CN106401852A - Sea wave power generation equipment - Google Patents
Sea wave power generation equipment Download PDFInfo
- Publication number
- CN106401852A CN106401852A CN201611113158.5A CN201611113158A CN106401852A CN 106401852 A CN106401852 A CN 106401852A CN 201611113158 A CN201611113158 A CN 201611113158A CN 106401852 A CN106401852 A CN 106401852A
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- Prior art keywords
- leaf
- side face
- partial
- rotate
- basis
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B13/00—Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
- F03B13/12—Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy
- F03B13/14—Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using wave energy
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B11/00—Parts or details not provided for in, or of interest apart from, the preceding groups, e.g. wear-protection couplings, between turbine and generator
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B11/00—Parts or details not provided for in, or of interest apart from, the preceding groups, e.g. wear-protection couplings, between turbine and generator
- F03B11/06—Bearing arrangements
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B3/00—Machines or engines of reaction type; Parts or details peculiar thereto
- F03B3/12—Blades; Blade-carrying rotors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2220/00—Application
- F05B2220/70—Application in combination with
- F05B2220/706—Application in combination with an electrical generator
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05B—INDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
- F05B2260/00—Function
- F05B2260/40—Transmission of power
- F05B2260/402—Transmission of power through friction drives
- F05B2260/4021—Transmission of power through friction drives through belt drives
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/30—Energy from the sea, e.g. using wave energy or salinity gradient
Abstract
The invention discloses sea wave power generation equipment. The equipment comprises a fixed platform, a rotary impeller assembly, a rotary impeller assembly supporting part and connecting part, a speed change mechanism and a power generation and distribution system; the fixed platform is arranged at the part, close to a coast, of a sea; the rotary impeller assembly comprises rotary vanes, internal sliding manger boards are installed inside the rotary vanes, when one rotary vane of the rotary impeller assembly rotates to a certain angle, the corresponding internal sliding manger board slides to a lower end from a higher end in an empty groove of the rotary vane, because through holes are formed in upper plates and lower plates of the rotary vanes, the reactive force can be reduced when the rotary vanes enter water, the reactive force exerted on the rotary vanes by wind power can be reduced before the rotary vanes enter water, and therefore the work efficiency of the equipment can be improved. According to the sea wave power generation equipment, the impacting kinetic energy of sea waves is converted into mechanical energy of the rotary impeller assembly, then the mechanical energy is converted into electric energy, the structure is simple and manufacturing is easy.
Description
Technical field
The present invention relates to the use of Wave power generation equipment manufacturing technology field, set more specifically to a kind of seawave power generation
Standby.
Background technology
In Wave power generation equipment manufacturing technology field, full ripe product is not also had to occur, but due to seawave power generation
Belong to low-carbon environment-friendly energy field, attracted many engineers and technicians to carry out research and development, also had not simultaneously
Few version occurs, and at present, the Wave power generation equipment of most of versions, is all to employ to change by multiple energy
Come to generate electricity, so, the structure of equipment will become complicated to mode, and the manufacturing cost of equipment will be high, when input and output pole
When reciprocity, the use meaning of equipment is just less.Structure to be developed is simple, and the seawave power generation that can be widely employed sets
Standby, this is one of current low-carbon environment-friendly energy field important component part.
Content of the invention
The purpose of the present invention is that a kind of Wave power generation equipment of offer, makes the impact kinetic energy of wave, uses straight
The energy conversion regime connecing, reaches the purpose of generating, makes Wave power generation equipment structure more simple, low cost simultaneously as far as possible.
To achieve the object of the present invention, the technical scheme being used is:A kind of Wave power generation equipment, it includes fixing flat
Platform, wheel rotor assembly, wheel rotor assembly supporting member and connector, gear and generation distribution system;
Described fixed platform, it includes basis 1(1), basis 2(2), basis 3(3), basis 4(4), column 1(5), column 2
(6), column 3(7), column 4(8), flat surface(9);Described basis 1(1), basis 2(2), basis 3(3)With basis 4(4)If
Put in seabed(T)Real soil in, basis 1(1), basis 2(2), basis 3(3)With basis 4(4)Angular distribution it is positioned close in four
On seashore side, column 1(5)Lower end, column 2(6)Lower end, column 3(7)Lower end and column 4(8)Lower end respectively and base
Plinth 1(1), basis 2(2), basis 3(3)With basis 4(4)It is connected, column 1(5)Upper end, column 2(6)Upper end, column 3(7)
Upper end and column 4(8)Upper end respectively near flat surface(9)The downside of left-front corner, close flat surface(9)Left rear corner
Downside, close flat surface(9)The downside of right anterior angle and close flat surface(9)The downside of right relief angle is connected, and described is flat
Table top(9)On be provided with rectangular through holes, the length and width of described rectangular through holes is respectively through hole length(L)And through hole
Width(M);
Described wheel rotor assembly, it includes rotating leaf 1(10), rotate leaf 2(11), rotate leaf 3(12), rotate leaf 4(13)、
Connection ring 1(14), connection ring 2(15), connection ring 3(16), connection ring 4(17), connection ring 5(18), connector 1(19), connect
Part 2(20), connector 3(21), connector 4(22), connector 5(23), left axle(24), right axle(25), described rotation leaf 1
(10), rotate leaf 2(11), rotate leaf 3(12)With rotation leaf 4(13)Planform and equivalently-sized;Wheel rotor assembly
Rotation centerline is set as one;Described rotation leaf 1(10)Including upper plate(10-1), lower plate(10-2), left plate(10-3), right
Plate(10-4), header board(10-5), back plate(10-6)With interior slip manger board(10-7), described upper plate(10-1)And lower plate(10-
2)It is both provided with symmetrical impeller through hole, impeller via count is N hole, described left plate(10-3)Above with upper plate(10-
1)Following left side be connected, left plate(10-3)Following and lower plate(10-2)Above left side be connected, described right panel
(10-4)Above with upper plate(10-1)Following right side be connected, right panel(10-4)Following and lower plate(10-2)Above
Right side is connected, described header board(10-5)After respectively with upper plate(10-1), lower plate(10-2), left plate(10-3)And right panel
(10-4)Front end face be connected, described back plate(10-6)Before respectively with upper plate(10-1), lower plate(10-2), left plate(10-
3)And right panel(10-4)Rear end face be connected, described interior slip manger board(10-7)It is placed in upper plate(10-1), lower plate(10-2)、
Left plate(10-3), right panel(10-4), header board(10-5)And back plate(10-6)In the interior empty rectangular space being formed, interior cunning
Dynamic manger board(10-7)Can be in described interior empty rectangular space, when rotation leaf 1(10)When rotating to certain angle, lead to
Cross interior slip manger board(10-7)Self gravitation effect, slip manger board in setting(10-7)Proportion be more than sea water, from leaning on
Nearby plate(10-5)This laterally closer back plate(10-6)That Slideslip, or near back plate(10-6)That is lateral
Near header board(10-5)This Slideslip;
Described rotation leaf 1(10)Partial left side face and connection ring 1(14)Partial right side face be connected, rotate leaf 1(10)'s
Partial right side face and connection ring 2(15)Partial left side face be connected, described rotation leaf 2(11)Partial left side face and connection ring
2(15)Partial right side face be connected, rotate leaf 2(11)Partial right side face and connection ring 3(16)Partial left side face be connected, institute
The rotation leaf 3 stated(12)Partial left side face and connection ring 3(16)Partial right side face be connected, rotate leaf 3(12)Partly right
Side and connection ring 4(17)Partial left side face be connected, described rotation leaf 4(13)Partial left side face and connection ring 4(17)
Partial right side face be connected, rotate leaf 4(13)Partial right side face and connection ring 5(18)Partial left side face be connected, described
Rotate leaf 1(10)With rotation leaf 2(11)45 degree of space angle, rotate leaf 2(11)With rotation leaf 3(12)Space angle 45
Degree, rotates leaf 3(12)With rotation leaf 4(13)45 degree of space angle;
Described connector 1(19)Partial left side face and left axle(24)Right-hand member be connected, connector 1(19)Partial right side face
With rotation leaf 1(10)Partial left side face be connected, described connector 2(20)Partial left side face with rotate leaf 1(10)Portion
Right flank is divided to be connected, connector 2(20)Partial right side face with rotate leaf 2(11)Partial left side face be connected, described connection
Part 3(21)Partial left side face with rotate leaf 2(11)Partial right side face be connected, connector 3(21)Partial right side face with turn
Movable vane 3(12)Partial left side face be connected, described connector 4(22)Partial left side face with rotate leaf 3(12)Partly right
Side is connected, connector 4(22)Partial right side face with rotate leaf 4(13)Partial left side face be connected, described connector 5
(23)Partial left side face with rotate leaf 4(13)Partial right side face be connected, connector 5(23)Partial right side face and right axle
(25)Left end be connected;
Described wheel rotor assembly supporting member and connector, it includes rolling bearing units 1(26), rolling bearing units 2(27), shaft coupling
(28);
Described rolling bearing units 2(27)In bearing be arranged on right axle(25)Right-hand member on, rolling bearing units 2(27)By its installation
Seat is arranged on flat surface(9)Above, it is placed in flat surface(9)The right side of the rectangular through holes of upper setting, entire widths(M)In
On line position, described shaft coupling(28)Left side section and change speed gear box(30)Input shaft(29)Right-hand member be connected, shaft coupling
(28)Right side section and left axle(24)Left end be connected, described rolling bearing units 1(26)In bearing be arranged on left axle(24)On,
It is disposed adjacent to shaft coupling(28)Right side, rolling bearing units 1(26)Flat surface is arranged on by its mounting seat(9)Above, it is placed in
Flat surface(9)The left side of the rectangular through holes of upper setting, entire widths(M)Midline position on, by rolling bearing units 1(26)With
Rolling bearing units 2(27)Wheel rotor assembly is installed, make wheel rotor assembly be placed in described flat surface(9)The length of upper setting
In the space up and down of square through hole;
Described gear, it includes input shaft(29), change speed gear box(30), output shaft(31), active triangle belt wheel(32)、
V belt(33), passive pulley concial disk(34);Described change speed gear box(30)Including input shaft(29), output shaft(31)And case
Body and mounting seat, described change speed gear box(30)Flat surface is arranged on by its mounting seat(9)On, it is placed in shaft coupling(28)A left side
Side, described shaft coupling(28)The left side and change speed gear box(30)Input shaft(29)Right-hand member be connected, described change speed gear box(30)
Output shaft(31)Left end and active triangle belt wheel(32)Connected, described passive pulley concial disk(34)With electromotor
(35)Input shaft be connected, described V belt(33)It is arranged on active triangle belt wheel(32)With passive pulley concial disk
(34)On, form belt transmission;Described generation distribution system, it includes electromotor(35)And distribution box(36), described sends out
Motor(35)It is arranged on flat surface(9)On, it is placed in change speed gear box(30)Left rear side, described distribution box(36)It is arranged on flat surface
(9)On, it is placed in electromotor(35)Left rear side, described passive pulley concial disk(34)With electromotor(35)Input shaft phase
Even;
By than sea(P)The wave exceeding(H)Thrust, successively Circulation in rotate leaf 1(10)Bottom, rotate leaf 2
(11)Bottom, rotate leaf 3(12)Bottom and rotate leaf 4(13)Bottom, and each rotate leaf in interior slip manger board,
It is always at the bottom of each rotation leaf, in more continuous wave(H)Thrust under, so that wheel rotor assembly is being usherd to seat
Bearing 1(26)With rolling bearing units 2(27)Supporting under rotate, wheel rotor assembly pass through shaft coupling(28)Drive change speed gear box(30)
Input shaft(29)Rotate, through change speed gear box(30)By change speed gear box after speed change(30)Output shaft(31)Drive active triangle belt wheel
(32)Rotate, active triangle belt wheel(32)By V belt(33)Drive passive pulley concial disk(34)Rotate, passive three
Pulley sheave(34)Drive electromotor(35)Rotate and generate electricity, electromotor(35)The electricity producing passes through wire transmission to distribution box
(36), then by distribution box(36)Transmit to off-shore wind;Described N is the positive integer of 2 multiple.
The beneficial effects of the present invention is:A kind of Wave power generation equipment make use of rotation leaf to set built with interior slip manger board
Put, the counteracting force that water rotates to wheel rotor assembly can be reduced, the retroaction that wind-force rotates to wheel rotor assembly can be reduced
Power, improves the work efficiency of equipment.
Brief description
The present invention is further described with reference to the accompanying drawings and examples.
Fig. 1 is the structure diagram front view of the embodiment of the present invention.
Fig. 2 is the structure diagram left view of the embodiment of the present invention.
Fig. 3 is the structure diagram top view of the embodiment of the present invention.
Fig. 4 is the rotation leaf 1 in the embodiment of the present invention(10)Structure diagram front view.
Fig. 5 is the A-A profile of the Fig. 4 in the embodiment of the present invention.
Fig. 6 is the B-B profile of the Fig. 4 in the embodiment of the present invention.
Fig. 7 is the C-C profile of the Fig. 4 in the embodiment of the present invention.
Specific embodiment
In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, basis 1(1), basis 2(2), basis 3(3), basis 4(4)、
Column 1(5), column 2(6), column 3(7), column 4(8), flat surface(9), rotate leaf 1(10), upper plate(10-1), lower plate(10-
2), left plate(10-3), right panel(10-4), header board(10-5), back plate(10-6), interior slip manger board(10-7), rotate leaf 2
(11), rotate leaf 3(12), rotate leaf 4(13), connection ring 1(14), connection ring 2(15), connection ring 3(16), connection ring 4(17)、
Connection ring 5(18), connector 1(19), connector 2(20), connector 3(21), connector 4(22), connector 5(23), left axle
(24), right axle(25), rolling bearing units 1(26), rolling bearing units 2(27), shaft coupling(28), input shaft(29), change speed gear box(30), defeated
Shaft(31), active triangle belt wheel(32), V belt(33), passive pulley concial disk(34), electromotor(35), distribution box
(36), seabed(T), sea(P), wave(H), through hole length(L), entire widths(M).
In embodiment shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, a kind of Wave power generation equipment, it includes solid
Fixed platform, wheel rotor assembly, wheel rotor assembly supporting member and connector, gear and generation distribution system.
Described fixed platform, it includes basis 1(1), basis 2(2), basis 3(3), basis 4(4), column 1(5), vertical
Post 2(6), column 3(7), column 4(8), flat surface(9);
Described basis 1(1), basis 2(2), basis 3(3)With basis 4(4)It is arranged on seabed(T)Real soil in, basis 1(1)、
Basis 2(2), basis 3(3)With basis 4(4)In four angular distribution be positioned close on seashore side, column 1(5)Lower end, column 2
(6)Lower end, column 3(7)Lower end and column 4(8)Lower end respectively with basis 1(1), basis 2(2), basis 3(3)And base
Plinth 4(4)It is connected, column 1(5)Upper end, column 2(6)Upper end, column 3(7)Upper end and column 4(8)Upper end respectively and
Near flat surface(9)The downside of left-front corner, close flat surface(9)The downside of left rear corner, close flat surface(9)Right anterior angle
Downside and close flat surface(9)The downside of right relief angle is connected, described flat surface(9)On be provided with rectangular through holes, institute
The length and width of the rectangular through holes stated is respectively through hole length(L)And entire widths(M).
Described wheel rotor assembly, it includes rotating leaf 1(10), rotate leaf 2(11), rotate leaf 3(12), rotate leaf 4
(13), connection ring 1(14), connection ring 2(15), connection ring 3(16), connection ring 4(17), connection ring 5(18), connector 1(19)、
Connector 2(20), connector 3(21), connector 4(22), connector 5(23), left axle(24), right axle(25), described rotation
Leaf 1(10), rotate leaf 2(11), rotate leaf 3(12)With rotation leaf 4(13)Planform and equivalently-sized;Wheel rotor assembly
Rotation centerline be set as one;
The present embodiment is to rotate leaf 1(10)As a example, to rotation leaf 1(10)Planform be described as follows;
Described rotation leaf 1(10)Including upper plate(10-1), lower plate(10-2), left plate(10-3), right panel(10-4), header board(10-
5), back plate(10-6)With interior slip manger board(10-7), as shown in Fig. 4, Fig. 5, Fig. 6, Fig. 7, in the present embodiment, described upper plate
(10-1)And lower plate(10-2)It is both provided with 8 symmetrical through holes of rectangle, described left plate(10-3)Above with upper plate
(10-1)Following left side be connected, left plate(10-3)Following and lower plate(10-2)Above left side be connected, the described right side
Plate(10-4)Above with upper plate(10-1)Following right side be connected, right panel(10-4)Following and lower plate(10-2)Above
Right side be connected, described header board(10-5)After respectively with upper plate(10-1), lower plate(10-2), left plate(10-3)And right panel
(10-4)Front end face be connected, described back plate(10-6)Before respectively with upper plate(10-1), lower plate(10-2), left plate(10-
3)And right panel(10-4)Rear end face be connected, described interior slip manger board(10-7)It is placed in upper plate(10-1), lower plate(10-2)、
Left plate(10-3), right panel(10-4), header board(10-5)And back plate(10-6)In the interior empty rectangular space being formed, interior cunning
Dynamic manger board(10-7)Can be in described interior empty rectangular space, when rotation leaf 1(10)When rotating to certain angle, lead to
Cross interior slip manger board(10-7)Self gravitation effect, slip manger board in setting(10-7)Proportion be more than sea water, from leaning on
Nearby plate(10-5)This laterally closer back plate(10-6)That Slideslip, or near back plate(10-6)That is lateral
Near header board(10-5)This Slideslip;
Described rotation leaf 1(10)Partial left side face and connection ring 1(14)Partial right side face be connected, rotate leaf 1(10)'s
Partial right side face and connection ring 2(15)Partial left side face be connected, described rotation leaf 2(11)Partial left side face and connection ring
2(15)Partial right side face be connected, rotate leaf 2(11)Partial right side face and connection ring 3(16)Partial left side face be connected, institute
The rotation leaf 3 stated(12)Partial left side face and connection ring 3(16)Partial right side face be connected, rotate leaf 3(12)Partly right
Side and connection ring 4(17)Partial left side face be connected, described rotation leaf 4(13)Partial left side face and connection ring 4(17)
Partial right side face be connected, rotate leaf 4(13)Partial right side face and connection ring 5(18)Partial left side face be connected, described
Rotate leaf 1(10)With rotation leaf 2(11)45 degree of space angle, rotate leaf 2(11)With rotation leaf 3(12)Space angle 45
Degree, rotates leaf 3(12)With rotation leaf 4(13)45 degree of space angle;
Described connector 1(19)Partial left side face and left axle(24)Right-hand member be connected, connector 1(19)Partial right side face
With rotation leaf 1(10)Partial left side face be connected, described connector 2(20)Partial left side face with rotate leaf 1(10)Portion
Right flank is divided to be connected, connector 2(20)Partial right side face with rotate leaf 2(11)Partial left side face be connected, described connection
Part 3(21)Partial left side face with rotate leaf 2(11)Partial right side face be connected, connector 3(21)Partial right side face with turn
Movable vane 3(12)Partial left side face be connected, described connector 4(22)Partial left side face with rotate leaf 3(12)Partly right
Side is connected, connector 4(22)Partial right side face with rotate leaf 4(13)Partial left side face be connected, described connector 5
(23)Partial left side face with rotate leaf 4(13)Partial right side face be connected, connector 5(23)Partial right side face and right axle
(25)Left end be connected;
Connection ring 1(14)Rotation centerline, connection ring 2(15)Rotation centerline, connection ring 3(16)Rotation centerline,
Connection ring 4(17)Rotation centerline, connection ring 5(18)Rotation centerline, connector 1(19)Rotation centerline, connection
Part 2(20)Rotation centerline, connector 3(21)Rotation centerline, connector 4(22)Rotation centerline, connector 5
(23)Rotation centerline, left axle(24)Shaft centre line, right axle(25)Shaft centre line, rotate leaf 1(10)Left surface
Symmetrical centre and rotation leaf 1(10)The line of the symmetrical centre of right flank, rotate leaf 2(11)The symmetrical centre of left surface and
Rotate leaf 2(11)The line of the symmetrical centre of right flank, rotate leaf 3(12)The symmetrical centre of left surface and rotate leaf 3
(12)The line of the symmetrical centre of right flank and rotate leaf 4(13)The symmetrical centre of left surface and rotate leaf 4(13)The right side
The line of the symmetrical centre of side, above-mentioned whole centrages overlap, and are the rotation centerline of wheel rotor assembly.
Described wheel rotor assembly supporting member and connector, it includes rolling bearing units 1(26), rolling bearing units 2(27), connection
Axial organ(28);
Described rolling bearing units 2(27)In bearing be arranged on right axle(25)Right-hand member on, rolling bearing units 2(27)By its installation
Seat is arranged on flat surface(9)Above, it is placed in flat surface(9)The right side of the rectangular through holes of upper setting, entire widths(M)In
On line position, described shaft coupling(28)Left side section and change speed gear box(30)Input shaft(29)Right-hand member be connected, shaft coupling
(28)Right side section and left axle(24)Left end be connected, described rolling bearing units 1(26)In bearing be arranged on left axle(24)On,
It is disposed adjacent to shaft coupling(28)Right side, rolling bearing units 1(26)Flat surface is arranged on by its mounting seat(9)Above, it is placed in
Flat surface(9)The left side of the rectangular through holes of upper setting, entire widths(M)Midline position on, by rolling bearing units 1(26)With
Rolling bearing units 2(27)Wheel rotor assembly is installed, make wheel rotor assembly be placed in described flat surface(9)The length of upper setting
In the space up and down of square through hole.
Described gear, it includes input shaft(29), change speed gear box(30), output shaft(31), active triangle belt wheel
(32), V belt(33), passive pulley concial disk(34);
Described change speed gear box(30)Including input shaft(29), output shaft(31)With casing and mounting seat, described change speed gear box(30)
Flat surface is arranged on by its mounting seat(9)On, it is placed in shaft coupling(28)Left side, described shaft coupling(28)The left side and change
Fast case(30)Input shaft(29)Right-hand member be connected, described change speed gear box(30)Output shaft(31)Left end and actively three cuticles
Belt wheel(32)Connected, described passive pulley concial disk(34)With electromotor(35)Input shaft be connected, described V belt
(33)It is arranged on active triangle belt wheel(32)With passive pulley concial disk(34)On, form belt transmission.
Described generation distribution system, it includes electromotor(35)And distribution box(36), described electromotor(35)Install
In flat surface(9)On, it is placed in change speed gear box(30)Left rear side, described distribution box(36)It is arranged on flat surface(9)On, it is placed in and send out
Motor(35)Left rear side, described passive pulley concial disk(34)With electromotor(35)Input shaft be connected;
By than sea(P)The wave exceeding(H)Thrust, successively Circulation in rotate leaf 1(10)Bottom, rotate leaf 2
(11)Bottom, rotate leaf 3(12)Bottom and rotate leaf 4(13)Bottom, and each rotate leaf in interior slip manger board,
It is always at the bottom of each rotation leaf, in more continuous wave(H)Thrust under, so that wheel rotor assembly is being usherd to seat
Bearing 1(26)With rolling bearing units 2(27)Supporting under rotate, wheel rotor assembly pass through shaft coupling(28)Drive change speed gear box(30)
Input shaft(29)Rotate, through change speed gear box(30)By change speed gear box after speed change(30)Output shaft(31)And drive active triangle belt
Wheel(32)Rotate, active triangle belt wheel(32)By V belt(33)Drive passive pulley concial disk(34)Rotate, passively
Pulley concial disk(34)Drive electromotor(35)Rotate and generate electricity, electromotor(35)The electricity producing passes through wire transmission to distribution box
(36), then by distribution box(36)Will be transmitted to off-shore wind.
Claims (3)
1. a kind of Wave power generation equipment, it includes fixed platform, wheel rotor assembly, wheel rotor assembly supporting member and connection
Part, gear and generation distribution system;It is characterized in that:Described fixed platform, it includes basis 1(1), basis 2(2)、
Basis 3(3), basis 4(4), column 1(5), column 2(6), column 3(7), column 4(8), flat surface(9);Described basis 1
(1), basis 2(2), basis 3(3)With basis 4(4)It is arranged on seabed(T)Real soil in, basis 1(1), basis 2(2), basis 3
(3)With basis 4(4)In four angular distribution be positioned close on seashore side, column 1(5)Lower end, column 2(6)Lower end, column 3
(7)Lower end and column 4(8)Lower end respectively with basis 1(1), basis 2(2), basis 3(3)With basis 4(4)It is connected, column 1
(5)Upper end, column 2(6)Upper end, column 3(7)Upper end and column 4(8)Upper end respectively near flat surface(9)Left
The downside of anterior angle, close flat surface(9)The downside of left rear corner, close flat surface(9)The downside of right anterior angle and near flat
Table top(9)The downside of right relief angle is connected, described flat surface(9)On be provided with rectangular through holes, described rectangular through holes
Length and width be respectively through hole length(L)And entire widths(M);
Described wheel rotor assembly, it includes rotating leaf 1(10), rotate leaf 2(11), rotate leaf 3(12), rotate leaf 4(13)、
Connection ring 1(14), connection ring 2(15), connection ring 3(16), connection ring 4(17), connection ring 5(18), connector 1(19), connect
Part 2(20), connector 3(21), connector 4(22), connector 5(23), left axle(24), right axle(25), described rotation leaf 1
(10), rotate leaf 2(11), rotate leaf 3(12)With rotation leaf 4(13)Planform and equivalently-sized;Wheel rotor assembly
Rotation centerline is set as one;Described rotation leaf 1(10)Including upper plate(10-1), lower plate(10-2), left plate(10-3), right
Plate(10-4), header board(10-5), back plate(10-6)With interior slip manger board(10-7), described upper plate(10-1)And lower plate(10-
2)It is both provided with symmetrical impeller through hole, impeller via count is N hole, described left plate(10-3)Above with upper plate(10-
1)Following left side be connected, left plate(10-3)Following and lower plate(10-2)Above left side be connected, described right panel
(10-4)Above with upper plate(10-1)Following right side be connected, right panel(10-4)Following and lower plate(10-2)Above
Right side is connected, described header board(10-5)After respectively with upper plate(10-1), lower plate(10-2), left plate(10-3)And right panel
(10-4)Front end face be connected, described back plate(10-6)Before respectively with upper plate(10-1), lower plate(10-2), left plate(10-
3)And right panel(10-4)Rear end face be connected, described interior slip manger board(10-7)It is placed in upper plate(10-1), lower plate(10-2)、
Left plate(10-3), right panel(10-4), header board(10-5)And back plate(10-6)In the interior empty rectangular space being formed, interior cunning
Dynamic manger board(10-7)Can be in described interior empty rectangular space, when rotation leaf 1(10)When rotating to certain angle, lead to
Cross interior slip manger board(10-7)Self gravitation effect, slip manger board in setting(10-7)Proportion be more than sea water, from leaning on
Nearby plate(10-5)This laterally closer back plate(10-6)That Slideslip, or near back plate(10-6)That is lateral
Near header board(10-5)This Slideslip;
Described rotation leaf 1(10)Partial left side face and connection ring 1(14)Partial right side face be connected, rotate leaf 1(10)'s
Partial right side face and connection ring 2(15)Partial left side face be connected, described rotation leaf 2(11)Partial left side face and connection ring
2(15)Partial right side face be connected, rotate leaf 2(11)Partial right side face and connection ring 3(16)Partial left side face be connected, institute
The rotation leaf 3 stated(12)Partial left side face and connection ring 3(16)Partial right side face be connected, rotate leaf 3(12)Partly right
Side and connection ring 4(17)Partial left side face be connected, described rotation leaf 4(13)Partial left side face and connection ring 4(17)
Partial right side face be connected, rotate leaf 4(13)Partial right side face and connection ring 5(18)Partial left side face be connected, described
Rotate leaf 1(10)With rotation leaf 2(11)45 degree of space angle, rotate leaf 2(11)With rotation leaf 3(12)Space angle 45
Degree, rotates leaf 3(12)With rotation leaf 4(13)45 degree of space angle;
Described connector 1(19)Partial left side face and left axle(24)Right-hand member be connected, connector 1(19)Partial right side face
With rotation leaf 1(10)Partial left side face be connected, described connector 2(20)Partial left side face with rotate leaf 1(10)Portion
Right flank is divided to be connected, connector 2(20)Partial right side face with rotate leaf 2(11)Partial left side face be connected, described connection
Part 3(21)Partial left side face with rotate leaf 2(11)Partial right side face be connected, connector 3(21)Partial right side face with turn
Movable vane 3(12)Partial left side face be connected, described connector 4(22)Partial left side face with rotate leaf 3(12)Partly right
Side is connected, connector 4(22)Partial right side face with rotate leaf 4(13)Partial left side face be connected, described connector 5
(23)Partial left side face with rotate leaf 4(13)Partial right side face be connected, connector 5(23)Partial right side face and right axle
(25)Left end be connected;
Described wheel rotor assembly supporting member and connector, it includes rolling bearing units 1(26), rolling bearing units 2(27), shaft coupling
(28);
Described rolling bearing units 2(27)In bearing be arranged on right axle(25)Right-hand member on, rolling bearing units 2(27)By its installation
Seat is arranged on flat surface(9)Above, it is placed in flat surface(9)The right side of the rectangular through holes of upper setting, entire widths(M)In
On line position, described shaft coupling(28)Left side section and change speed gear box(30)Input shaft(29)Right-hand member be connected, shaft coupling
(28)Right side section and left axle(24)Left end be connected, described rolling bearing units 1(26)In bearing be arranged on left axle(24)On,
It is disposed adjacent to shaft coupling(28)Right side, rolling bearing units 1(26)Flat surface is arranged on by its mounting seat(9)Above, it is placed in
Flat surface(9)The left side of the rectangular through holes of upper setting, entire widths(M)Midline position on, by rolling bearing units 1(26)With
Rolling bearing units 2(27)Wheel rotor assembly is installed, make wheel rotor assembly be placed in described flat surface(9)The length of upper setting
In the space up and down of square through hole;
Described gear, it includes input shaft(29), change speed gear box(30), output shaft(31), active triangle belt wheel(32)、
V belt(33), passive pulley concial disk(34);Described change speed gear box(30)Including input shaft(29), output shaft(31)And case
Body and mounting seat, described change speed gear box(30)Flat surface is arranged on by its mounting seat(9)On, it is placed in shaft coupling(28)A left side
Side, described shaft coupling(28)The left side and change speed gear box(30)Input shaft(29)Right-hand member be connected, described change speed gear box(30)
Output shaft(31)Left end and active triangle belt wheel(32)Connected, described passive pulley concial disk(34)With electromotor
(35)Input shaft be connected, described V belt(33)It is arranged on active triangle belt wheel(32)With passive pulley concial disk
(34)On, form belt transmission;Described generation distribution system, it includes electromotor(35)And distribution box(36), described sends out
Motor(35)It is arranged on flat surface(9)On, it is placed in change speed gear box(30)Left rear side, described distribution box(36)It is arranged on flat surface
(9)On, it is placed in electromotor(35)Left rear side, described passive pulley concial disk(34)With electromotor(35)Input shaft phase
Even.
2. a kind of Wave power generation equipment according to claim 1 it is characterised in that:By than sea(P)The wave exceeding
(H)Thrust, successively Circulation in rotate leaf 1(10)Bottom, rotate leaf 2(11)Bottom, rotate leaf 3(12)Bottom
With rotation leaf 4(13)Bottom, and each rotate leaf in interior slip manger board, be always at each rotate leaf bottom,
More continuous wave(H)Thrust under, make wheel rotor assembly in rolling bearing units 1(26)With rolling bearing units 2(27)'s
Supporting is lower to be rotated, and wheel rotor assembly passes through shaft coupling(28)Drive change speed gear box(30)Input shaft(29)Rotate, through change speed gear box
(30)By change speed gear box after speed change(30)Output shaft(31)Drive active triangle belt wheel(32)Rotate, active triangle belt wheel
(32)By V belt(33)Drive passive pulley concial disk(34)Rotate, passive pulley concial disk(34)Drive electromotor
(35)Rotate and generate electricity, electromotor(35)The electricity producing passes through wire transmission to distribution box(36), then by distribution box(36)Transmission
To off-shore wind.
3. a kind of Wave power generation equipment according to claim 1 it is characterised in that:Described N is the just whole of 2 multiple
Number.
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CN1865696A (en) * | 2005-11-03 | 2006-11-22 | 兰州理工大学 | Impeller |
CN101225793A (en) * | 2008-02-02 | 2008-07-23 | 陈克敏 | Windmill and wind power generator composed of the same |
CN201250752Y (en) * | 2008-08-15 | 2009-06-03 | 王志国 | Wind shoe of wind-driven generator |
CN204691998U (en) * | 2015-06-05 | 2015-10-07 | 中国科学院工程热物理研究所 | The pneumatic equipment blades made that a kind of rotary inertia is adjustable |
CN206246279U (en) * | 2016-12-07 | 2017-06-13 | 梁庆昌 | A kind of Wave power generation equipment |
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2016
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US5030071A (en) * | 1987-02-14 | 1991-07-09 | Simpson Neil A A | Roller van motor with fluid biassed roller |
US6827551B1 (en) * | 2000-02-01 | 2004-12-07 | The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration | Self-tuning impact damper for rotating blades |
CN1865696A (en) * | 2005-11-03 | 2006-11-22 | 兰州理工大学 | Impeller |
CN101225793A (en) * | 2008-02-02 | 2008-07-23 | 陈克敏 | Windmill and wind power generator composed of the same |
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