JP2004176621A - Method and equipment for wave power generation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and equipment for wave power generation which can easily cope with the change of a tide level or a tidal current or abnormal ocean waves at a strong wind time by reducing the possibility of attenuating a wave power caused by the collision of the ocean waves on a wall surface in a waver power generation, which can expect the efficient conversion of the wave power into an electric energy and which is relatively easy in building, maintenance, etc., and is globally environmentally-friendly. <P>SOLUTION: The essential section of the equipment comprises an oblique surface 1a in a range from marine into submarine in a height direction at the portion for receiving the ocean waves as a part of a structure 1 fixed to a seabed, a floating portion 2a which reciprocates on the surface 1a under the control of a guiding mechanism 4 in a moving direction to a predetermined direction, a moving element 2 having a generator 2b and a gear mechanism 3 having a beam tooth shaped portion 3a laid on the portion 1a, and a plurality of gears 3b with the moving element 2 including a gear engaged with the beam tooth shaped portion 3a and interlocking with the generator 2b. The equipment for wave power generation is characterized in that it takes out the wave power as the rotary energy by the gear mechanism 3 from the reciprocating motion of the moving element 2 and generates power. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wave power generation method and a wave power generation device that generate electric power by using the energy of waves, and more particularly, to a region that extends from the sea to the sea at a portion that receives waves forming a part of a structure fixed to the sea floor. Power is extracted from the reciprocating motion of a floating body and a moving body equipped with a generator by using a gear mechanism that works with the generator from the reciprocating motion of a floating body that reciprocates in a fixed direction on the inclined surface by wave force The present invention relates to a wave power generation method and a wave power generation device.
[0002]
[Prior art]
Wave power generation is one of the remarkable power generation methods using natural energy. Many proposals have already been made regarding the power generation, for example, a method of converting wave power into air or water flow energy to rotate turbine blades to generate power, or using a pump mechanism or the like to convert wave power to hydraulic or hydraulic energy. A two-stage energy conversion method of converting wave energy into fluid or mechanical energy, and transmitting the energy to a generator to generate electric power, such as a method of generating electric power by rotating a rotor or the like, etc., is often used. However, the power generation efficiency due to the conversion of the wave power into the airflow, the water pressure, and the like and the rotation power of the turbine, the rotor, and the like by the above-described method is low.
[0003]
In addition, near a wall that is vertical to the water surface, there is a risk of turbulence and attenuation of wave power due to the collision of waves on the wall, and the power generation equipment main body is used for power generation using wave power in deep water. It is difficult to fix it firmly from the sea floor, and when moored with anchors and wires as a floating structure, the floating structure itself becomes an absorber of wave power and the wave power that can be used for the intended power generation decreases. There is. In order to put wave power generation into practical use, it is necessary to solve the problems of the temporal change of the wave height and wave period of the target wave, the tide level and the tide, the occurrence of abnormal waves in strong winds, etc. Economic issues, including construction, operation, power transmission, and maintenance costs, must also be resolved. For these reasons, many proposals regarding an efficient energy absorbing device for converting wave power into electric energy and wave power generation have not reached the stage of practical use.
[0004]
However, the deterioration of the global environment due to global warming, etc. has become serious, and measures to remedy this are becoming an urgent issue.The thermal power generation method that burns fossil fuels and has the problem of environmental destruction even in power generation methods indispensable for living and economic activities There is a need for a proposal for a power generation method that is environmentally friendly and replaces nuclear power generation, which has problems in power generation and safety.
[0005]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described related art, and in wave power generation, turbulence and wave power may be attenuated due to collision of waves on a wall near a wall that is vertical to the water surface. And can easily respond to changes in tide level and tidal currents and abnormal waves during strong winds. It can be expected to efficiently convert wave power into electric energy without using a power generation method with low energy conversion efficiency, and it is relatively easy to construct, operate, and maintain, etc. The purpose is to provide a power generator.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the wave power generation method of the present invention is an inclined surface portion in a range extending from the sea to the sea in the height direction at a portion receiving waves forming a part of a structure fixed to the sea floor, A moving body having a floating body part and a generator, the moving direction of which is controlled in a fixed direction by a guide mechanism on the inclined surface part and reciprocating by wave force, and a rod-like part laid on the inclined surface part; Using a gear mechanism consisting of a plurality of gear parts attached to a moving body including gears fitted thereto and interlocking with the generator, wave force is extracted from the reciprocating motion of the moving body as rotational energy by the gear mechanism. The power is transmitted to the generator to generate power.
[0007]
In addition, in order to avoid that the reverse rotation phenomenon at the time of return and return due to the reciprocating motion of the moving body in the gear mechanism is transmitted to the generator as it is, only the rotational force in one direction is transmitted to the gear mechanism. In this case, a clutch mechanism is incorporated to control the rotation direction of the rotating shaft of the generator in one direction to generate power.
[0008]
The wave power generation device according to the present invention is characterized in that a main part is a part receiving waves forming a part of a structure fixed to the sea floor, a slope part in a range extending from the sea to the sea in the height direction, and the slope part. A moving body equipped with a floating body part and a generator, the moving direction of which is controlled in a fixed direction by a guide mechanism and reciprocates by wave force, and a rod-like part laid on the inclined surface part and fitted thereto. And a gear mechanism interlocked with the generator, comprising a plurality of gear parts attached to the moving body including a gear to be driven. The generator extracts the wave force from the reciprocating motion of the moving body as rotational energy by the gear mechanism. To be able to generate electricity.
[0009]
In addition, in order to avoid that the reverse rotation phenomenon at the time of return and return due to the reciprocating motion of the moving body in the gear mechanism is transmitted to the generator as it is, only the rotational force in one direction is transmitted to the gear mechanism. The rotation direction of the rotating shaft of the generator is controlled in one direction by incorporating a clutch mechanism.
[0010]
Further, as a guide mechanism for controlling the moving direction of the moving body, an elongated guide member is fixed in parallel in the vicinity of both sides of the moving body on the inclined surface portion and is in contact with the guide member. A sliding portion capable of sliding or rotating is provided on a side portion of the moving body so that the moving body can be restricted from moving laterally and floating.
[0011]
By taking the above-described means, for example, the portion receiving the waves is inclined to reduce the possibility of turbulence and the attenuation of the wave force due to the collision of the waves, and at the height of the inclined surface portion above the sea and undersea. By ensuring sufficient dimensions, it is easy to respond to changes in the ebb and flow of the ebb and flow, etc., and a moving body that reciprocates by wave force, with the moving direction being controlled in a fixed direction on the inclined surface by a guide mechanism, is arranged. By transmitting the wave force from the reciprocating motion of the moving body to the generator as rotational energy by the gear mechanism, the conversion efficiency into electric energy is improved. In addition, if a gear mechanism that simply connects gears is used, the reverse rotation phenomenon associated with the reciprocating motion of the moving body is transmitted to the generator. In this case, a special switch mechanism that can cope with the reverse rotation phenomenon is provided on the generator side. As a countermeasure, the gear mechanism may be replaced with a clutch mechanism capable of controlling rotation in only one direction to avoid transmission of the reverse rotation phenomenon to the generator to facilitate power generation. By providing a horizontal surface portion above the inclined surface portion, the movable body can be lifted up and moored or transported, so that it is possible to cope with abnormal waves during a strong wind such as a typhoon and to facilitate facility maintenance and the like.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a wave power generation method and a wave power generation device of the present invention will be described below with reference to the drawings. 1 is a schematic side view and a cross-sectional view illustrating a wave power generation device of the present invention, FIG. 2 is a partial front view and a cross-sectional view illustrating an example of the power generation device, FIG. 3 is a partial plan view of the example of FIG. 4 and 5 are partial side views and cross-sectional views of the example of FIG. 2, and FIG. 6 is a schematic side view illustrating a case where the structure of the power generation device is fixed to the seabed with a pile and a method of transmitting power from the power generator. It is sectional drawing.
[0013]
As shown in FIGS. 1 to 5, the wave power generation method and the wave power generation device of the present invention have a main part in a region that receives waves forming a part of the building 1 fixed to the sea floor and extends from the sea to the sea. And a movable body 2a and a generator 2b which are reciprocated by wave force with the lateral movement and uplift being restricted by the guide mechanism 4 on the inclined surface part 1a and the movement direction being controlled by the guide mechanism 4. A gear mechanism 3 including a body 2, a plurality of gear parts 3b attached to a moving body 2 including a rod-like part 3a laid on the inclined surface part 1a and gears fitted thereto, and interlocked with a generator 2b; Consists of
[0014]
In addition, the gear mechanism 3 incorporates a clutch mechanism that transmits only one-way rotational force to control the rotation direction of the rotating shaft of the generator 2b in one direction. Further, in order to facilitate the reciprocating motion of the moving body 2, a moving body sliding member 5 having a small frictional resistance is provided on at least one of the surface of the inclined surface portion 1a and the lower part of the moving body 2. Further, a horizontal surface portion 1b is provided above the inclined surface portion 1a so that the moving body 2 can be pulled up and moored or transported. Further, as shown in FIG. 6, a plurality of overhead wire supports 6a installed on the inclined surface portion 1a, a suspension rope 6b stretched over the support 6a, and the electric wire 6c suspended in a state where it can be moved on the rope 6b and the movement The power generated by the power transmission mechanism 6 including the movable body-side support 6 d installed on the body 2 without disturbing the reciprocating motion of the movable body 2 can be transmitted. Note that the moving bodies 2 can be installed side by side at intervals on the inclined surface portion 1a. In that case, the above-described parts, mechanisms, and the like are provided as a set in each moving body 2. In the following, details of the main parts, mechanisms, and the like that should be additionally noted are described.
[0015]
The structure 1 fixed to the sea floor is mainly composed of a concrete structure similar to a breakwater as shown in FIG. 1 and fixed to the sea floor by its own weight, a steel pipe pile similar to a sea berth as shown in FIG. 6, and the like. The one fixed to the sea floor by 1c is used. The specifications such as the scale and the shape are appropriately set in association with the slope portion 1a and the moving body 2 from the wave conditions at the installation location, the tide level of the ebb and flow, and the required power generation scale. In addition, it is preferable that the location is set at a depth of about 3 to 20 m in consideration of economy and the like. In addition, existing breakwaters and the like can also be used as the structure of the present invention by providing the inclined surface portion 1a when conditions such as strength, waves, and water depth meet the conditions for achieving the object of the present invention. I can do it.
[0016]
The inclined surface portion 1a is made of a concrete structure whose main part is a thick plate-like concrete structure or a structure incorporating a metal plate or the like, and the inclination angle is set in a range of about 30 to 60 degrees. A rod-like portion 3a of the gear mechanism 3 is fixed to the portion 1a, and a moving body sliding member 5 for facilitating reciprocating movement of the guide column 4c of the guide mechanism 4 and the moving body 2; An overhead wire support 6 is optionally fixed. Further, it is preferable that the surface other than the portion where the above-described concave portion, the support, and the like are fixed is smooth. The horizontal surface portion 1b is made of a thick plate-like concrete structure whose main part conforms to the inclined surface portion 1a.
[0017]
The main body of the moving body 2 is composed of a floating body portion 2a, a generator 2b, and a support base 2c, and a gear 3b of a gear mechanism 3 and a sliding portion 4b of a guide mechanism 4 are additionally provided. As shown in FIG. The moving body-side support 6d of the mechanism 6 may be additionally provided. Further, the moving body 2 is configured such that the specific gravity is in a range of about 0.4 to 0.8 as a whole. The floating body portion 2a has a structure in which buoyancy is secured by sealing gas inside, and the outer shell is made of a material capable of maintaining the above structure without being easily damaged or deteriorated and achieving the object. In addition, a closed cell resin foam may be used instead of the gas. It is also preferable that the portion 2a can adjust the buoyancy. The generator 2b generates electricity by rotating a rotating shaft and has a waterproof function. However, as long as the structure and model of the generator can achieve the object of the present invention, There is no limitation. The specifications of the support base 2c including members and structures are appropriately set in association with the specifications of the floating body portion 2a, the generator 2b, and the gear 3b.
[0018]
The gear mechanism 3 is similar to a rod tooth and a gear used for a large-sized device, and is preferably made of a material that does not easily corrode. The rod-like portion 3a has a form commonly called a rack, and is fixed to the streak-shaped concave portion or the surface of the inclined surface portion 1a. Further, as the plurality of gears 3b, spur gears, helical gears, bevel gears, and other types of gears can be used as appropriate. It is preferable that the gear 3b be larger on the side of the rod-like portion 3a and smaller on the side of the generator 2b in order to increase the rotation speed of the generator 2b. Further, as the clutch mechanism for transmitting only one-way rotational force incorporated in the gear mechanism 3, for example, a mechanism incorporating a ratchet structure in a gear portion or a one-way clutch using a bearing or the like is used. There is no limitation as long as the clutch mechanism can achieve the purpose. As an example of the use of the gear mechanism 4 incorporating the clutch mechanism, as shown in FIGS. 3 to 5, two gear mechanisms having different rotation directions for controlling the number of gears by controlling the number of gears by incorporating the clutch mechanism. Although there is a method of assembling the three at both ends of the rotating shaft of the generator 2b, the present invention is not limited to this example.
[0019]
The guide mechanism 4 includes an elongated guide member 4a fixed in a parallel state near both sides of the moving body 2 on the inclined surface portion 1a, and a side of the moving body 2 which can slide or rotate in contact with the member 4a. It comprises a sliding portion 4b provided in the portion and a guide column 4c for fixing the member 4a to the inclined surface portion 1a, and controls the movement of the moving body in the lateral direction and the lifting of the moving body so as to reciprocate in one direction. The long guide member 4a is made of, for example, a metal such as iron having a cross section of an L-shape or a U-shape, or a material having a strength and durability equivalent thereto. The sliding portion 4b is made of a material having a small frictional resistance at least on the surface when sliding, and is provided with a roller when rotating, and a material having a small frictional resistance is, for example, a polymer. Hard resins such as polyethylene, polyamide, polyimide, and polyetheretherketone are preferable, but are not limited to the above examples as long as the object of the present invention can be achieved. It is also preferable to provide a streak-shaped concave portion in the inclined surface portion 1a and additionally provide a sub-guide member 4d below the support base 2c of the moving body 2 to ensure lateral control.
[0020]
The plurality of moving body sliding members 5 are fixedly arranged in a plurality of lines on at least one of the surface of the inclined surface portion 1a and the lower part of the moving body 2. Further, the settings of the shape of the members to be provided, the number of the members to be provided, and the like are appropriately set in consideration of the conditions of the moving body 2 and the like. As a material example of the member 5, a hard resin such as high-molecular polyethylene, polyamide, polyimide, and polyetheretherketone is preferable, but is not limited to the above example as long as the object of the present invention can be achieved.
[0021]
As shown in FIG. 6, for example, the power transmission mechanism 6 installs an overhead wire support 6 a on an inclined surface portion 1 a so as to correspond to the maximum movement range of the moving body 2 and stretches a suspension rope 6 b, and A ring-shaped member is attached to the rope 6b in a penetrating state, and the insulated wire 6c is fastened to the ring-shaped member at a constant pitch to suspend the wire 6c in a movable state. Also, a ring-shaped portion is provided, and the suspension rope 6b is arranged to penetrate the ring-shaped portion of the support post 6d below the lowermost end of the electric wire ring-shaped member so that the moving body-side support 6d moves and the electric wire 6c is moved. The electric wire 6c is expanded and contracted by utilizing the drop due to its own weight, so that the electric power can be transmitted without obstructing the reciprocating movement of the moving body 2. The mechanism 6 has a member configuration capable of avoiding a power transmission failure due to seawater leakage, weather resistance deterioration, and the like due to seawater.
[0022]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, in wave power generation, it can be expected that wave power is efficiently converted into electric energy, and it can easily respond to changes in tide level and tidal current and abnormal waves in strong winds, as well as construction, operation and maintenance. It is possible to provide a relatively easy wave power generation method and wave power generation device, etc. under the current situation where the deterioration of the global environment is serious and improvement measures are urgent. In place of thermal power generation and nuclear power generation, which have the problem of environmental destruction by burning fossil fuels in power generation, instead of nuclear power generation with safety issues, globally friendly power generation using wave power with enormous potential energy when viewed on a global scale Can contribute to
[Brief description of the drawings]
FIG. 1 is a schematic side view and a cross-sectional view illustrating a wave power generation device of the present invention. FIG. 2 is a partial front view and a cross-sectional view illustrating an example of the power generation device. FIG. 3 is a partial plan view of the example of FIG. 4 is a partial side view and a cross-sectional view in one direction of the example in FIG. 2; FIG. 5 is a partial side view and a cross-sectional view in another direction of the example in FIG. 2; FIG. 4 is a schematic side view and a cross-sectional view showing a case where the power supply is fixed to a power source and a method of transmitting power from a generator.
[Explanation of symbols]
1; a structure 1a fixed to the sea floor; an inclined surface portion 1b forming a part of the structure; a horizontal surface portion 1c forming a part of the structure; a steel pipe pile fixed to the sea bottom of the structure 2; a moving body 2a; a floating body portion 2b; Generator 2c; support base 3; gear mechanism 3a; rod-like portion 3b; gear portion 4; guide mechanism 4a; elongated guide member 4b; sliding portion 4c: guide column 4d; sub-guide member 5; Sliding member 6; power transmission mechanism 6a; overhead wire support 6b; suspension rope 6c; electric wire 6d; moving body side support 7; wave 8;

Claims (5)

A part receiving waves forming a part of the structure fixed to the seabed, a slope part in a range extending from the sea to the sea in the height direction, and a moving direction on the slope part is controlled in a fixed direction by a guide mechanism. A moving body including a floating body part reciprocating by wave force and a generator, and a plurality of gears attached to the moving body including a rod-like part laid on the inclined surface part and a gear fitted to the rod-like part. A wave power generator, comprising: using a gear mechanism composed of parts and interlocking with the generator, extracting wave power from the reciprocating motion of the moving body as rotational energy by the gear mechanism and transmitting the rotation power to the generator to generate power. Method. A clutch mechanism that transmits only one-way rotational force to the gear mechanism in order to avoid that the reverse rotation phenomenon at the return and the return accompanying the reciprocating motion of the moving body in the gear mechanism is transmitted to the generator as it is. 2. The wave power generation method according to claim 1, wherein the power generation is performed by controlling the rotation direction of the rotating shaft of the generator in one direction. The main part is a part receiving waves forming a part of the structure fixed to the sea floor, a slope part in the range extending from the sea to the sea in the height direction, and the moving direction on the slope part is constant by the guide mechanism A moving body having a floating body part controlled in the direction and reciprocating by wave force and a generator, and a moving body including a rod-like part laid on the inclined surface part and a gear fitted to the same are provided. And a gear mechanism interlocked with the generator comprising a plurality of gear parts, and the wave force can be taken out from the reciprocating motion of the moving body as rotational energy by the gear mechanism and transmitted to the generator to generate power. A wave power generator, characterized in that: A clutch mechanism that transmits only one-way rotational force to the gear mechanism in order to avoid that the reverse rotation phenomenon at the return and the return accompanying the reciprocating motion of the moving body in the gear mechanism is transmitted to the generator as it is. The wave power generator according to claim 3, wherein the wave power generator is incorporated to control the rotation direction of the rotating shaft of the generator in one direction. As a guide mechanism for controlling the moving direction of the moving body, a long guide member is fixed in parallel in the vicinity of both sides of the moving body on the inclined surface portion and is in contact with the guide member and slides or slides. The wave power generation according to claim 3 or 4, wherein a rotatable sliding portion is provided on a side of the moving body so as to limit the movement and floating of the moving body in a lateral direction. apparatus.

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