WO2012065504A1 - Ocean wave energy-storing and power-generating device - Google Patents

Abstract

An ocean wave energy-storing and power-generating device comprising a base (1), a caisson (2), a fluted disc assembly (3), a buoyancy power assembly (4), a power gear unit (5), a cylinder assembly (6), a gas-storage tank (7), a gas pressure power assembly (8), and an electricity generator (9). The present device utilizes the buoyancy and pushing force of ocean waves to push a buoy (41) and a push pedal (42), so that the push pedal pushes and actuates a fluted disc (32). The fluted disc (32) then drives the gear unit, and the gear unit drives the cylinder assembly. The high-pressure gas inside of the cylinder assembly is introduced into the high-pressure-gas-storage tank, and is used to drive the gas pressure power assembly, thereby transferring kinetic energy to the electricity generator. The electricity generator then distributes the electricity generated. The device is simply in structure and highly efficient in electricity generation.

Description

 Wave energy storage power generation device Technical field

The invention relates to the technical field of power generation equipment, in particular to a device for generating electricity by using tidal waves.

Background technique

The action of the wind and the sea creates waves, and the waves can be one of the hydropower resources expressed in the form of kinetic energy. In 1977,

Some people have calculated the waves with an average wave height of 1 meter and a period of 1 second in the world's oceans.

The power is about 70 billion kilowatts, of which about 2.5 billion kilowatts can be developed and utilized, which is similar to tidal energy. Wave

There is such a rich amount of energy, such as transforming the kinetic energy of the waves into electrical energy, making the disaster of creating disasters

Canglang serves human beings and is the ideal that people have dreamed of for many years.

As early as the 1970s, Stephen Solt, an engineer at the University of Edinburgh in the UK, invented the use of the sea.

Wave power generation "Edinburgh Duck" wave power generation device. After that, many countries in the world, such as the United Kingdom, Japan,

The United States, Canada, Finland, Denmark, France, etc. are researching and testing wave power generation, and have successively proposed

Hundreds of power plant design solutions. However, due to technical problems of one kind or another, wave power generation

There has been no major breakthrough in research. Until today, in terms of energy development, the use of wave energy is still

It is behind the use of wind and tidal energy.

Chinese invention patent publication number CN101688511, publication date: March 31, 2010, the name of the invention

Invention patent for a power generating device; discloses a wave power generating device including at least one float or buoy

(1) or a plurality of connected floats or pontoons (2) characterized in that the float or pontoon (1) is shaped or connected

The float or pontoon (2) is set to be asymmetrical with respect to the direction of advancement of the ocean wave, thus the float or pontoon

(1) or a member (3) that connects the connected float or pontoon due to waves that continuously advance in the direction

a buoyancy movement in which the wave power generating device includes components (5, 6, 7, 9, 10) for

The rotary motion is converted into a rotary motion to output power.

A float or pontoon (1) or a bracket (3) interconnecting a plurality of floats or pontoons (2) is anchored with a long cable (8)

At a predetermined angular position of the direction of advancement of the wave, the cable (8) allows displacement due to the advancement of the wave,

As long as the wave direction is changed, the angular position can be maintained.

technical problem

A wave power generating device adopting such a structure can generate electricity by using tidal waves, but the structure is

The wave power generating device has a complicated structure and a high implementation cost.

Technical solution

In order to overcome the above drawbacks, an object of the present invention is to provide a sea having a simple structure and high power generation efficiency.

Wave energy storage device.

The object of the present invention is achieved by the following technical solutions:

The invention relates to a wave energy storage power generation device, which mainly utilizes the thrust of sea waves and the buoyancy of sea water to turn

A power generation mechanism that is replaced by a power, including: a base, a caisson, a toothed disc set, a floating propulsive force group, and a power tooth

Wheel unit, cylinder group, gas storage barrel, pneumatic power unit, generator;

Wherein the base is provided with a notch;

The caisson is disposed under the base to correspond to a caisson in the immersed seawater;

The set of toothed discs includes: two corresponding rails fixed at the notch of the base, and the two rails are assembled

a toothed disc, and the toothing on the inner side of the toothed disc is located at the notch of the base;

The floating urging force group includes a pontoon floating in the water, the pontoon being fixed under the sprocket wheel on the pontoon

Fixing a push plate capable of receiving the thrust of the sea wave, and a support rod for positioning is fixed between the push plate and the tooth plate;

The power gear unit is meshed with the toothed disc of the toothed disc set and transmits power through the crankshaft;

The cylinder group is at least one cylinder group, and the piston rod of the cylinder group is connected with the crank rod to receive the song

The power of the shaft is supplied to the piston rod for compressed air;

The gas storage barrel is coupled to the cylinder bank for storing high pressure gas input by the cylinder group;

The pneumatic power group is an element that generates power for receiving a high pressure gas of the gas storage tank;

The generator is coupled to the pneumatic power pack and is driven to generate electric power.

Further, the power gear unit includes a main gear that meshes with a corresponding toothed disc, and the main gear

The center of the wheel extends as a crankshaft to drive the transmission of power to the cylinder bank.

As another improvement, the power gear unit includes a main gear that meshes with the corresponding toothed disc,

And having a crankshaft driven gear; the main gear drives the driven gear with the crankshaft to drive transmission

Power to the cylinder bank.

Further, the pipeline connecting the cylinder block and the gas storage tank is provided for preventing high pressure gas from flowing back

Check valve.

Further, the pedestal is provided with a wind mechanism, the wind mechanism includes: a rotating shaft, and is disposed at the rotating

A blade group on the shaft that is affected by the wind force to rotate the rotating shaft, and a power generating mechanism coupled to the rotating shaft.

Further, the side of the base is provided with a maintenance door and an entry ladder for the maintenance personnel to enter.

Further, the wave energy storage power generation device further includes: being disposed between two adjacent power generation mechanisms

Concentrating the waves into the dike.

Further, the pedestal is provided with corresponding engaging portions so as to be connected and positioned by the engaging portion.

A power generation mechanism.

Beneficial effect

The wave energy storage power generation device adopting the structure has a simple mechanism, and mainly uses the buoyancy of sea water.

a power generation mechanism that converts into a power with the thrust of the waves, which is provided with a sink in the submerged water under the pedestal.

The box is further provided with a toothed disc located in the rail on the caisson, and the bottom of the toothed disc is correspondingly fixed with a push plate and a float.

And the push plate is then positioned by the strut and the toothed disc to use the buoyancy and thrust of the wave to push the buoy and push

The plate is pushed by the push plate to push the toothed disc to move, so that the toothed disc drives the gear unit, so that the gear unit drives the cylinder

Group, let the high pressure gas inside the cylinder group be introduced into the high pressure gas storage tank, so that the high pressure gas pushes the air pressure

The power group, and the kinetic energy is transmitted to the generator, so that the generator can distribute the generated power;

The driving force of gathering natural resources to convert them into electricity.

DRAWINGS

For ease of description, the present invention is described in detail by the following preferred embodiments and the accompanying drawings.

1 is a schematic overall structural view of an embodiment of a sea wave energy storage power generation device according to the present invention;

2 is a schematic view showing the working process of an embodiment of a wave energy storage power generation device according to the present invention;

3 is a partial structure of a power gear unit of an embodiment of a sea wave energy storage power generation device according to the present invention;

schematic diagram;

4 is a schematic view showing a partial structure of a cylinder group of an embodiment of a sea wave energy storage power generation device according to the present invention;

Figure

FIG. 5 is a schematic diagram showing a partial structure of a dike according to an embodiment of a sea wave energy storage power generation device according to the present invention; FIG.

Figure.

BEST MODE FOR CARRYING OUT THE INVENTION

In order to make the objects, technical solutions and advantages of the present invention more clear, the following

The invention will be further described in detail by way of examples. It should be understood that the specifics described herein

The examples are merely illustrative of the invention and are not intended to limit the invention.

1 to FIG. 5, a sea wave energy storage power generation device according to the present invention includes: a base 1, a caisson 2,

Gear set 3, floating thrust group 4, power gear unit 5, cylinder bank 6, gas storage tank 7, air pressure

Power group 8, generator 9;

Wherein, the base 1 is provided with a notch 14;

The caisson 2 is disposed below the base 1 to correspond to the caisson 2 in the immersed seawater;

The set of toothed discs 3 includes: two corresponding rails 31 fixed at the notch 14 of the base 1

The toothed discs 32 are disposed in the two rails 31, and the teeth on the inner side of the racks 32 are located at the notches of the base 1.

14 places;

The floating urging force group 4 includes a pontoon 41 that floats up in the water, and the pontoon 41 is fixed to the sprocket wheel 32.

Below, a push plate 42 capable of receiving the thrust of the wave is fixed on the float 41, and the push plate 42 and the chainring

32 affixed with a struts 43 for positioning;

The power gear unit 5 meshes with the toothed disc 32 of the sprocket set 3 and moves through the crankshaft 50

Force transmission

The cylinder group 6 is at least one cylinder group, and the piston rod 61 of the cylinder group is in phase with the crank rod 50

Connected to receive the power of the crankshaft 50 to the piston rod 61 for compressed air;

The gas storage tank 7 is coupled to the cylinder bank 6 for storing the high pressure gas input by the cylinder group 6;

The pneumatic power group 8 is an element that generates power for receiving high pressure gas of the gas storage tank 7;

The generator 9 is coupled to the pneumatic power unit 8 and is driven to generate electric power.

The power gear unit 5 includes a main gear 51 that meshes with the toothed disc 32, and the main gear

The wheel 51 extends centrally as a crankshaft 50 to drive transmission of power to the cylinder bank 6.

As a further improvement, the power gear unit 5 includes a main body that meshes with the corresponding toothed disc 32.

Gear 51, and crankshaft 50 driven gear 52; driven by main gear 51 with crankshaft

The driven gear 52 of the rod 50 drives the transmission of power to the cylinder bank 6.

The pipeline connecting the cylinder block 6 to the gas storage tank 5 is provided with a counter for preventing high pressure gas from flowing back.

Stop the valve.

The base 1 is provided with a wind power mechanism 8 including: a rotating shaft 81, and is disposed at

The blade group 82 on the rotating shaft 81 and which is affected by the wind force to rotate the rotating shaft 81, and the rotating shaft 81

Connected power generation mechanism 83.

The maintenance door 11 and the entry ladder 12 are provided on the side of the base 1 for maintenance personnel to enter.

The wave energy storage power generation device further includes: a device disposed between two adjacent power generation mechanisms

Leading bank A introduced in.

The base 1 is provided with correspondingly engaged engaging portions 13 so as to be connected and positioned by the engaging portion 13

Every power generation organization.

In use, it is provided with a caisson 2 under the pedestal 1 and immersed in the damper block near the coast.

In the seawater, while the pedestal 1 is notched 14 is corresponding to the inset ring gear 32 in the two corresponding tracks 31

Inside, the lower part of the toothed disc 32 is provided with a pontoon 41, and the pontoon 41 is correspondingly fixed to receive the surf

The push plate 42 of the thrust, and the push plate 42 and the toothed disc 32 are fixed by a rod 43.

In addition, the tooth portion inside the toothed disc 32 is correspondingly meshed with the power gear unit 5, and the power gear

The unit 5 is such that a main gear 51 is correspondingly engaged with the toothed disc 32, and the main gear 51 is extended in the center.

The cylinder block 6 is driven by the crankshaft 50, or the main gear 51 is meshed with the toothed disc 32, and then

The driven gear 52 having the crankshaft 50 is driven via the main gear 51 to drive the cylinder group 6, and

The piston rods 61 of the plurality of cylinder groups 6 are respectively coupled to the crank rod 50, and the cylinder group 6 is guided.

Connected to a gas storage tank 7; when the floating driving force group 4 is subjected to the buoyancy and thrust of the wave, it rises and falls in the water

The pontoon 41 and the push plate 42 push the spur 32 to allow the sprocket 32 to follow the buoyancy and thrust of the wave.

The upper and lower movable displacements in the rail 31, and the displacement of the toothed disc 32 drives the meshed power gear unit

5. The cylinder block 6 is driven by the central portion of the main gear 51 as a crankshaft 50, or the main gear 51 is driven.

Driving the driven gear 52 with the crankshaft 50 to drive the cylinder bank 6, while the cylinder bank 6 is taken

a moving piston rod 61 to compress air to the gas storage tank 7, and a check valve is arranged on the pipeline to allow steam

The cylinder group 6 is pressed into the gas storage tank 7 and the high pressure gas does not flow back. The gas storage tank 7 is provided with a pipeline corresponding to the pneumatic pressure.

Force group 8, to use the output high pressure gas to start the pneumatic power group 8 operation, while the pneumatic power group 8 borrows

It is driven by a rotating shaft connected to the generator 9.

When the waves are applied to the floating force group 4, the thrust of the waves and the buoyancy of the seawater will cause the toothed disc 32 to

l; when the wave recedes, the weight of the toothed disc 32 itself causes the toothed disc 32 to descend, so the toothed disc 32

Will swing up and down, to drive the power gear unit 5 to push the cylinder group 6, so that the cylinder group 6

The air is compressed into a high-density high-pressure gas, and then the high-pressure gas in the cylinder group 6 is used.

The pipeline is input into the gas storage tank 7, and a check valve is arranged on the pipeline to press the cylinder group 6 into the gas storage

The high pressure gas in the barrel 5 does not flow back, and also ensures that the pressure between the cylinder group 6 and the gas storage tank 7 is different.

Next, the high pressure gas in the gas storage tank 7 does not flow back, and the gas storage tank 7 is provided with a pressure setting to

When the gas reaches the pressure setting, the high pressure gas is sent through the pipeline to start the pneumatic power unit 8, one

The machine will be more power-consuming at the beginning of the initial start, and the high-pressure gas has enough driving force to start.

Dynamic pneumatic power group 8, and when the pneumatic power group 8 is running, the generator 9 can be driven to generate electricity.

The machine 9 produces the power, and the power is drawn by the generator 9 and the pipeline is unified.

Go out and supply him.

In addition, a wind mechanism 10 is further disposed on the base 1 and includes a rotating shaft 101, and

a blade group 102 that is disposed on the rotating shaft 101 and is rotated by the wind force to rotate the rotating shaft 101,

And a generator 103 coupled to the rotating shaft 101; when the wind blows on the sea surface, the blade group

102 drives the rotating shaft 101 to rotate, and one end of the rotating shaft 101 can be corresponding to a universal joint.

Connected to the generator 103 to transmit the power of the rotating shaft 101 to the generator 103,

The motor 103 generates power, and the power is drawn by the power generation mechanism.

A transmission and distribution to supply him; to use the wind on the sea to help increase the efficiency of power generation.

In addition, as shown in FIG. 1, the side of the base 1 is provided with a maintenance door 11 for maintenance personnel to enter.

Log in to the ladder 12; in addition, please refer to the fifth figure, in order to let the waves in the two adjacent power generation

Inductive wave booster A can be provided between the agencies to introduce the waves into the wave by the wave guide A to allow power generation.

The organization can collect more power resources; and each power generation mechanism can have a corresponding connection on the base 1

The engaging portion 13 of the knot can be connected to each power generating mechanism by the engaging portion 13 so as not to let

The waves break up and the power can be collected.

The above is only the preferred embodiment of the present invention and is not intended to limit the present invention.

Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention shall be included in the present invention.

Within the scope of protection.

Embodiments of the invention

Industrial applicability

Sequence table free content

Claims (8)

1. A wave energy storage power generation device mainly comprises: a base, a caisson, a toothed disk set, and a floating

   Driving force group, power gear unit, cylinder group, gas storage barrel, pneumatic power unit, hair

   Motor

   The pedestal is provided with a notch;

   The caisson is disposed under the base to correspond to a caisson in the immersed seawater;

   The set of toothed disks includes: two corresponding tracks fixed at a notch of the base,

   a toothed disc is arranged in the two rails, and the toothing on the inner side of the toothed disc is located at the notch of the base;

   The floating driving force group includes a floating buoy floating in the water, and the floating cylinder is fixed under the toothed disc

   Fang, a push plate for receiving the thrust of the wave is fixed on the float, and the push plate and the tooth plate are arranged

   a pole for positioning;

   The power gear unit is meshed with the toothed disc of the toothed disk set and powered by the crankshaft

   transmission;

   The cylinder group is at least one cylinder group, and the piston rod of the cylinder group is connected to the crank rod.

   Providing compressed air to the piston rod for receiving power of the crankshaft;

   The gas storage barrel is coupled to the cylinder bank for storing high pressure gas input by the cylinder group

   body;

   The pneumatic power group is an element that generates power for receiving a high pressure gas of the gas storage tank;

   The generator is coupled to the pneumatic power pack and is driven to generate electric power.
2. A wave energy storage power generation device according to claim 1, wherein said power is

   The gear unit includes a main gear that meshes with the corresponding toothed disc, and the main gear center extends

   The crankshaft is used to drive the transmission of power to the cylinder bank.
3. A wave energy storage power generation device according to claim 1, wherein said power is

   The gear unit includes a main gear that meshes with the corresponding toothed disc, and has a crankshaft driven

   Gear; the driven gear with the crankshaft is driven by the main gear to drive the transmission power to the steam

   Cylinder group.
4. A wave energy storage power generation device according to claim 2, wherein said cylinder bank

   The line connected to the gas storage tank is provided with a check valve for preventing high pressure gas from flowing back.
5. A wave energy storage power generation device according to claim 4, wherein said pedestal

   Providing a wind mechanism comprising: a rotating shaft, and being disposed on the rotating shaft and receiving the wind

   A blade group that can rotate the rotating shaft and a power generating mechanism that is coupled to the rotating shaft.
6. A wave energy storage power generation device according to claim 5, wherein said base side

   There are maintenance doors and landing ladders for maintenance personnel to enter.
7. A wave energy storage power generation device according to claim 6, wherein said wave storage

   The power generation device further includes: disposed between two adjacent power generation mechanisms, and is provided with concentrating the waves

   Introduced dike.
8. A wave energy storage power generation device according to claim 6 wherein said pedestal

   There are corresponding engaging portions.

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