KR20110035310A - Apparatus for generating using tidal current - Google Patents

Abstract

PURPOSE: A generation device using tidal currents is provided to easily perform a maintenance work by simplifying the structure of the device. CONSTITUTION: A generation device using tidal currents comprises support blocks(10), support wires(20), buoyancy members(30), an upper structure(40), a generator hanger(50), and a generator(60). The support blocks are arranged on the seabed. The bottom ends of the support wires are connected to the support blocks, and the top ends are upward extended. The buoyancy members are connected to the top ends of the support wires and are arranged underwater. The upper structure is installed in the top ends of the buoyancy members and is exposed from a water surface. The top end of the generator hanger is supported in the upper structure, and the bottom end is arranged underwater. The generator comprises a rotor connected to the bottom end of the generator hanger.

Description

Algae Generator {Apparatus for generating using tidal current}

The present invention relates to an algae power generation apparatus, and more particularly, by supporting a buoyancy body in the water through a support wire by arranging a support block on the sea bottom and connected to the upper end of the buoyancy body again through an upper structure exposed to the water surface. The generator hanger and generator can be used for underwater power generation while supporting, and also the lifting means for raising and lowering the generator to the surface, it is basically a simple structure, the installation is simple, the sea occupying area is minimized The present invention relates to a tidal current generator that is secured without damage due to a typhoon, and is easily repaired by raising a generator as needed.

Generally, algae refers to the horizontal movement of seawater caused by tides. Unlike the currents where water flow and flow rate are almost constant, the flow rate of oil flow changes with time and returns to its original state after a certain time. However, these algae patterns mainly follow seabed topography and coastline shapes.

In addition, generating power by using such algae is called algal power generation and various algae power generation apparatuses have been proposed.

For example, if one looks at one of the conventional tidal current generators, the generator is installed fixed to the generator supporting means such as a rotor on the seabed support structure extending from the sea bottom to the water surface so that the rotor rotates through the tidal current on the seabed An apparatus for performing this has been presented.

However, the tidal current generator of the prior art has a problem that it is not only difficult to install the support structure from the sea floor to the surface of the water, but also the structure is complicated and the manufacturing cost is also very high.

In addition, since the tidal current generator of the prior art has a structure in which the generator is fixed to the supporting structure, it is difficult to check the generator, and thus the maintenance thereof is difficult.

The present invention has been made to solve this problem, by placing a support block on the sea floor to support the buoyancy body in the water through the support wire and connected to the upper end of the buoyancy body again through the superstructure exposed to the water surface Underwater construction is possible while the hanger and the generator are supported, and the lifting means for raising and lowering the generator to the surface are basically provided, so that the installation is simple and the marine occupancy area is minimized. The purpose of the present invention is to provide a tidal current generator that is secured without damage caused by a typhoon and can be repaired by elevating a generator as needed.

Thus, the algae generator of the present invention for achieving the above object is a support block disposed on the bottom; A support wire having a lower end connected to the support block and having an upper end extended upward; Buoyancy body connected to the upper end of the support wire and disposed in the water; An upper structure installed at an upper end of the buoyancy body and exposed to the water surface; A generator hanger having an upper end supported by the upper structure and having a lower end disposed in the water; And a generator provided with a rotor connected to a lower end of the generator hanger and capable of generating power while being axially rotated by water flow.

In addition, in the tidal current power generation apparatus according to the present invention, it is preferable that the elevating means is further provided so that the generator is raised to the surface.

In addition, in the tidal current generator according to the present invention, the lifting means, the guide is provided on the generator hanger, a guide rail is installed on the upper structure corresponding thereto, connecting the lifting wire to the upper end of the generator hanger and It is preferable that a winch is provided to lift and lift the generator hanger by unwinding and lifting the lifting wire.

In addition, in the tidal current generator according to the present invention, it is preferable that the facility for the berthing vessel is further provided on one side of the upper structure.

In addition, in the tidal current generator according to the present invention, it is preferable that a ladder extending from the upper surface of the upper structure to the water surface is further provided on one side of the upper structure.

In addition, in the tidal current generator according to the present invention, the buoyancy body is a pair arranged in parallel spaced apart by a predetermined distance, a plurality of support wires and support blocks are provided respectively corresponding to the front and rear ends of these buoyancy body. desirable.

In addition, in the tidal current power generation apparatus according to the present invention, the buoyancy tank separated by a partition wall is located inside the buoyancy body and the balance and height of the entire structure by injecting or removing seawater through the four pillars to the buoyancy tank on the upper structure. It is desirable that a pumping ballast system be provided for adjustment.

As described above, the tidal current generator of the present invention is arranged to support the buoyancy in the water through the support wire through the support wire and connected to the upper end of the buoyancy again through the upper structure exposed to the surface of the generator hanger And it is possible to underwater power generation in a state where the generator is supported, and also by providing a lifting means for raising and lowering the generator to the surface, basically simple structure, the installation is simple, the marine occupying area is minimized, Stability is secured without damage caused by a typhoon or the like, and as a result, the generator can be lifted up and repaired, so that maintenance can be easily performed.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 5, the tidal current generator according to an embodiment of the present invention is a support block 10 disposed on the sea bottom, the lower end is connected to the support block 10 and the upper end is upwards An extended support wire 20, a buoyancy body 30 connected to an upper end of the support wire 20 and disposed in the water, and an upper structure 40 installed at an upper end of the buoyancy body 30 and exposed to the surface of water. And a generator hanger 50 having an upper end supported by the upper structure 40 and a lower end thereof disposed in the water, and a rotor connected to the lower end of the generator hanger 50 and capable of generating power while being axially rotated by water flow. 61) is configured to include a generator 60 provided.

The support block 10 has a concrete block shape that is a trapezoidal hexahedron, and consists of a plurality of blocks disposed directly below each front and rear end of the pair of buoyancy bodies 30.

The anchor 21 is embedded in the upper surface of the support block 10 and connected to the support wire 20.

The support wire 20 has a plurality of lower ends connected to the support block 10 through the anchor 21 and the upper ends vertically extended to the buoyancy body 30.

The buoyancy body 30 has a pair of elongated rectangular box structures spaced at a predetermined distance in parallel so that the lower end thereof is connected to the support wire 20 and the upper structure 40 is installed on the upper end surface thereof.

Four pillars 40a erected on the buoyancy body 30 of the upper structure 40 to form four corners and a deck 42 having a flat plate structure disposed between the four pillars 40a are provided. These pillars 40a and the deck 42 are in the form of a kind of truss structure connected to each other through several members.

In addition, an elevating passage 42a penetrated up and down is formed at the center of the deck 42 so that the generator 60 can be elevated up and down on the deck 42.

Here, the elevating passage (42a) is penetrated in the English Tee (T) structure corresponding to the shape of the generator 60 and the rotor 61, the portion of the elevating passage (42a) in which the generator 60 is elevated Guide rails 41 for guiding the generator 60 to be vertically elevated are provided.

The guide rail 41 is an elongated bent plate structure in the shape of an English cow (U) to wrap the outer peripheral surface of the guide 51 of the generator hanger 50, and can support both sides and the rear end of the generator hanger 50. It is installed in three places.

In addition, one side of the upper structure 40 is provided with a facility 80 of the grill structure for docking the vessel.

And, adjacent to the facility 80 is provided with a ladder 90 extending from the upper surface of the deck 42 of the upper structure 40 to the water surface.

The winch 70 connects the elevating wire 71 to the upper end of the generator hanger 50 on the upper surface of the deck 42 and releases and pulls the elevating wire 71. Is provided.

Reference numeral 72 denotes a plurality of pulleys for guiding the lifting wire 71.

The generator hanger 50 is an elongated frame structure which is disposed in the elevating passage 42a of the deck 42, and the generator 60 is connected to the lower end thereof.

The upper end of the generator hanger 50 is provided with a plurality of guides 51 having a cylindrical structure for sliding up and down along the guide rail 41 of the lifting passage 42a.

The generator 60 is connected to the lower end of the generator hanger 50, the front end is provided with a rotor 61 consisting of a plurality of blades (61a) axially rotated by a tidal current.

Here, it is preferable that the blade 61a of the rotor 61 be able to adjust the angle of the blade 61a so that the rotational direction can be selectively changed as necessary during high water and low water.

Looking at the installation process of the tidal current generator according to an embodiment of the present invention according to such a configuration, first to produce a support block 10 in the land and then moved to the corresponding position through the sea crane is disposed on the sea bottom.

Then, the upper structure 40, including the buoyancy body 30 and the generator hanger 50 and the generator 60, and the like to be produced in advance integrally on the land and moved to the corresponding position after the buoyancy body 30 and the support block ( 10) is connected to the support wire 20 to complete the installation of the tidal current generator of the present invention.

The completed tidal current generator is lowered by the generator hanger 50 in the water using the winch 70 so that the generator 60 reaches the desired position, the rotor 61 is rotated by the tidal current generator 60 Will be developed through).

In addition, when an abnormality occurs in the generator 60 or check is necessary during power generation, the generator 60 may be pulled up to the upper surface of the deck 42 through the winch 70 to check whether the generator 60 is abnormal. will be.

As described above, the present invention has been described with reference to the above preferred embodiment, but the present invention belongs to the claims and detailed description of the present invention, as well as a modified example of simply applying a combination of such an embodiment and the prior art. It will be appreciated that all of the techniques readily available to those skilled in the art will be included in the technical scope of the present invention.

1 is a front view showing a tidal current generator according to an embodiment of the present invention.

Figure 2 is a side view showing a tidal current generator according to an embodiment of the present invention.

3 is a plan view showing a tidal current generator according to an embodiment of the present invention.

Figure 4 is a schematic plan view of the main part showing the guide structure of the generator hanger of the tidal current generator according to an embodiment of the present invention.

Figure 5 is a schematic side view showing the main portion of the guide structure of the generator hanger of the tidal current generator according to an embodiment of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

10: support block 20: support wire

21: anchor 30: buoyancy body

40: upper structure 40a: pillar

41: guide rail 42: deck

42a: lift passage 50: generator hanger

51: Guide 60: Generator

61: rotor 61a: blade

70: winch 71: lifting wire

71a: Pulley 80: Eyepiece

90: ladder

Claims (4)

A support block 10 disposed on the sea bottom; A support wire 20 having a lower end connected to the support block 10 and having an upper end extended upward; A buoyancy body 30 connected to the upper end of the support wire 20 and disposed in water; An upper structure 40 installed at an upper end of the buoyancy body 30 and exposed to the water surface; A generator hanger 50 having an upper end supported by the upper structure 40 and a lower end thereof disposed in the water; And A generator (60) connected to a lower end of the generator hanger (50) and provided with a rotor (61) capable of generating power while being axially rotated by water flow; Algae generator configured to include. The method of claim 1, The generator 60 is provided with a lifting means for rising to the surface, The lifting means, the guide 51 is provided on the generator hanger 50, the guide rail 41 is installed on the upper structure 40 corresponding thereto, and the lifting wire (upper end of the generator hanger 50) ( 71) The tidal current generator, characterized in that the winch (70) is provided to lift and lift the generator hanger (50) by pulling and lifting the lifting wire (71). The method of claim 1, One side of the upper structure 40, the facility for berthing vessels 80 and the tidal current generator characterized in that it is further provided with a ladder (90) extending from the upper surface of the upper structure (40) to the water surface. The method according to any one of claims 1 to 3, The buoyancy body 30 is a pair arranged in parallel spaced apart a predetermined distance, the plurality of support wires 20 and the support block 10 is provided to correspond to the front and rear ends of these buoyancy body 30, respectively Algae generator characterized in that.

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