CN102748198A

CN102748198A - Marine physical energy comprehensive conversion power generation system

Info

Publication number: CN102748198A
Application number: CN2012102277700A
Authority: CN
Inventors: 丁传明; 王振铎
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-07-02
Filing date: 2012-07-02
Publication date: 2012-10-24
Anticipated expiration: 2032-07-02
Also published as: CN102748198B

Abstract

The invention provides a marine physical energy comprehensive conversion power generation system, belonging to the field of marine energy conversion and power generation technology. The marine physical energy comprehensive conversion power generation system comprises a floating working platform, a single frame body fixing base, a first floating ball, a first cylinder body, a first gemel, a single frame body, a first gear pump, a second gear pump, a first water turbine, a drainage cabin, a water storage bin, an electric generator, a second gemel, a second cylinder body, a second floating ball, a main frame body, a main frame body fixing base, a second water turbine, a wind power guide channel, a first rope, a rope fixing pile, a flywheel, a second rope, a third cylinder body, a fourth cylinder body, a third gemel, a cam, an outer shell, a brake pad, a wind direction board and a wind collecting cover. The marine physical energy comprehensive conversion power generation system has the advantages of being stable in structure, complete in protection functions and capable of comprehensively utilizing the wave, tide, ocean current and wind energy of the ocean for generating power. The marine physical energy comprehensive conversion power generation system takes the inexhaustible energy of the nature as power sources, thus realizing clean energy and environmental protection indeed, and reaching the aims of zero pollution and zero emission.

Description

Marine physics energy synthesis conversion power generation system

Technical field

The present invention relates to a kind of marine physics energy synthesis conversion power generation system, belong to ocean energy conversion and technical field of power generation.

Background technique

Existing thermal power generation need utilize the coal burning generating of nature, has not only caused the significant wastage of the limited energy, and the waste gas that coal burning produces directly is discharged in the atmosphere, causes the foul pollution of air, simultaneously environment is caused great destruction.Existing water generating need block water and build a dam, and wastes huge manpower and materials and financial resources, and not only limited water resource seldom also causes great destruction to environment simultaneously.

Summary of the invention

The objective of the invention is for solving existing problem, and then a kind of marine physics energy synthesis conversion power generation system is provided.

The objective of the invention is to realize through following technological scheme:

A kind of marine physics energy synthesis conversion power generation system; Comprise: working platform, monomer support body immobilizing foundation, first ball float, first cylinder body, first hinge, monomer support body, first gear pump, second gear pump, first water turbine, draining storehouse, water storing bin, generator, second hinge, second cylinder body, second ball float, body frame body, body frame body immobilizing foundation, second water turbine, wind-force guide channel, first hawser, hawser fixing stake, flywheel, second hawser, the 3rd cylinder body, the 4th cylinder body, the 3rd hinge, cam, frame, brake block, wind direction board, wind-collection cover, bearing and one-way valve float; Unsteady working platform swims in the zone of body frame body; The working platform that floats is fixed on the hawser fixing stake through first hawser, and water storing bin and draining storehouse are located at the inside of the working platform that floats; Monomer support body immobilizing foundation and body frame body basic fixed are in the seabed, and monomer support body and body frame body are individually fixed on monomer support body immobilizing foundation and the body frame body immobilizing foundation; One end of n first cylinder body is evenly arranged and is fixed on the outside of frame through the 3rd hinges fixing, and cam is fixed on the 3rd hinge; The other end of n first cylinder body is fixed with first ball float, and an end of first ball float fixes on the monomer support body through first hinges fixing; N the brake block of evenly arranging is equipped with in the inside of frame, and frame is sleeved on the support unit together with brake block; The water intake up and down of first cylinder body is connected to one-way valve; Second water turbine is fixed on the working platform that floats; The output shaft of second water turbine is connected with second gear pump; The water intake of second gear pump and water outlet all are connected with one-way valve, and the wind-force guide channel is fixed on the working platform that floats, and wind-collection cover passes through bearing fixing on the wind-force guide channel together with wind direction board; Flywheel is hingedly fixed on the working platform that floats through support; One end of the 3rd cylinder body and the 4th cylinder body is connected on the transmission shaft of flywheel; The other end of the 3rd cylinder body and the 4th cylinder body is hingedly fixed on the working platform that floats, and the water intake of the 3rd cylinder body and the 4th cylinder body is connected with one-way valve, and the water outlet of the 3rd cylinder body and the 4th cylinder body is connected with one-way valve; The seabed portion that one end of second hawser is fixed on the working platform that floats and the other end is fixed on the body frame body after tightly being wrapped on the flywheel; The transmission shaft of flywheel is connected with first gear pump, and the water intake of first gear pump is connected with one-way valve, and the water outlet of first gear pump is connected with one-way valve; First water turbine is installed in the draining storehouse, and the output shaft of first water turbine is fastened on the transmission shaft of the generator in the working bin; One end of second cylinder body is hingedly fixed on the working platform that floats; The other end of second cylinder body is connected with second ball float; Second ball float fixes on the working platform that floats through second hinges fixing, and the water intake of second cylinder body is connected with one-way valve, and the water outlet of second cylinder body is connected with one-way valve.

The present invention compared with prior art has following advantage: structural stability, protective function is complete, can fully utilize wave, morning and evening tides, ocean current and the wind energy power of ocean.Power generation system of the present invention is to take from the inexhaustible energy of nature as power source, has really accomplished clean energy resource and environmental protection, has realized that zero pollutes and zero-emission.

Description of drawings

Fig. 1 is the structural representation of marine physics energy synthesis conversion power generation system of the present invention;

Fig. 2 is the side view of marine physics energy synthesis conversion power generation system;

Fig. 3 is the plan view of marine physics energy synthesis conversion power generation system;

Fig. 4 is that the A of Fig. 1 is to view;

Fig. 5 is that the B of Fig. 1 is to view;

Fig. 6 is that the C of Fig. 2 is to view;

Fig. 7 is that the D of Fig. 3 is to view.

Embodiment

To combine accompanying drawing that the present invention is done further detailed description below: present embodiment provided detailed mode of execution, but protection scope of the present invention is not limited to following embodiment being to implement under the prerequisite with technological scheme of the present invention.

Like Fig. 1～shown in Figure 7; A kind of marine physics energy synthesis conversion power generation system that present embodiment provides; Comprise: the working platform 1 that floats, monomer support body immobilizing foundation 2, first ball float 3, first cylinder body 4, first hinge 5, monomer support body 6, first gear pump 8, second gear pump 9, first water turbine 11, draining storehouse 12, water storing bin 13, generator 14, second hinge 15, second cylinder body 16, second ball float 17, body frame body 18, body frame body immobilizing foundation 19, second water turbine 20, wind-force guide channel 21, first hawser 23, hawser fixing stake 24, flywheel 26, second hawser 27, the 3rd cylinder body 28, the 4th cylinder body 29, the 3rd hinge 30, cam 31, frame 32, brake block 33, wind direction board 34, wind-collection cover 35, bearing 36 and one-way valve 37; The working platform 1 that floats swims in the zone of body frame body 18; The working platform 1 that floats is fixed on the hawser fixing stake 24 through first hawser 23, and water storing bin 13 and draining storehouse 12 are located at the inside of the working platform 1 that floats; Monomer support body immobilizing foundation 2 is fixed in the seabed with body frame body basis 19, and monomer support body 6 is individually fixed on monomer support body immobilizing foundation 2 and the body frame body immobilizing foundation 19 with body frame body 18; One end of n first cylinder body 4 is evenly arranged and is fixed on the outside of frame 32 through the 3rd hinge 30, and cam 31 is fixed on the 3rd hinge 30; The end that the other end of n first cylinder body 4 is fixed with first ball float, 3, the first ball floats 3 is fixed on the monomer support body 6 through first hinge 5; N the brake block 33 of evenly arranging is equipped with in the inside of frame 32, and frame 32 is sleeved on the support unit 6 together with brake block 33; The water intake up and down of first cylinder body 4 is connected to one-way valve 37; Second water turbine 20 is fixed on the working platform 1 that floats; The output shaft of second water turbine 20 is connected with second gear pump 9; The water intake of second gear pump 9 and water outlet all are connected with one-way valve 37, and wind-force guide channel 21 is fixed on the working platform 1 that floats, and wind-collection cover 35 is fixed on the wind-force guide channel 21 through bearing 36 together with wind direction board 34; Flywheel 26 is hingedly fixed on the working platform 1 that floats through support; One end of the 3rd cylinder body 28 and the 4th cylinder body 29 is connected on the transmission shaft of flywheel 26; The other end of the 3rd cylinder body 28 and the 4th cylinder body 29 is hingedly fixed on the working platform 1 that floats; The water intake of the 3rd cylinder body 28 and the 4th cylinder body 29 is connected with one-way valve 37; The water outlet of the 3rd cylinder body 28 and the 4th cylinder body 29 is connected with the seabed portion that an end is fixed on the working platform 1 that floats and the other end is fixed on body frame body 18 after tightly being wrapped on the flywheel 26 of one-way valve 37, the second hawsers 27, and the transmission shaft of flywheel 26 is connected with first gear pump 8; The water outlet that the water intake of first gear pump 8 is connected with one-way valve 37, the first gear pumps 8 is connected with one-way valve 37; First water turbine 11 is installed in 12 li in draining storehouse, and the output shaft of first water turbine 11 is fastened on the transmission shaft of the generator 14 in the working bin; One end of second cylinder body 16 is hingedly fixed on the working platform 1 that floats; The other end of second cylinder body 16 is connected with second ball float 17; Second ball float 17 is fixed on the working platform 1 that floats through second hinge 15; The water outlet that the water intake of second cylinder body 16 is connected with one-way valve 37, the second cylinder bodies 16 is connected with one-way valve 37.

The bottom that the outside in said draining storehouse 12 or draining storehouse are connected to the working platform that floats is provided with drain opening 7.

The bottom of said water storing bin 13 is equipped with discharge opening 10.

Further, also comprise yielding rubber 22, said yielding rubber 22 is installed in above the outer of the working platform 1 that floats.Be used to absorb the working platform rolling energy across the sea that floats.

Also comprise closed hood 25, said closed hood 25 is fixed on the working platform 1 that floats and covers second water turbine 20.Be used to seal water turbine.

Also comprise filter screen 38, the feed-water end that the feed-water end of the one-way valve 37 of the feed-water end of the feed-water end of said first gear pump, 8 water intake one-way valves 37, second gear pump, 9 water intake one-way valves 37, the water intake up and down of first cylinder body 4, the water intake of second cylinder body 16 are connected with the feed-water end of one-way valve 37, the 3rd cylinder body 28 and the 4th cylinder body 29 water intake one-way valves 37 all is equipped with filter screen 38.Be used for filtering sea.

Working principle:

1, utilize the wave of ocean:

Swim in individual first ball float 3 of n and second ball float 17 on sea; And unsteady working platform 1 comes interim at wave; Individual first ball float 3 of n and second ball float 17 and unsteady working platform 1 receive wave to promote the influence of energy; Individual first ball float 3 of n and second ball float 17 move up around first hinge 5 and second hinge 15; The piston that when moving, drives 16 li of first cylinder body 4 and second cylinder bodies moves up; Seawater gets into cylinder body through the following water intake of first cylinder body 4 and second cylinder body 16 from filter screen 38 and one-way valve 37, and first cylinder body 4 and second cylinder body 16 seawater in last water intake gets into cylinder body enters the water storing bin of the working platform 1 that floats through one-way valve through the upper water-out mouth simultaneously; Float working platform 1 when wave arrives to move up; Drive flywheel 26 rotations through second hawser 27; Flywheel 26 drives 8 rotations of first gear pump, and seawater enters the water storing bin 13 of the working platform 1 that floats through one-way valve from the water intake suction of first gear pump 8 and from drain opening through filter screen, one-way valve; The influence that flywheel 26 is rocked by unsteady working platform; Flywheel 26 moves down around support bracket fastened hinge; The piston that drives 29 li of the 3rd cylinder body 28 and the 4th cylinder bodies moves down; Seawater gets into cylinder body through the last water intake of the 3rd cylinder body 28 and the 4th cylinder body 29 from filter screen and one-way valve, and the 3rd cylinder body 28 and the 4th cylinder body 29 enter the water storing bin 13 of the working platform 1 that floats through one-way valve through lower outlet from the seawater that following water intake gets in the cylinder body simultaneously; When the wave past tense; Individual first ball float 3 of n and second ball float 17; Lean on the effect of self gravitation to move down around first hinge 5 and second hinge 15; The piston that when mobile, drives 16 li of first cylinder body 4 and second cylinder bodies moves down, and seawater gets into cylinder body through the last water intake of first cylinder body 4 and second cylinder body 16 from filter screen and one-way valve, and first cylinder body 4 and second cylinder body 16 enter the water storing bin 13 of the working platform 1 that floats through one-way valve through lower outlet from the seawater in the following water intake entering cylinder body simultaneously; The working platform 1 that floats leans on the effect of self gravitation to move down; When mobile; Drive flywheel 26 rotations through second hawser 27; Flywheel 26 drives 8 rotations of first gear pump, and seawater enters the water storing bin 13 of the working platform 1 that floats through one-way valve from the water intake suction of first gear pump 8 and from drain opening through filter screen, one-way valve; The influence that flywheel 26 is rocked by unsteady working platform; Flywheel 26 moves up around support bracket fastened hinge; The piston that drives 29 li of the 3rd cylinder body 28 and the 4th cylinder bodies moves up; Seawater gets into cylinder body through the following water intake of the 3rd cylinder body 28 and the 4th cylinder body 29 from filter screen and one-way valve, and the 3rd cylinder body 28 and the 4th cylinder body 29 seawater in last water intake gets into cylinder body enters the water storing bin 13 of the working platform 1 that floats through one-way valve through the upper water-out mouth simultaneously, accomplishes the storage of retaining energy.

2, utilize the ocean current of ocean:

N second water turbine 20 is fixed on the working platform 1 that floats; When marine stream; Utilize the energy of marine stream to promote 20 rotations of second water turbine; Second water turbine 20 drives 9 rotations of second gear pump, and seawater gets into second gear pump 9 from the water outlet of second gear pump 9 through filter screen and one-way valve from the water intake of second gear pump 9 again and enters the water storing bin 13 of unsteady working platform 1 through one-way valve; Accomplish the storage of retaining energy.

3, utilize the tide of ocean:

When high tide; The working platform 1 that floats is moved up by the influence of high tide; Moving, driving flywheel 26 rotations through second hawser 27, flywheel 26 drives 8 rotations of first gear pump; Seawater is through filter screen, and one-way valve enters the water storing bin 13 of the working platform 1 that floats through one-way valve from the water intake suction of first gear pump 8 and from drain opening; The influence that flywheel 26 is rocked by unsteady working platform; Flywheel 26 moves down around support bracket fastened hinge; The piston that drives 29 li of the 3rd cylinder body 28 and the 4th cylinder bodies moves down; Seawater gets into cylinder body through the last water intake of the 3rd cylinder body 28 and the 4th cylinder body 29 from filter screen and one-way valve, and the 3rd cylinder body 28 and the 4th cylinder body 29 enter the water storing bin 13 of the working platform 1 that floats through one-way valve through lower outlet from the seawater that following water intake gets in the cylinder body simultaneously; When the tide past tense; The working platform 1 that floats leans on the effect of self gravitation to move down; When mobile, drive flywheel 26 rotations through second hawser 27, flywheel 26 drives 8 rotations of first gear pump; Seawater is through filter screen, and one-way valve enters the water storing bin of the working platform 1 that floats through one-way valve from the water intake suction of first gear pump 8 and from drain opening; The influence that flywheel 26 is rocked by unsteady working platform; Flywheel 26 moves up around support bracket fastened hinge; The piston that drives 29 li of the 3rd cylinder body 28 and the 4th cylinder bodies moves up; Seawater gets into cylinder body through the following water intake of the 3rd cylinder body 28 and the 4th cylinder body 29 from filter screen and one-way valve, and the 3rd cylinder body 28 and the 4th cylinder body 29 seawater in last water intake gets into cylinder body enters the water storing bin of the working platform 1 that floats through one-way valve through the upper water-out mouth simultaneously, accomplishes the storage of retaining energy.

Be fixed on the frame 32 on the monomer support body 6, next interim when tide, n first ball float 3 receives the influence of seawater pressure increasing; N first ball float 3 will drive n first cylinder body 4 and turn clockwise around first hinge 5 and the 3rd hinge 30; Drive cam 31 simultaneously and turn clockwise, the brake block that compresses 33 is discharged, receive the influence of buoyant of sea water; Piston and frame 32 that individual first ball float 3 of n will drive n first cylinder body 4 simultaneously move up; Progressively the reducing of seawater pressure when moving up, n first ball float 3 will drive individual first cylinder body 4 of n and be rotated counterclockwise around first hinge 5 and the 3rd hinge 30, drive cam 31 simultaneously and be rotated counterclockwise; The brake block 33 that discharges is compressed gradually, until being fixed on the monomer support body 6.When the seawater ebb tide; N first ball float 3 receives the influence of self gravitation, and n first ball float 3 will drive n first cylinder body 4 and be rotated counterclockwise around first hinge 5 and the 3rd hinge 30, drive cam 31 simultaneously and be rotated counterclockwise; The brake block that compresses 33 is discharged; Receive the influence of self gravitation, piston and frame 32 that n first ball float 3 will drive n first cylinder body 4 simultaneously move down, the progressively increasing of seawater pressure when moving down; N first ball float 3 will drive n first cylinder body 4 and turn clockwise around first hinge 5 and the 3rd hinge 30; Drive cam 31 simultaneously and turn clockwise, the brake block 33 that discharges is compressed gradually, until being fixed on the monomer support body 6.

4, utilize the sea wind of ocean:

When the ocean welcomes sea wind; Sea wind will blow wind direction board 34 and drive bearing 36 rotations of wind-collection cover 35 on the wind-force guiding air channel 21 that is fixed on the working platform 1 that floats; Over against the direction of the wind comes from, wind-force will get in the closed hood 25 through wind-force guiding air channel 21 until wind-collection cover 35, and the blade that promotes water turbine 20 makes water turbine 20 rotations; The sea wind that gets into 25 li of closed hoods is discharged through the rear portion of closed hood, accomplishes the energy acquisition and the transmission of sea wind.

The above; Be merely the preferable embodiment of the present invention; These embodiments all are based on the different implementations under the general idea of the present invention, and protection scope of the present invention is not limited thereto, and any technician who is familiar with the present technique field is in the technical scope that the present invention discloses; The variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.

Claims

1. marine physics energy synthesis conversion power generation system; It is characterized in that; Comprise: working platform, monomer support body immobilizing foundation, first ball float, first cylinder body, first hinge, monomer support body, first gear pump, second gear pump, first water turbine, draining storehouse, water storing bin, generator, second hinge, second cylinder body, second ball float, body frame body, body frame body immobilizing foundation, second water turbine, wind-force guide channel, first hawser, hawser fixing stake, flywheel, second hawser, the 3rd cylinder body, the 4th cylinder body, the 3rd hinge, cam, frame, brake block, wind direction board, wind-collection cover, bearing and one-way valve float; Unsteady working platform swims in the zone of body frame body; The working platform that floats is fixed on the hawser fixing stake through first hawser, and water storing bin and draining storehouse are located at the inside of the working platform that floats; Monomer support body immobilizing foundation and body frame body basic fixed are in the seabed, and monomer support body and body frame body are individually fixed on monomer support body immobilizing foundation and the body frame body immobilizing foundation; One end of n first cylinder body is evenly arranged and is fixed on the outside of frame through the 3rd hinges fixing, and cam is fixed on the 3rd hinge; The other end of n first cylinder body is fixed with first ball float, and an end of first ball float fixes on the monomer support body through first hinges fixing; N the brake block of evenly arranging is equipped with in the inside of frame, and frame is sleeved on the support unit together with brake block; The water intake up and down of first cylinder body is connected to one-way valve; Second water turbine is fixed on the working platform that floats; The output shaft of second water turbine is connected with second gear pump; The water intake of second gear pump and water outlet all are connected with one-way valve, and the wind-force guide channel is fixed on the working platform that floats, and wind-collection cover passes through bearing fixing on the wind-force guide channel together with wind direction board; Flywheel is hingedly fixed on the working platform that floats through support; One end of the 3rd cylinder body and the 4th cylinder body is connected on the transmission shaft of flywheel; The other end of the 3rd cylinder body and the 4th cylinder body is hingedly fixed on the working platform that floats, and the water intake of the 3rd cylinder body and the 4th cylinder body is connected with one-way valve, and the water outlet of the 3rd cylinder body and the 4th cylinder body is connected with one-way valve; The seabed portion that one end of second hawser is fixed on the working platform that floats and the other end is fixed on the body frame body after tightly being wrapped on the flywheel; The transmission shaft of flywheel is connected with first gear pump, and the water intake of first gear pump is connected with one-way valve, and the water outlet of first gear pump is connected with one-way valve; First water turbine is installed in the draining storehouse, and the output shaft of first water turbine is fastened on the transmission shaft of the generator in the working bin; One end of second cylinder body is hingedly fixed on the working platform that floats; The other end of second cylinder body is connected with second ball float; Second ball float fixes on the working platform that floats through second hinges fixing, and the water intake of second cylinder body is connected with one-way valve, and the water outlet of second cylinder body is connected with one-way valve.

2. marine physics energy synthesis conversion power generation system according to claim 1 is characterized in that, the bottom that the outside in said draining storehouse or draining storehouse are connected to the working platform that floats is provided with drain opening.

3. marine physics energy synthesis conversion power generation system according to claim 1 is characterized in that the bottom of said water storing bin is equipped with discharge opening.

4. marine physics energy synthesis conversion power generation system according to claim 1 is characterized in that, also comprises yielding rubber, and said yielding rubber is installed in above the outer of the working platform that floats.

5. marine physics energy synthesis conversion power generation system according to claim 1 is characterized in that, also comprises closed hood, and said closed hood is fixed on the working platform that floats and covers second water turbine.

6. marine physics energy synthesis conversion power generation system according to claim 1; It is characterized in that; Also comprise filter screen, the feed-water end that the feed-water end of the one-way valve of the feed-water end of the feed-water end of the said first gear pump water intake one-way valve, the second gear pump water intake one-way valve, the water intake up and down of first cylinder body, the water intake of second cylinder body are connected with the feed-water end of one-way valve, the 3rd cylinder body and the 4th cylinder body water intake one-way valve all is equipped with filter screen.