KR20120014435A - The tidal current generator maintenance system - Google Patents

Abstract

PURPOSE: A tidal current generation maintaining device is provided to prevent the influence of a lift wire from tide flow. CONSTITUTION: A tidal current generation maintaining device comprises a generator assembly(100), a supporting pile(200), a horizontal frame(300), a pair of guide units, a pair of lift wires(500) and a driving part(600). The generator assembly comprises a rotor and a generator. The lower end of the supporting pile is perpendicularly located on an underwater bottom to be fixed to. The supporting pile has a pair of pipe shapes in which a guiding hole is formed. The horizontal frame interconnects the upper end of the supporting pile. One end of a pair of lift wires is connected to each guide part. The driving part is installed in the horizontal frame in order to locate outside underwater. The other end of each lift wire is connected to the driving part. The generator assembly locates with the operation of the driving part to the underwater inside or the underwater outside.

Description

Tidal current generator maintenance system

The present invention relates to an algae power generation apparatus, and more particularly, to an algae power generation apparatus for generating electricity using algae.

In general, electricity has become an indispensable energy source for driving various electric and electronic products. Such electricity generation methods include fossil fuel-based thermal power generation, hydropower generation using potential energy of water, wind power generation using wind kinetic energy, solar power generation using solar energy, nuclear power generation using nuclear fission, High velocity of tidal current as energy source by wave power generation using wave as energy source, ocean temperature difference generation using temperature difference according to the depth of ocean current, tidal power generation using difference between tides and tidal wave difference and topographic effects Algae development.

Among them, thermal power generation and hydropower generation require enormous construction costs, and thermal power generation causes pollution problems due to fossil energy. Secondary environmental issues that change even the climate are being raised.

In addition, wind power and solar power generation are governed by the effects of weather conditions, so the power generation system cannot be operated in the absence of wind and when solar radiation is cut off.

On the other hand, nuclear power has enormous costs for facility investment to prevent radiation leakage and enormous costs for waste disposal. There is a serious problem of environmental damage in the event of a single accident. There is always a danger incurred.

In addition, wave power generation and ocean temperature differential power generation is a problem that is difficult to apply universally because the area suitable for the location conditions is quite limited.

In addition, tidal power utilizes the difference between tides due to tidal phenomena. Tidal phenomena are predominantly caused by the attraction of the moon and the sun, and the difference in centrifugal force generated when the earth revolves. Tidal power generation is a method of generating water by using water level difference by blocking seawater and bays in areas where tidal differences occur. In addition, the tidal power generation can predict the change of tidal power when the place of power generation is determined, there is an advantageous aspect of clean energy. However, there is a constraint that the system must be installed in a place where tidal flats are devastated, a huge area is required to have a huge impact on the marine environment, and at least about 5 meters of tidal wave occurs in order to convert into actual usable energy.

On the other hand, there is no problem of power generation devices as described above, there is an eco-friendly tidal power generation that generates clean energy by using high tidal currents on the west and south coasts of Korea, and the tidal power generation is predictable and always energy regardless of weather, day and night There is an advantage to making it.

However, such a tidal current generator is a regular, of course, if a problem occurs, the power generation unit under the sea level to perform maintenance / repair and repair, and then to place the generator in a position below a certain surface again. However, in the conventional algae power generating apparatus, the shank moving apparatus for elevating the power generating unit has a possibility of causing a problem in operation due to the attachment of aquatic animals and plants due to the arrangement of a gear device and a motor for operating the same. There is a problem that maintenance is very difficult. In addition, there are several devices in the water due to the difficulty and complexity of the work, and there is a problem that the support structure also increases due to the increase in the weight of the water.

An object of the present invention is to provide a tidal current power generation and maintenance device that is easy to maintain and repair, the structure is simple and easy to manufacture and install.

The present invention, a rotor assembly rotated by the flow of tidal current, the generator assembly is provided with a generator connected to the rotor to generate electricity by the rotation of the rotor, and the bottom of each of the lower end in the state of mutual separation Vertically fixedly coupled, the support file having a pair of tubular shape formed with a guide hole facing each other in the vertical direction, a horizontal frame for interconnecting the upper end of the support file, and installed in the generator assembly, the generator A pair of guide portions connecting the support pile to slide the assembly along the guide hole, a pair of lifting wires connected at one end thereof to each of the guide portions, and on the horizontal frame so as to be located outside the water. Is installed, the other end of each lifting wire is connected, the power generation while winding or unwinding the lifting wire Provided is a tidal current generation device including a drive unit for raising or lowering the guide unit so that the gear assembly is located inside or outside the water.

In addition, the guide portion, one end in the longitudinal direction is coupled to the generator assembly so as to be perpendicular to the support pile, the other end is a horizontal support bar that is slidably inserted into the guide hole, respectively, and slidably disposed inside the support pile A vertical weight coupled to the other end of the horizontal support bar, such that the lifting wire is maintained in a tension state so that the generator assembly is moved up or down to the correct position when the lifting wire is wound or unwound by the driving unit. It may include.

In addition, the driving unit is rotatably installed on the horizontal frame so as to be located outside the water, the other end of each lifting wire is connected, the bidirectional drum for winding or unwinding the lifting wire according to the rotation direction, A plurality of guide rollers installed on the horizontal frame so as to be located outside of the water and guiding the lifting wires to be stably unrolled or rolled in a state disposed between the bidirectional drum and the vertical weight; It is installed on the horizontal frame to be located outside, and may be connected to the bidirectional drum, it may include a drive motor for generating a driving force to rotate the bidirectional drum.

In addition, the control unit is installed on the horizontal frame so as to be located outside the water, and connected to the drive motor, the control unit for controlling the operation of the drive motor, the bidirectional drum, the drive motor, the protection to enclose the control unit to be sealed A cover may be further provided.

The tidal current power generation device according to the present invention is provided on a horizontal frame coupled to the upper end of the support pile so that the drive unit for moving the generator assembly underwater or out of the water is located underwater, the lifting wire is provided inside the support pile. Place the generator assembly in contact with the drive unit. Therefore, it is easy to maintain and maintain the marine fauna and flora on the driving unit because it is not attached to the parasitic plant, and the lifting wire is not affected by the algae flow, and thus the stable lifting operation is possible.

1 is a front view of a tidal current power generation device according to an embodiment of the present invention.
2 is a cross-sectional view taken along a line II-II in Fig.
3 is a plan view of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a front view of a tidal current power generation apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line II-II of Figure 1, Figure 3 is a plan view of FIG. 1 to 3, the tidal current power generation device includes a generator assembly 100, a support pile 200, a guide unit 400, a lifting wire 500, and a driving unit 600.

The generator assembly 100 is a part for generating electricity by the flow of algae generated inside the water. That is, the generator assembly 100 generates electricity through the rotational force generated by the flow of the tidal current. The generator assembly 100 is a rotor 110 which rotates by the flow of the tidal current, and a generator that is axially coupled with the rotor 110 to generate electricity with a driving force generated by the rotation of the rotor 110. 120. In addition, the generator assembly 100 may include an underwater nut (not shown) having various measuring devices.

The support pile 200 supports the generator assembly 100 in a state located inside the water, or moves so that the generator assembly 100 may be located outside the water by the driving unit 600 to be described later. It is a pillar to guide. The support pile 200 is fixedly coupled to the bottom of each of the lower end in a state in which at least one pair is spaced apart from each other so as to stably support the generator assembly 100.

Here, the support pile 200 has a tubular shape having a space provided therein. Here, in the drawings according to an embodiment, the horizontal cross section is shown as being formed as a circular tube having a circular shape, but may be formed to have a horizontal cross section of a rectangular shape or may be a triangular and other polygonal tubular shape. .

In addition, each of the support piles 200 is provided with a guide hole 210 in a vertical direction so as to guide sliding movement of the generator assembly 100 upward or downward. Here, the guide hole 210 is formed to face each other on the pair of the support pile 200. As the generator assembly 100 is guided along the guide hole 210, the shaking of the generator assembly 100 is suppressed as the generator assembly 100 moves upward or downward.

The horizontal frame 300 is a frame connecting the upper ends of the support piles 200 spaced apart from each other. That is, the horizontal frame 300 is fixedly coupled to the upper end of the support pile 200 in a state perpendicular to the support pile 200. On the horizontal frame 300, the driving unit 600 which is not to be locked in the water afterwards is installed.

The guide unit 400 is installed so that the generator assembly 100 is connected to the support pile 200 so as to slide the generator assembly 100 along the guard hole 210 on the support pile 200. That's the part. That is, one end of the guide unit 400 is coupled to the generator assembly 100, the other end is connected to the support pile 200. Here, the guide unit 400 is installed to correspond to the number of the support piles 200, a pair of coupling to the generator assembly 100 is installed. Such, the guide portion 400 includes a horizontal support bar 410, a vertical weight 420.

The horizontal support bar 410 is a pair of connecting members coupled to the generator assembly 100 so as to be perpendicular to the support pile 200. That is, each of the horizontal support bar 410 is coupled to the side of the generator assembly 100 one end in the longitudinal direction so as to extend in the transverse direction with respect to the flow direction of the tidal current. Then, the other end in the longitudinal direction of the horizontal support bar 410 is slidably inserted into the guide hole 210 formed in each of the support pile 200.

The vertical weight 420 increases the load on the other end of the horizontal support bar 410 to take a constant tension on the lifting wire 500 to be described later. That is, the vertical weight 420 is prevented from loosening when the lifting wire 500 moves so that the rising or falling movement of the generator assembly 100 can be stably made. The vertical weight 420 is slidably inserted into the support pile 200 in the vertical direction while being coupled to the other end of the horizontal support bar 410. Here, reference numeral 421 denotes a paddle for connecting and coupling an end of the lifting wire 500 to be described later.

The lifting wire 500 is a pair of connecting members for moving the generator assembly 100 up or down while moving by the driving force generated by the driving unit 600 to be described later. That is, the lifting wire 500 is lowered or raised while the generator assembly 100 is unwinded or wound in accordance with the rotational direction of the driving force generated by the driving unit 600. One end of the lifting wire 500 is connected to the vertical weight 420 of the guide part 400, and the other end is connected to the driving part 600 to be described later.

Here, the lifting wire 500 is installed in the state connected to the vertical portion 420 of the guide unit 400 in the state connected to the drive unit 600 is moved through the support pile 200 described above. As such, the elevating wire 500 is moved through the support pile 200 and connected to the vertical weight 420, so that the generator assembly is driven by the driving force of the driving unit 600 because it is not affected by the current flow. When the rising or falling of the 100 is suppressed, the generation of vibration is suppressed, and as the vibration is suppressed, it is possible to prevent the damage caused by the fatigue path of the lifting wire 500.

The driving unit 600 is the generator assembly 100 is positioned outside the underwater or underwater, while pulling or vertically moving the vertical weight 420 upward or downward while winding or unwinding the lifting wire 500. The driving force is generated to raise or lower the horizontal support bar 410 of the guide part 400 so as to be raised. Here, the driving unit 600 is installed on the horizontal frame 300 which is located at the upper end of the support pile 200 to be located outside the water. The other end of each of the lifting wires 500 described above is connected to the driving unit 600. The driving unit 600 includes a bidirectional drum 610, a guide roller 620, and a driving motor 630.

The bidirectional drum 610 is a drum member which winds or unwinds the lifting wire 500 while rotating clockwise or counterclockwise. The bidirectional drum 610 is installed in a rotatable state on the horizontal frame 300 positioned at the top of the support pile 200 so that the bidirectional drum 610 can always be located outside the water. Here, the other ends of the lifting wires 500 may be connected to the bidirectional drum 610 such that the other ends of the lifting wires 500 are opposite to each other about the rotation axis. Thus, the lifting by the rotation of the bidirectional drum 610 is connected. When the wire 500 is wound or unwound, the movement is stably performed while having the same movement path, so that shaking of the generator assembly 100 is prevented from being lifted. That is, the bidirectional drum 610 has the same moving distance with respect to each of the lifting wires 500, and minimizes the occurrence of slip in each of the lifting wires 500 to balance the lifting of the generator assembly 100. In addition to maintaining, the position to be moved can be kept in the correct position with little error.

The guide roller 620 smoothly moves the lifting wire 500, and guides the lifting wire 500 to be stably loosened or wound so as not to be damaged or sheared. That is, the guide roller 620 is installed to be disposed between the bidirectional drum 610 and the vertical weight 420 of the guide portion 400, the lifting wire flowing into the support pile 200 The guide portion 500 is always located in the vertical center of the support pile 200 so as not to contact the support pile 200. Here, the guide roller 620 is installed in plurality in a rotatable state on the horizontal frame 300 located on the upper end of the support pile 200 so that the guide roller 620 can always be located outside the water. Reference numeral 621 is a support for fixing the guide roller 620 in a rotatable state on the support pile 200.

The driving motor 630 is connected to the bidirectional drum 610 to generate a driving force to rotate the bidirectional drum 610 clockwise or counterclockwise. The driving motor 630 is installed on the horizontal frame 300 located at the top of the support pile 200 so that the drive motor 630 can always be located outside the water.

In addition, the driving unit 600 may include a control unit 640 for controlling the operation of the driving motor 630. Such a control unit 640 may be always located outside the water. It is installed on the horizontal frame 300 located at the upper end of the pile 200.

Here, the bidirectional drum 610, the drive motor 630, the control unit 640 may be provided with a protective cover 700 to seal and wrap to protect from sea water or sea wind.

As such, the driving unit 600 is installed on the horizontal frame 300 located at the upper end of the support pile 200 so that the drive unit 600 can always be located outside the water, thereby preventing marine animals and plants from being attached. There is no need for malfunction and cleaning.

The operation of the tidal current power generation device according to an embodiment configured as described above will be described with reference to FIGS. 1 to 3.

First, when power generation is generated in the generator assembly 100, the bidirectional drum 610 is rotated by the driving motor 630, and the winding wire 500 is unwound to unwind the generator assembly 100. ) Is placed inside the water. That is, when the lifting wire 500 is released, the vertical weight 420 and the horizontal support bar 410 of the guide part 400 are lowered along the guide hole 210 of the support pile 200. Then, correspondingly, the generator assembly 100 is lowered and positioned inside the water, and the rotor 110 of the generator assembly 100 is rotated by the tidal current in the water to generate power.

Then, when it is necessary to move out of the water for the maintenance / repair of the generator assembly 100, the bidirectional drum 610 is rotated in the opposite direction by the drive motor 640 as described above. Then, the lifting wires 500 that have been loosened are wound around the bidirectional drum 610 and pull the vertical weight 420 of the guide part 400 upward. Then, the horizontal support bar 410 of the guide portion 400 is slid upwards along the guide hole 210 of the support pile 200, while the generator assembly 100 also moves upwards correspondingly. It can be located out of the water.

As such, the tidal current power generation device of the embodiment is coupled to the upper end of the support pile 200 such that the drive unit 600 for moving the generator assembly 100 into or out of the water is located outside the water. Installed on the horizontal frame 300 is provided. The elevating wire 500 is connected to the drive unit 600 in a state in which the support pile 200 is positioned. Therefore, the marine animals and plants on the drive unit 600 is not attached to the parasitic and easy maintenance, easy to install due to the simple structure, and the lifting wire 600 is not affected by the algae flow, stable lifting Operation is possible.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: generator assembly 110: rotor
120: generator 200: support pile
210: guide hole 300: horizontal frame
400: guide portion 410: horizontal support bar
420: vertical weight 500: lifting wire
600: drive unit 610: bidirectional drum
620: guide roller 630: drive motor

Claims (4)

A generator assembly having a rotor rotating by the flow of tidal current and a generator connected to the rotor to generate electricity by the rotation of the rotor;
A support pile having a pair of tubular shapes, each lower end of which is vertically coupled to the bottom of the water in a state spaced apart from each other, and having guide holes formed to face each other in the vertical direction;
A horizontal frame interconnecting the upper ends of the support piles;
A pair of guide parts coupled to the generator assembly and connected to the support pile so that the generator assembly slides along the guide hole;
A pair of lifting wires having one end connected to each of the guide parts; And,
It is installed on the horizontal frame so as to be located outside the water, and the other end of each of the lifting wire is connected, while raising or lowering the guide unit so that the generator assembly is located inside or outside the water while winding or unwinding the lifting wire. Algae power generation maintaining device comprising a drive unit to. The method according to claim 1,
The guide unit,
One end in the longitudinal direction to be perpendicular to the support pile is coupled to the generator assembly, the other end is a horizontal support bar is slidably inserted into the guide hole, respectively;
The generator assembly is coupled to the other end of the horizontal support bar so as to be slidably disposed in the support pile so that the lifting wire is maintained in a tension state when the lifting wire is wound or unwound by the driving unit. A tidal power generation maintenance device comprising a vertical weight to move up or down the furnace. The method according to claim 1,
The driving unit,
A bidirectional drum rotatably installed on the horizontal frame so as to be located outside of the water, and connected to the other end of each lifting wire, and winding or unwinding the lifting wire according to a rotation direction;
A plurality of guide rollers installed on the horizontal frame so as to be located outside of the water and guiding the lifting wires to be stably unrolled or rolled in a state disposed between the bidirectional drum and the vertical weight;
The tidal power generation maintenance device is installed on the horizontal frame to be located outside the water, and connected to the bidirectional drum, a driving motor for generating a driving force to rotate the bidirectional drum. The method according to claim 3,
A control unit installed on the horizontal frame to be located outside of the water, connected to the driving motor, and controlling the operation of the driving motor;
A tidal current generation device further comprising a protective cover surrounding the bidirectional drum, the driving motor, and the control unit.

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