at the floor. As the fluid 10 is lowered, the connection member 15 also moves downward with respect to the second sub-fluid 20 as the first sub-fluid 10 descends, which causes the driving shaft 42 to move downward. It rotates in the counterclockwise direction opposite to the above (a), thereby rotating the second ratchet wheel 61 and the drive gear 45 is a power transmission gear formed in the opposite direction to the first ratchet wheel 60 The first ratchet wheel 60 is in an idle state in the reverse rotation.

A plurality of driven gears 46, 47 and 48 are continuously driven by the rotation of the drive gear 45 so that the power input shaft 55 in which power is finally transmitted is the rotation of the power input shaft 55 in (a). Rotation is made in the same direction as the rotational force of the constant and constant direction is always generated and transmitted to the final power input shaft 55 even when the position of the floor and the valley according to the wave wave.

As such operations as shown in (a) and (b) of FIG. 5 are continuously performed as shown in (c) and (d), the rotational force of the final power input shaft 55 is always continuously generated in the same direction, thereby generating power generation equipment ( Can be used as a driving source of 30) to enable the production of electricity.

6 and 7 illustrate an expanded embodiment of the wave power generation apparatus according to the present invention. The embodiment of FIG. 6 shows a plurality of floats, that is, a first sub-fluid 10 or a second sub-fluid. Another plurality of lifting fluids (10-1), (10-2) and (10-3) are installed in the (20) to cope actively with the direction of the wave, while efficiently rotating the power of the power input shaft which is the driving source of the power plant. FIG. 7 illustrates an embodiment configured to be generated as shown in FIG. 7, in which another floating body connected to the first floating body 10 or the second floating body 20 is installed. Another power generation fluid (10a) (10b) is provided that is further provided with a power generation equipment and the like of the same structure provided in the floating body, the lifting fluid and the power generation fluid is a characteristic of the power generation equipment According to the appropriate number is configured and installed.

As described above, according to the present invention, since the relative lifting motion caused by the waves continuously occurs repeatedly between the plurality of floating bodies, the lowering operation is performed on the other floating body and the lowering operation is performed on the other floating body at the time of rising of one floating body. When this occurs, the lifting operation is repeatedly performed in another floating body, and this repetitive lifting movement is a power source of the power generation equipment in which the rotating force generated in a predetermined direction by a plurality of gears in the power conversion unit 40 of one floating body is generated. It can work to produce electricity.

Therefore, the present invention can be installed anywhere in the coastal area in accordance with the situation of Korea surrounded by the sea on three sides, there is no need to install additional special equipment, the electricity produced in each floating body is provided separately transmission means 70 Subsequently, electricity can be stored and stored in a certain area by using cables from the sea floor, so the replacement effect as a new clean energy is great.

In addition, the power generation apparatus using the wave power according to the present invention is simple in structure and configuration, there is little risk of failure, and the initial investment cost is not excessively excessive, the excessive initial development cost, which was a big limitation in the conventional alternative energy development It can greatly improve the usefulness as alternative energy that can solve the problems of investment prevention and the low efficiency of the use of equipment, and solve all the problems such as the restriction of the installation by region.

As described above, the power generation apparatus using the wave force according to the present invention is installed in a predetermined area of the coast and can be used as the power of the power generation equipment by converting the lifting motion between a plurality of floating body moving according to the wave height into a constant rotational motion By providing a simple structure of power generation equipment, it does not require excessive investment cost, durability and maintenance is convenient, and provides alternative energy production technology that can prevent environmental pollution.

Claims (4)

In the power generation apparatus using a wave force configured to produce a predetermined electricity by using a plurality of floating bodies which are lifted by waves on the sea surface, The power generation apparatus includes a connection member configured to be configured to rotate left and right by a predetermined displacement at both ends due to the difference in height between the floating bodies during the balance maintenance between the two floating bodies and the relative lifting motion of the both floating bodies; A power converter having a plurality of gears installed at each of both ends of the connection member to convert the left and right rotational movements of the connection member ends into one-way rotational movements generated during the elevating motion of the opposing floating body; A power generation facility configured to generate electricity by using a rotational force of a constant speed output from the final stage of the power conversion unit, and to be configured to transmit the produced electricity to the outside by a power transmission means; Power generation device. The method of claim 1, The drive shaft is connected to the distal end of the connecting member drive shaft that rotates left and right by a predetermined displacement in accordance with the lifting of the one side floating body; First and second ratchet wheels are formed to be spaced apart at regular intervals on the drive shaft to form a ratchet in mutually opposite directions so as to transmit the rotational force of the drive shaft in each direction when the drive shaft rotates left and right: the first and second ratchet wheel Drive gears respectively installed on one side of the driving shaft to rotate in the same direction as the ratchet wheel by the rotational force of the ratchet wheel connected only when the idling state is maintained when the driving shaft is rotated and connected to the ratchet wheel; Stops provided on one side of the driving gear on the side of the side on which the ratchet wheel is installed so as to transmit the rotational force of the ratchet wheel to the drive gear only when the first and second ratchet wheels provided with the ratchet in opposite directions are rotated in any one selected direction. phrase; One or more driven gears provided on the driven shaft or the power input shaft to be selectively engaged with the driving gears on both sides, respectively, so that the rotational force of each driving gear rotates in the same direction in the final gear; And a power input shaft for providing a final rotational force transmitted through the driven gear to a power source of the power generation facility. The method of claim 2, Each of the plurality of floating body is a wave power generation device, characterized in that the configuration further comprises a plurality of lifting fluid which is capable of generating additional rotational force on the power input shaft of the power converter. The method of claim 2, The plurality of floating body is a wave power generation device, characterized in that the configuration is composed of one or more other generating unit fluid is provided with a power generating equipment of the same configuration provided in each floating body.

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