CN114109703A - Ocean energy power generation device - Google Patents

Abstract

The invention discloses an ocean energy power generation device, and relates to the technical field of ocean energy power generation. The invention comprises a floating power generation mechanism; the surface of the floating power generation mechanism is in sliding fit with a power generation driving and rotating assembly, the bottom of the power generation driving and rotating assembly is rotatably connected with a two-way connecting rod, and two ends of the two-way connecting rod are both connected with lifting frames; a water wing plate is hinged between the two lifting frames; the floating power generation mechanism comprises a floating platform, a power generator is fixedly arranged on the upper surface of the floating platform, a power generation toothed column is fixed at one end of a power generation shaft of the power generator, and the power generation toothed column is meshed with the power generation driving component. According to the invention, through the design of the power generation driving and rotating assembly, the power generation tooth column, the two-way connecting rod, the lifting frame and the hydrofoil plate, the vertical movement of the power generation driving and rotating assembly is realized by utilizing the impact effect of ocean current flowing in the ocean on the hydrofoil plate, and the power generation operation of the generator is realized under the matching of the power generation driving and rotating assembly and the power generation tooth column, so that the conversion of ocean current energy into electric energy is effectively realized, and the effective utilization of ocean current energy is realized.

Description

Ocean energy power generation device

Technical Field

The invention belongs to the technical field of ocean energy power generation, and particularly relates to an ocean energy power generation device.

Background

At present, in order to solve the increasingly urgent energy demand, human beings must increase the amount of energy supply, and with this, there are environmental problems and energy shortage problems, and in order to solve these problems, people have shifted their eyes to a new energy range, and ocean energy is one of clean energy. Ocean energy mainly comprises tidal energy, temperature difference energy, wave energy and ocean current energy, and with the progress of ocean development technology, ocean becomes a hotspot of energy development.

The existing ocean power generation device mainly utilizes wave energy, such as an offshore tidal wind power generation device, so that wave energy can be utilized. However, ocean current energy in ocean energy is less utilized, and therefore an ocean energy power generation device based on ocean current energy is designed for power generation of the ocean current energy.

Disclosure of Invention

The invention aims to provide an ocean energy power generation device, which effectively converts ocean current energy into electric energy and effectively utilizes ocean current energy through the design of a generator, a power generation tooth column, a sliding channel, a power generation driving and rotating assembly, a two-way connecting rod, a lifting frame and a hydrofoil plate, meets the effective utilization of ocean current energy at different depths and in a larger range, and is suitable for application in different scenes.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an ocean power generation device, which comprises a floating power generation mechanism; the surface of the floating power generation mechanism is in sliding fit with a power generation driving and rotating assembly, the bottom of the power generation driving and rotating assembly is rotatably connected with a two-way connecting rod, and two ends of the two-way connecting rod are connected with lifting frames; a plurality of water wing plates are hinged between the two lifting frames and are arranged up and down; the floating power generation mechanism comprises a floating platform, a power generator is fixedly mounted on the upper surface of the floating platform, a power generation toothed column is fixed at one end of a power generation shaft of the power generator, and the power generation toothed column is meshed with a power generation driving component.

Preferably, the upper surface of the floating platform is provided with a sliding channel corresponding to the power generation tooth column, and the lower surface of the floating platform is fixed with a first blocking body; the power generation driving component comprises a power generation rack meshed with the power generation toothed column, and the power generation rack is in sliding fit with the sliding channel; the power generation driving component comprises a power generation rack meshed with the power generation toothed column, and the power generation rack is in sliding fit with the sliding channel; and a connecting sleeve head is fixed at the lower end of the power generation rack and is rotatably connected with the two-way connecting rod.

The lower end of the power generation rack is provided with a free rotation connecting piece, the bottom of the free rotation connecting piece is provided with a connecting sleeve head, and the connecting sleeve head is rotatably connected with the two-way connecting rod.

Preferably, the lifting frame comprises a first hinge part, and the first hinge part is in hinged fit with the lowermost hydrofoil plate; a plurality of second hinged parts are longitudinally arranged above the first hinged parts, and two-way adjusting rods are in threaded connection between two adjacent second hinged parts and between the first hinged part and the adjacent second hinged part; and the second hinged parts are hinged and matched with the hydrofoil plates.

Preferably, the second hinged parts positioned at the top are connected with first supporting rods, and a rudder plate is fixed between the two opposite first supporting rods; the two first support rods opposite to the rudder plate comprise telescopic parts; two of homonymy it has the second bracing piece to articulate between the first bracing piece, two of relative setting the second bracing piece all with two-way connecting rod fixed connection.

A cavity body is arranged among the first supporting rods, the cavity body is hinged and matched with the first supporting rods, and a balance weight ball is arranged in the cavity body; two opposite side surfaces of the water wing plate are provided with hinge grooves; the hinge groove on the hydrofoil plate positioned at the lowest position is connected with the corresponding first hinge piece, and the second hinge piece is connected with the hinge groove on the corresponding hydrofoil plate.

The invention has the following beneficial effects:

1. according to the invention, through the design of the power generation driving and rotating assembly, the power generation tooth column, the two-way connecting rod, the lifting frame and the hydrofoil plate, the vertical movement of the power generation driving and rotating assembly is realized by utilizing the impact effect of ocean current flowing in the ocean on the hydrofoil plate, and the power generation operation of the generator is realized under the matching of the power generation driving and rotating assembly and the power generation tooth column, so that the conversion of ocean current energy into electric energy is effectively realized, and the effective utilization of ocean current energy is realized.

2. According to the invention, through the matching effect of the bidirectional adjusting rod and the first hinge part and the second hinge part, the flexible adjustment of the space between the plurality of hydrofoil plates longitudinally arranged can be realized, so that the depth of the hydrofoil plate is adjusted, the ocean current energy at different depths and the ocean current energy in a larger range are effectively utilized, and the application under different scenes is adapted.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an ocean power generation apparatus according to embodiment 1.

Fig. 2 is a partial structural schematic diagram of fig. 1.

Fig. 3 is a partial structural schematic diagram of fig. 2.

Fig. 4 is a schematic structural view of the power generation rotation driving module in embodiment 1.

Fig. 5 is a schematic structural view of an ocean power generating apparatus according to embodiment 2.

Fig. 6 is a partial structural schematic diagram of fig. 5.

Fig. 7 is a left side view of the structure of fig. 6.

Fig. 8 is a schematic structural view of the power generation rotation drive assembly in embodiment 2.

Fig. 9 is a schematic structural diagram of the floating power generation mechanism.

Fig. 10 is a schematic view of the floating power generation mechanism from another angle.

Fig. 11 is a schematic structural view of a water wing plate.

Fig. 12 is a schematic structural view of the first hinge.

Fig. 13 is a schematic structural view of the second hinge.

Fig. 14 is a schematic structural view of the bi-directional adjustment lever.

Fig. 15 is a schematic structural view of a two-way connecting rod.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a floating power generation mechanism, 101-a floating platform, 102-a power generator, 103-a power generation toothed column, 104-a sliding channel, 105-a first baffle body, 2-a power generation driving and rotating assembly, 201-a power generation rack, 202-a connecting sleeve head, 203-a free rotation connecting piece, 3-a two-way connecting rod, 4-a lifting frame, 41-a first hinged piece, 42-a second hinged piece, 43-a two-way adjusting rod, 44-a first supporting rod, 45-a rudder plate, 46-a second supporting rod, 47-a cavity body, 48-a counterweight ball, 49-a telescopic part, 5-a water wing plate and 501-a hinged groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-4 and 9-15, the invention relates to an ocean power generation device, which comprises a floating power generation mechanism 1; the surface of the floating power generation mechanism 1 is in sliding fit with a power generation driving and rotating assembly 2, the power generation driving and rotating assembly 2 is driven to move up and down through ocean current energy in the ocean, so that the floating power generation mechanism 1 converts the ocean current energy into electric energy, the bottom of the power generation driving and rotating assembly 2 is rotatably connected with a two-way connecting rod 3, two ends of the two-way connecting rod 3 are both connected with lifting frames 4, and the power generation driving and rotating assembly 2 can move up and down through the two-way rotation of the lifting frames 4;

a plurality of water wing plates 5 are hinged between the two lifting frames 4, the water wing plates 5 are arranged up and down, the power generation driving and rotating component 2 is driven to move up and down under the connecting action of the lifting frames 4 by utilizing the impact action of ocean current flowing in the ocean on the water wing plates 5, the ocean current energy is converted into electric energy under the matching of the power generation driving and rotating component 2 and the floating power generation mechanism 1, and the effective utilization of the ocean current energy is realized;

the floating type power generation mechanism 1 comprises a floating platform 101, a power generator 102 is fixedly arranged on the upper surface of the floating platform 101, a power generation toothed column 103 is fixed at one end of a power generation shaft of the power generator 102, and the power generation toothed column 103 is meshed with a power generation driving component 2; in the process of up-and-down movement of the power generation driving component 2, the rotation of the power generation toothed column 103 is realized by the cooperation of the power generation driving component 2 and the power generation toothed column 103, so that the power generation operation of the power generator 102 is realized.

In this embodiment, the upper surface of the floating platform 101 is provided with a sliding channel 104 corresponding to the power generation tooth column 103, and the lower surface of the floating platform 101 is fixed with a first blocking body 105; the power generation driving component 2 comprises a power generation rack 201 meshed with the power generation toothed column 103, and the power generation rack 201 is in sliding fit with the sliding channel 104; a connecting sleeve head 202 is fixed at the lower end of the power generation rack 201, and the connecting sleeve head 202 is rotatably connected with the bidirectional connecting rod 3; under the action of ocean current, the water wing plates 5 rise upwards to drive the power generation rack 201 to move upwards to drive the power generator 102 to generate power, after the front end parts of the uppermost water wing plates 5 touch the first blocking bodies 105, the water wing plates 5 incline downwards, the ocean current enables the water wing plates 5 to move downwards, and the ocean current drives the power generator 102 to generate power in a reciprocating mode.

In this embodiment, the lifting frame 4 comprises a first hinge 41, and the first hinge 41 is in hinged fit with the lowest water wing plate 5; a plurality of second hinges 42 are arranged above the first hinges 41 along the longitudinal direction; the second hinge members 42 positioned at the uppermost position are connected with first support rods 44; a cavity body 47 is arranged among the first supporting rods 44, the cavity body 47 is hinged with the first supporting rods 44, and a counterweight ball 48 is arranged in the cavity body 47; when the hydrofoil 5 inclines downwards in the direction of the ocean current, the counterweight ball 48 in the cavity 47 is positioned below the hydrofoil 5 to keep the hydrofoil 5 inclined upwards, the hydrofoil 5 moves downwards under the action of the ocean current to drive the power generation rack 201 to move downwards to drive the generator 102 to generate power, when the front end of the lowest hydrofoil 5 touches a second baffle arranged on the seabed, the hydrofoil 5 is inclined upwards, the counterweight ball 48 in the cavity 47 rolls to the other side to keep the hydrofoil 5 inclined upwards, the hydrofoil 5 rises upwards under the action of the ocean current to drive the power generation rack 201 to move upwards to drive the generator 102 to generate power, when the front end of the highest hydrofoil 5 touches the first baffle 105, the hydrofoil 5 is inclined downwards, the counterweight ball 48 in the cavity 47 rolls to one side of the original hydrofoil 5 to keep the hydrofoil 5 inclined downwards, and the hydrofoil 5 moves downwards by the ocean current, the ocean current is used for driving the generator 102 to generate electricity;

in this embodiment, a bidirectional adjusting rod 43 is connected between two adjacent second hinge parts 42 and between the first hinge part 41 and its adjacent second hinge part 42 through threads; the second hinged parts 42 are hinged and matched with the hydrofoil plates 5; two opposite side surfaces of the water wing plate 5 are provided with hinge grooves 501; the hinge groove 501 of the lowermost hydrofoil panel 5 is connected to the corresponding first hinge 41, and the second hinge 42 is connected to the hinge groove 501 of the corresponding hydrofoil panel 5; a second support rod 46 is hinged between the two first support rods 44 on the same side, and the two second support rods 46 which are oppositely arranged are fixedly connected with the two-way connecting rod 3; through the cooperation of two-way regulation pole 43 with first articulated elements 41 and second articulated elements 42, can realize the nimble regulation of a plurality of water wing panel 5 intervals of vertical setting to adjust the degree of depth of locating of hydrofoil panel 5, satisfy the ocean current energy on the different degree of depth and the effective utilization of the ocean current energy in the wider range, adapt to the application under the different scenes.

Example 2

Referring to fig. 5-8 and 9-15, the present invention is an ocean power generation apparatus, including a floating power generation mechanism 1; the surface of the floating power generation mechanism 1 is in sliding fit with a power generation driving and rotating assembly 2, the power generation driving and rotating assembly 2 is driven to move up and down through ocean current energy in the ocean, so that the floating power generation mechanism 1 converts the ocean current energy into electric energy, the bottom of the power generation driving and rotating assembly 2 is rotatably connected with a two-way connecting rod 3, two ends of the two-way connecting rod 3 are both connected with lifting frames 4, and the power generation driving and rotating assembly 2 can move up and down through the two-way rotation of the lifting frames 4;

a plurality of water wing plates 5 are hinged between the two lifting frames 4, the water wing plates 5 are arranged up and down, the power generation driving and rotating component 2 is driven to move up and down under the connecting action of the lifting frames 4 by utilizing the impact action of ocean current flowing in the ocean on the water wing plates 5, the ocean current energy is converted into electric energy under the matching of the power generation driving and rotating component 2 and the floating power generation mechanism 1, and the effective utilization of the ocean current energy is realized;

the floating type power generation mechanism 1 comprises a floating platform 101, a power generator 102 is fixedly arranged on the upper surface of the floating platform 101, a power generation toothed column 103 is fixed at one end of a power generation shaft of the power generator 102, and the power generation toothed column 103 is meshed with a power generation driving component 2; in the process of up-and-down movement of the power generation driving component 2, the rotation of the power generation toothed column 103 is realized by the cooperation of the power generation driving component 2 and the power generation toothed column 103, so that the power generation operation of the power generator 102 is realized.

In this embodiment, the upper surface of the floating platform 101 is provided with a sliding channel 104 corresponding to the power generation tooth column 103, and the lower surface of the floating platform 101 is fixed with a first blocking body 105; the power generation driving component 2 comprises a power generation rack 201 meshed with the power generation toothed column 103, and the power generation rack 201 is in sliding fit with the sliding channel 104; the lower end of the power generation rack 201 is provided with a free rotation connecting piece 203, so that the water wing plate 5 is ensured to face the direction of ocean current all the time, the bottom of the free rotation connecting piece 203 is provided with a connecting sleeve head 202, and the connecting sleeve head 202 is rotatably connected with the bidirectional connecting rod 3; under the action of ocean current, the water wing plates 5 rise upwards to drive the power generation rack 201 to move upwards to drive the power generator 102 to generate power, after the front end parts of the uppermost water wing plates 5 touch the first blocking bodies 105, the water wing plates 5 incline downwards, the ocean current enables the water wing plates 5 to move downwards, and the ocean current drives the power generator 102 to generate power in a reciprocating mode.

In this embodiment, a second support rod 46 is hinged between the two first support rods 44 on the same side, and the two second support rods 46 arranged oppositely are both fixedly connected with the bidirectional connecting rod 3; a rudder plate 45 is fixed between the two opposite first support rods 44, and the two first support rods 44 opposite to the rudder plate 45 comprise telescopic parts 49; when the hydrofoils 5 incline downwards in the direction of the ocean current, the hydrofoils 5 move downwards under the action of the ocean current, the telescopic parts 49 stretch downwards at the moment to drive the power generation racks 201 to move downwards to drive the power generator 102 to generate power, when the front end parts of the lowest hydrofoils 5 touch the second baffle arranged on the seabed, the hydrofoils 5 incline upwards, the hydrofoils 5 rise upwards under the action of the ocean current at the moment, the telescopic parts 49 retract upwards to drive the power generation racks 201 to move upwards to drive the power generator 102 to generate power, when the front end parts of the uppermost hydrofoils 5 touch the first baffle 105, the hydrofoils 5 incline downwards to drive the hydrofoils 5 to move downwards under the action of the telescopic parts 49, and the power generator 102 is driven to generate power by the ocean current in a reciprocating mode.

In this embodiment, the lifting frame 4 comprises a first hinge 41, and the first hinge 41 is in hinged fit with the lowest water wing plate 5; a plurality of second hinged parts 42 are longitudinally arranged above the first hinged part 41, and a bidirectional adjusting rod 43 is in threaded connection between every two adjacent second hinged parts 42 and between the first hinged part 41 and the adjacent second hinged part 42; the second hinged parts 42 are hinged and matched with the hydrofoil plates 5; two opposite side surfaces of the water wing plate 5 are provided with hinge grooves 501; the hinge groove 501 of the lowermost hydrofoil panel 5 is connected to the corresponding first hinge 41, and the second hinge 42 is connected to the hinge groove 501 of the corresponding hydrofoil panel 5; through the cooperation of two-way regulation pole 43 with first articulated elements 41 and second articulated elements 42, can realize the nimble regulation of a plurality of water wing panel 5 intervals of vertical setting to adjust the degree of depth of locating of hydrofoil panel 5, satisfy the ocean current energy on the different degree of depth and the effective utilization of the ocean current energy in the wider range, adapt to the application under the different scenes.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. An ocean power generation device comprises a floating power generation mechanism (1); the method is characterized in that:

the surface of the floating power generation mechanism (1) is in sliding fit with a power generation driving and rotating assembly (2), the bottom of the power generation driving and rotating assembly (2) is rotatably connected with a two-way connecting rod (3), and two ends of the two-way connecting rod (3) are connected with lifting frames (4);

a plurality of water wing plates (5) are hinged between the two lifting frames (4), and the plurality of water wing plates (5) are arranged up and down;

the floating type power generation mechanism (1) comprises a floating platform (101), a power generator (102) is fixedly mounted on the upper surface of the floating platform (101), a power generation toothed column (103) is fixed at one end of a power generation shaft of the power generator (102), and the power generation toothed column (103) is meshed with the power generation driving component (2).

2. The ocean power generation device according to claim 1, wherein the upper surface of the floating platform (101) is provided with a sliding channel (104) corresponding to the power generation tooth column (103), and the lower surface of the floating platform (101) is fixed with a first blocking body (105).

3. An ocean energy electricity generating device according to claim 2 wherein the electricity generating driving assembly (2) comprises an electricity generating rack (201) engaged with the electricity generating tooth post (103), the electricity generating rack (201) is in sliding fit with the sliding channel (104);

the lower end of the power generation rack (201) is fixed with a connecting sleeve head (202), and the connecting sleeve head (202) is rotatably connected with the bidirectional connecting rod (3).

4. An ocean energy electricity generating device according to claim 2 wherein the electricity generating driving assembly (2) comprises an electricity generating rack (201) engaged with the electricity generating tooth post (103), the electricity generating rack (201) is in sliding fit with the sliding channel (104);

the lower end of the power generation rack (201) is provided with a free rotation connecting piece (203), the bottom of the free rotation connecting piece (203) is provided with a connecting sleeve head (202), and the connecting sleeve head (202) is rotatably connected with the bidirectional connecting rod (3).

5. An ocean energy power plant according to claim 1 wherein the crane (4) comprises a first hinge (41), the first hinge (41) being in hinged engagement with the lowermost hydrofoil (5);

a plurality of second hinged parts (42) are arranged above the first hinged parts (41) along the longitudinal direction, and a bidirectional adjusting rod (43) is in threaded connection between every two adjacent second hinged parts (42) and between the first hinged part (41) and the adjacent second hinged part (42); the second hinged parts (42) are hinged and matched with the hydrofoil plates (5).

6. An ocean energy power plant according to claim 5 characterized in that the second hinge members (42) located uppermost are each connected with a first support rod (44), and a rudder plate (45) is fixed between the two opposite first support rods (44); the two first support rods (44) opposite to the rudder plate (45) comprise telescopic components (49);

a second supporting rod (46) is hinged between the two first supporting rods (44) on the same side, and the two second supporting rods (46) which are arranged oppositely are fixedly connected with the two-way connecting rod (3).

7. An ocean energy power generation device according to claim 6 wherein a cavity (47) is arranged between a plurality of the first support rods (44), the cavity (47) is hinged with the first support rods (44), and a counterweight ball (48) is arranged in the cavity (47).

8. An ocean power plant according to claim 5 wherein the water wing plates (5) are provided with hinge grooves (501) on opposite sides; the hinge groove (501) on the lowest hydrofoil plate (5) is connected with the corresponding first hinge piece (41), and the second hinge piece (42) is connected with the hinge groove (501) on the corresponding hydrofoil plate (5).

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