KR20150045603A - Tidal power generation device - Google Patents

Abstract

The present invention relates to a tidal power generation apparatus capable of automatically moving up and down without a ship according to the water level of tide, introducing even more tide into a tide introducing frame, and obtaining large rotation efficiency by making tide introduced into a tide introducing frame efficiently come in contact with a spiral rotating blade. The tidal power generation apparatus comprises: multiple supports standing on both sides of the direction of introduced tide; a tide introducing frame which includes a water path installed between the supports to be moved up and down and formed in the direction of introduced tide, tide guide surfaces formed on the front and rear part of the water path so that the width of the water path gets narrower, a cylindrical tide through hole connected with the tide guide surface, and an empty space sealed except for the tide guide surface and the tide through hole to be automatically moved up and down according to the water level of tide; a water turbine which includes a rotating shaft arranged in the center of the tide introducing frame in a forward-backward direction and is rotated in one direction when the tide passing through the tide through hole comes in contact with the rotating blades spirally and radially fixed to the rotating shaft; a stream introducing member which is spirally formed on the inner wall of the tide through hole to be perpendicular to the outer ends of the rotating blades and is positioned close to the rotating blades to introduce the stream of tide in the direction perpendicular to the rotating blades; and a generation module which is connected with the rotating shaft to transmit power and generates power by rotating force of the rotating shaft.

Description

[0001] Tidal power generation device [0002]

More particularly, the present invention relates to a tidal power generation apparatus capable of automatically ascending and descending according to a tide level of a tide without a vessel, inducing a larger amount of tide water to be introduced into the tide inflow frame, The incoming fresh water is efficiently brought into contact with the rotating blades in the spiral direction so that a greater rotation efficiency can be obtained.

Hydrogen power generation, thermal power generation and nuclear power generation can be cited as general power generation methods. These power generation methods require large-scale power generation facilities. In the case of thermal power generation, enormous amount of oil or coal energy is necessary Since oil and coal resources are depleted, many difficulties are anticipated and pollution becomes a big problem. In the case of nuclear power generation, there is a serious problem of radioactive spillage and nuclear waste disposal. Therefore, there is a need for a more economical, safer, and more economical method of development than this general method of development.

On the other hand, eco-friendly power generation methods that do not require oil and coal resources and have no radioactive or nuclear waste problems include solar power generation, wave power generation, tidal power generation, and wind power generation. It is tidal power that uses force.

In other words, as the sea level gradually increases from the low tide to the high tide, the tide is moved toward the coast. When an aberration is provided on the side of the tide water in the inflow direction and the aberration is rotated by the tide, The tidal power generation from this is a tidal power generation, and as long as the earth and the moon exist, a uniform tidal movement is always carried out, so much research on tidal power generation is being made.

Examples thereof include patent applications 10-2006-0030782 and patent application 10-2008-0058933.

However, since most of the conventional tidal power generation devices such as the above-mentioned Japanese Patent Application No. 10-2006-0030782, Patent Application No. 10-2008-0058933, etc. required a huge dam or beam, .

In addition, since the conventional tidal power generator is structurally very complicated, it takes a lot of time and cost, and it is usual that only one or two aberrations are provided at a single location. Therefore, The efficiency of power generation is not high, and the power generation can not be done properly.

In view of this, the present applicant discloses in Japanese Patent Application No. 10-2013-0003820 at least two defined ships moored side by side in the inflow direction of tide water; Wherein a plurality of tidal water guide surfaces are formed between the tanks to form a water channel toward the tidal water inflow direction and at the front and rear positions of the water channel are formed narrower widths of the water channels, A tide inlet mold forming a through hole; A plurality of rotary vanes are fixed in a spiral manner in a radial manner so that an outer end of the rotary vane is in close contact with the tidal water passage hole in the rotary shaft at a central portion of the tide inlet mold, Aberration that is rotated in one direction while a plurality of rotating blades are in contact with each other; And a power generation module connected to the rotation shaft so as to be able to transmit power and generate electric power by the rotational force of the rotation shaft. Since the power generation module is composed of only the tide inflow frame and the airstream, it is structurally very simple and can be easily installed. There has been disclosed a tidal power generator capable of increasing the efficiency of the tidal power generation because the tide can be used to rotate almost all the aberrations according to the shape of the rotating blade of the aberration closely located to the tide guiding surface, the tide passing hole and the tide passing hole .

However, the tidal power generating device according to the patent application No. 10-2013-0003820 has a disadvantage in that a two-definition vessel is required to automatically raise the tidal inflow frame according to the height of the tidal water, The tidal water introduced into the tidal inlet frame has a straight flow, while the auricle has a spiral direction. Therefore, when the tidal water is in contact with the rotary vane, In addition, since the tide is more efficiently introduced into the tide inflow frame, the tide introduced into the tide inflow frame is efficiently brought into contact with the rotating blades formed in the spiral direction, and thus a need for designing to obtain a larger rotation efficiency has emerged .

The present invention has been proposed in view of this point, and it is possible to automatically ascend and descend according to the level of the tide without a vessel, to induce more tidal water to be introduced into the tide inflow frame, And the tidal water is efficiently brought into contact with the rotating blade in the spiral direction, thereby achieving a larger rotation efficiency.

In order to solve such a problem, the present invention is characterized by comprising: a plurality of pillars provided symmetrically with respect to each other in the inflow direction of tide water; Wherein a water guide surface is formed so as to be able to ascend and descend between the struts to form a water channel toward a tidal water inflow direction and to form a tide guiding surface having a shape in which the width of the water channel is gradually narrowed at the front and rear positions of the water channel, A fresh water inlet frame having a cylindrical fresh water passage hole formed therein and having an empty space in which a portion excluding the fresh water guide surface and the fresh water passage hole is sealed so that the fresh water can be automatically lifted and lowered according to the level of the fresh water; And a plurality of rotary blades are fixed to the rotary shaft in a spiral manner at an outer end thereof in a radial manner so that the tidal water passing through the tidal-hole passing holes and the plurality of rotary blades are in contact with each other Aberration rotated in one direction; A plurality of rotary vanes formed in the inner wall of the vortex passage hole in a spiral shape so as to be perpendicular to the outer ends of the plurality of rotary vanes and disposed closely to the plurality of rotary vanes to guide the water flow of the tide in a direction perpendicular to the plurality of rotary vanes; An induction member; And a power generation module connected to the rotation shaft so as to be able to transmit power and generate electric power by the rotational force of the rotation shaft.

Preferably, a support for rotatably fixing both ends of the rotary shaft is installed at the front and rear positions of the fresh water inflow mold, respectively; A driving gear is mounted on a portion of each of the opposite side portions of the rotary shaft located inside the support frame, a connection shaft is rotatably inserted in the upper and lower directions of the upper and lower rear portions of the fresh water inflow frame, And a driven gear is mounted on a lower end of each connecting shaft to engage with the driving gear so that power of the driving gear can be transmitted in a perpendicular direction; The outer side portions of the tidal inlet shells of the connection shafts may be connected to the power generation module so as to transmit power.

Preferably, on the inner surface of the water-guiding member, a plurality of bushings for separating the water stream twisted by the water-guiding member from the water stream going straight in the vicinity of the central portion of the rotary vane so as not to interfere with each other may be fixed .

Preferably, the sidewall of the tide inlet mold may be provided with guide rollers, respectively, which are inserted into the struts so that the tide inlet mold is in rolling contact with the tide inflow frame when ascending and descending.

Preferably, a guide bed is provided on the front and rear lower ends of the tide inflow mold so as to prevent the tide from being introduced into the tide guide surface of the tide inflow mold at all times irrespective of the ascending and descending of the tide inflow mold. Respectively; A multi-step collapsible side guard is provided between both sides of the guide bed and both side portions of the fresh water inflow mold to prevent leakage of fresh water to both sides of the guide bed and the tide inflow mold at all times regardless of the rotation of the guide bed .

Preferably, clutches for changing the rotational force transmission direction are connected to the connection shafts, respectively, in accordance with the rotation direction of the aberrations, and the clutch and the power generation module are connected to each other so as to transmit power, So that the power generation can be performed at all times.

Preferably, a bevel gear is fixed to each of the connection shafts; The clutch may be provided with two bevel gears which can be engaged with the bevel gears in opposite directions, respectively, in accordance with the direction of rotation of the aberrations.

Since the tide inflow frame is fixed to a plurality of struts without a ship so that it can be raised and lowered and the aberration is rotatably installed inside the tide inflow frame, it is structurally very simple and can be easily installed. The tidal inflow frame is raised and lowered by the buoyancy according to the level of the tidal water, and the tidal water can be introduced into the tidal inflow frame at all times irrespective of tide and ebb.

In addition, when the tide is introduced into the tide inflow frame, the tide water can be guided in a direction perpendicular to the rotating blades, while being in contact with the water flow guide member formed in a spiral shape on the inner wall surface of the tide passing hole so as to be perpendicular to the rotation blades of the aberration. Can be rotated by a stronger force to improve the power generation efficiency. When the tide is introduced and the incoming tide is discharged, the aberration can be continuously generated and the power generation can be continuously performed. So that no power is used for the rotation operation of the aberration, and the operation can be performed only by the flow of the tide water, so that there is an advantage that no additional electric power is required for the tidal power generation.

1 is a perspective view of a tidal power generator according to the present invention;
2 is a detailed view of the aberration and water flow guide member of the tidal power generation device according to the present invention.
3 is a side cross-sectional view of the tidal power generator according to the present invention.
4 is a front view of the tidal power generator according to the present invention.
5 is a detailed view of a clutch part of a tidal power generator according to the present invention.
6 is an explanatory diagram of a case where a guide bed for inducing fresh water is installed in a tidal power generating device according to the present invention;

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the attached drawings.

As shown in the drawings, the present invention relates to a tidal power generator designed to increase the efficiency of tidal power generation while being easy to install, and more particularly, to a tidal power generator having a tidal portion between land and islands, between islands and islands, A plurality of struts 10 standing in the direction of inflow of fresh water to a sea surface where a flow is generated in the fresh water due to a difference in tide distance such as a narrow tide of the tide alone and a plurality of struts 10 installed in the inflow direction of fresh water, An aberration 30 provided horizontally in the central portion of the fresh water inflow frame 20 and a turbine 30 connected to the turbine 30 in a powertransmittable manner so as to be rotatable, 31 for generating electric power by receiving the rotational force of the generator module 40.

The pillar 10 serves to support the tide inflow mold 20 so as to be able to ascend and descend, so that the tide inflow mold 20 is symmetrically provided so as to stably support the tide inflow mold 20. Four struts 10, As shown in Fig.

The tide inlet frame 20 is provided between the pillars 10 so as to be able to move up and down so as to form a water channel 21 toward the incoming direction of the fresh water and the width of the channel is gradually narrowed A plurality of cylindrical fresh water passage holes 23 are formed continuously from the fresh water guide surface 22 and the fresh water guide surfaces 22 are formed so as to be automatically lifted and lowered according to the level of the fresh water. ) And the fresh water passing hole (23) are sealed in an empty space (24).

A guide roller 25 is provided on the sidewall of the tide inflow frame 20 so that the tide inflow frame 20 is inserted into the pillar 10 and brought into rolling contact with the tide inflow frame 20 when ascending and descending. Shaped pillars 26, and the pillars 10 are positioned between the guide rollers 25, respectively.

Support bases 27 branched in three directions are respectively installed on the front and rear of the tide inflow mold 20. A rotary shaft 31 is rotatably fixed to the center of each support table 27 in the front- A plurality of rotary blades 32 are fixed in a spiral manner in a radial manner so that the aquifers 30 are rotated in one direction while a plurality of rotary blades 32 are in contact with the fresh water passing through the fresh water passing holes 23. Although not shown in the drawing, the support base 27 has a streamlined surface on both sides like a convex lens on the basis of the fresh water flow direction, and its aberration side end is perpendicular to the rotation blades 32 of the aberration 30 As shown in Fig.

The inner surface of the inner wall of the fresh water generating hole 20 is formed in a spiral shape so as to be perpendicular to the outer end of the rotor blades 32 of the aberration 30, And a water flow guide member 28 for guiding water flow of the tide water in a direction perpendicular to the plurality of rotary blades 32 is formed on the inner surface of the water flow guide member 28. Water flow guide members 28, And a plurality of bushings (29) which are separated from each other and which are prevented from interfering with each other are fixed to the rotating wing (32).

A driving gear 33 is mounted on a portion of each side portion of the rotary shaft 32 located inside the support table 27 and a connecting shaft 34 is provided vertically at the upper front and rear positions of the fresh water inlet frame 20 And a driven gear 35 is mounted on the lower end of each of the connecting shafts 34 located inside the support table 27 so that the driving gear 33 can be transmitted in a direction perpendicular to the driving gear 33. [ (33).

Since the aberration 30 is rotated in the opposite direction when the fresh water is introduced and discharged, each of the connection shafts 34 is equipped with a clutch 36 that changes its rotational force transmission direction in accordance with the rotation direction of the aberration 30, The clutch 36 and the power generation module 40 are connected so as to be able to transmit power so that the power generation is always performed regardless of the direction of rotation of the aberration 30. [

A bevel gear 34a is fixed to the clutch side end of each connecting shaft 34 and the clutch 36 is connected to the bevel gear 34a fixed to the connecting shaft 34 in the direction opposite to the rotational direction of the aberration 30, And two bevel gears 36a and 36b that can be engaged with each other in the direction of rotation of the aberration 30 to fix any one of the two bevel gears 36a and 36b to the connection shaft 34 The bevel gear 34a may be configured to be engaged with the bevel gear 34a. The operation of the bevel gear 34a may be performed by sensing the rotational direction of the connecting shaft 34 and automatically selecting the connecting direction thereof, The clutch 36 can be configured to manually switch its connecting direction. The specific structure of the clutch 36 will be omitted.

The driving gear 33 and the driven gear 35 may be constructed in various gears such as a bevel gear and a helical gear capable of transmitting the power in a direction perpendicular to the driving gear 33 and the driven gear 35, Gears.

The fresh water inflow frame 20 and the fresh water inflow frame 20 are provided at the front and rear lower ends thereof so that the fresh water always flows into the fresh water guide surface 22 side of the fresh water inflow mold 20 regardless of the rising / And guide betweenthe side portions of the guide bed 51 and both side portions of the tide inflow mold 20 are provided with guide guides 51 which are provided at all times irrespective of the rotation of the guide bed 51, And a multi-folded side guard 52 for preventing fresh water from leaking to both sides of the bed 51 and the fresh water inlet frame 20 is provided.

In addition, it is possible to maximize the amount of electricity generated by arranging the tidal-type inflow frame (20) and the aberration (30) in a zigzag form on the coast, have.

The operation of the tidal power generator according to the present invention will now be described.

First, when the low tide and the sea level rise a little, the tide moves toward the coast, and the flow of the tide is generated. In the narrow part of the bay where the tide flows between the island and the island, between the island and the island, And this tide water flows in the direction of the fresh water inlet frame 20 supported by the plurality of pillars 10 so as to be able to ascend and descend.

Since the tide is introduced into the tide inflow mold 20 and the support tread 27, which is first brought into contact with the tide inflow mold 20, has a streamlined surface formed on both sides of the tide based on the tide flow direction, the tide flow is not disturbed at all, Since the fresh water guide surfaces 22 are formed on the front and rear surfaces of the water channel 21 of the frame 20 in such a manner that their width gradually decreases in the direction of the fresh water passing holes 23, the fresh water is guided by these fresh water guide surfaces 22, (23).

Inside the fresh water passage hole 23, there is disposed a turbine 30 having a plurality of rotating blades 32 radially fixed in a spiral manner to the rotating shaft 31. A plurality of rotations The water flow is guided by the water flow guide member 28 while being guided in a direction perpendicular to the rotary vane 32 since the spiral water flow guide member 28 is formed so as to be perpendicular to the outer end of the vane 32, It is possible to rotate the aberration 30 more strongly about the rotation axis 31 by rotating the drive gear 33 and the driven gear 35 The one connecting shaft 34 is rotated in the forward direction and the other connecting shaft 34 is rotated in the reverse direction.

A plurality of bushing rings 29 are fixed on the inner surface of the water flow guide member 28 so that the water flow that is twisted by the water flow guide member 28 and the water flow that straightens at the center portion of the rotary vane 32 do not interfere with each other So that the generation of vortex is reduced, and the rotation of the aberration 30 becomes more smooth.

The bevel gear 36a connected in the forward direction of the two bevel gears 36a and 36b is connected to the bevel gear 36a fixed to the one connecting shaft 34 by the one side clutch 36 when the one connecting shaft 34 is rotated in the forward direction, 34a so that the rotational force of the one connection shaft 34 is transmitted to the one power generation module 40 in the forward direction so that power is generated through the one power generation module 40 and the other connection shaft 34 is connected to the one connection shaft 34. [ The bevel gear 36b connected to the other of the two bevel gears 36a and 36b in the reverse direction is connected to the other connecting shaft 34 in the other clutch 36 mounted on the other connecting shaft 34, So that the rotational force of the other connecting shaft 34 is transmitted to the power generating module 40 in a reverse direction so that the other power generating module 40 is rotated in the forward direction to rotate the other power generating module 40 ).

At this time, if a large amount of fresh water is used to rotate the aberration 30 by constituting the fresh water inflow frame 20 and the aberration 30 on a large scale, the rotating force of the aberration 30 itself increases, An accelerator (not shown) such as an accelerating gear group may be installed between the rotary shaft 31 of the power generating module 40 and the power generating module 40 to generate more power than the aberration 30 per unit time.

The tide inflow frame 20 is rotatably provided at the lower and rear ends of the tide inflow frame 20 so as to be inclined between the tide inflow mold 20 and the bottom surface. Since the side guards 52 are provided between the side portions of the inflow mold 20 so as to be capable of being folded in multiple stages, even if the fresh water inflow mold 20 moves up and down according to the fresh water level, The tide water is prevented from leaking to both sides of the tide inflow mold 20 and guided inward toward the inside of the tide inflow mold 20 so that the tide water passes through the tide inflow mold 20, The tide water is waiting at a position higher than the other portion on the inlet side of the tide inlet mold 20 and pushes the aberration with a relatively high pressure due to the fall, Energy The aberration 30 can be rotated with a stronger force.

After the high tide, the sea level is gradually lowered, and the tidal water that has flowed toward the coast is released to the sea direction. When the opposite flow of the tides occurs, the area between the islands and the islands, between the islands and the islands, A plurality of struts 10 and a tide inlet frame 20 are symmetrically formed in the front and rear direction and the rotation axis 31 of the aberration 30 The aberration 30 is also rotated in the opposite direction when the fresh water flows in the opposite direction and when the aberration 30 is rotated in the opposite direction, ) Is rotated in a direction opposite to that at the time of introduction of the tide, and power generation is performed by the opposite action to that described above.

Therefore, according to the present invention, power generation can be performed through inflow of tide water from the low tide to the end of high tide, and power generation can be performed while the tide water is discharged from the time of high tide to low tide. And that the development can be continued.

Further, since the tidal power generator according to the present invention can be easily constructed with a pillar, tide inflow frame, and aberration even without a large-scale dam or beam, it is possible to easily install at a low cost, When a plurality of tanks are arranged in a zigzag form on the coast, a maximum number of electric power can be produced without weakening the flow of the tide. It is also possible to produce large-scale electricity through

In the present invention, the tidal power generation device is installed in the sea. However, it is obvious that the tidal power generation device can be installed in a place having a large flow rate and a large flow rate to be used for small hydroelectric power generation.

10: support 20: tide inflow frame
21: channel 22: tide guiding surface
23: tide passing hole 24: empty space
25: guide roller 26: ring
27: Supporting base 28:
29: bushing ring 30: aberration
31: rotating shaft 32: rotating blade
33: driving gear 34: connecting shaft
34a, 36a, 36b: Bevel gear 35: driven gear
36: clutch 40: power generation module
51: guide bed 52: side guard

Claims (7)

A plurality of pillars symmetrically disposed on both sides of the tidal water inlet direction;
Wherein a water guide surface is formed so as to be able to ascend and descend between the struts to form a water channel toward a tidal water inflow direction and to form a tide guiding surface having a shape in which the width of the water channel is gradually narrowed at the front and rear positions of the water channel, A fresh water inlet frame having a cylindrical fresh water passage hole formed therein and having an empty space in which a portion excluding the fresh water guide surface and the fresh water passage hole is sealed so that the fresh water can be automatically lifted and lowered according to the level of the fresh water;
And a plurality of rotary blades are fixed to the rotary shaft in a spiral manner at an outer end thereof in a radial manner so that the tidal water passing through the tidal-hole passing holes and the plurality of rotary blades are in contact with each other Aberration rotated in one direction;
A plurality of rotary vanes formed in the inner wall of the vortex passage hole in a spiral shape so as to be perpendicular to the outer ends of the plurality of rotary vanes and disposed closely to the plurality of rotary vanes to guide the water flow of the tide in a direction perpendicular to the plurality of rotary vanes; An induction member; And
And a power generation module connected to the rotation shaft so as to be able to transmit power and generating electric power by a rotational force of the rotation shaft. The method according to claim 1,
And a support table for rotatably fixing both ends of the rotary shaft are installed at front and rear positions of the tide inlet mold, respectively;
A driving gear is mounted on a portion of each of the opposite side portions of the rotary shaft located inside the support frame, a connection shaft is rotatably inserted in the upper and lower directions of the upper and lower rear portions of the fresh water inflow frame, And a driven gear is mounted on a lower end of each connecting shaft to engage with the driving gear so that power of the driving gear can be transmitted in a perpendicular direction;
Wherein a portion outside the fresh water inlet frame of each of the connection shafts is connected to the power generation module so as to transmit power. The method according to claim 1,
Wherein a plurality of bushings are fixed on the inner surface of the water-guiding member so as to separate water streams twisted by the water-guiding member from water flowing straight ahead in the vicinity of the central portion of the rotary wings so as not to interfere with each other. Device. The method according to claim 1,
Wherein the sidewall of the tide inlet mold is provided with a guide roller so as to be in contact with the strut so that the tide inlet frame is in rolling contact with the tide inflow frame when ascending and descending. The method according to claim 1,
A guide bed for sloping between the tide inlet frame and the bottom surface is installed rotatably so that the fresh water always flows into the tide guiding surface of the tide inlet frame irrespective of the ascending and descending directions of the tide inlet frame ;
A multi-step collapsible side guard is provided between both sides of the guide bed and both side portions of the fresh water inflow mold to prevent leakage of fresh water to both sides of the guide bed and the tide inflow mold at all times regardless of the rotation of the guide bed Wherein the tidal generator is a tidal generator. 3. The method of claim 2,
A clutch for changing a rotational force transmission direction is connected to each of the connection shafts in accordance with a rotation direction of the aberration, and the clutch and the power generation module are connected to each other so as to transmit power, And the tidal generator is configured to generate the tidal current. The method according to claim 6,
A bevel gear is fixed to each of the connection shafts; Wherein the clutch is provided with two bevel gears that can be engaged with the bevel gears in opposite directions, respectively, in accordance with the direction of rotation of the aberrations.

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