KR101311559B1 - The Structural Supporting System for the Floating Power-generating Devices from Marine Energy - Google Patents

Abstract

The present invention relates to a support structure of a floating marine power generation apparatus, by adjusting the buoyancy of the floating marine power generation apparatus to facilitate the connection and separation of the grid-like support frame installed on the seabed through the mooring line It is easy to maintain the power generation device and to construct a large-scale plant, and to wire the power transmission and control cable through the inside of the support frame so that it can be safely wired to the land, and the worker can be moved through the support frame. And it is possible to easily maintain the inside of the support frame, it is possible to install the floating offshore power plant under the sea level to provide a supporting structure of the floating offshore power generator does not affect the operation of the ship.

The present invention for achieving the above object is configured to connect the pipe having a predetermined diameter in the form of a grid to enable the movement of the worker and installed on the seabed to support the floating offshore power generation apparatus; A support column installed in the seabed to support and fix the support frame; A mooring line, one end of which is connected to the support frame and the other end of which is connected to the floating offshore power generation device to allow the floating offshore power generation device to be moored; The buoy which is connected to the marine power generator to be exposed to the sea surface to determine the position of the mooring line; and made to include the technical gist.

Floating Offshore Power Plants, Mooring Lines, Support Frames, Maintenance, Large Plants, Pipes, Cables

Description

The Structural Supporting System for the Floating Power-generating Devices from Marine Energy}

The present invention is easy to attach and detach the floating offshore power generation apparatus connected to the support frame installed on the seabed by mooring lines, and to configure a large-scale plant by configuring a grid-type support frame to mount a plurality of offshore power generation apparatus Support of floating marine power generation equipment is possible, and cables can be safely wired to the land by wiring through the inside of the support frame, and floating marine power generation equipment can be placed in the water, thus not affecting the operation of the ship. It is about a structure.

In relation to the development of renewable energy in the ocean, various power generation systems using natural energy such as wind power, wave power, tidal power, and tidal power are being developed. The energy converters of these power generation systems are located above or below sea level in search of optimum efficiency, and are fixed by various methods such as fixed / floating type.

For example, in the case of tidal power generation, which is being actively researched recently, an energy conversion device is installed in water, and as a result, there is a need for an efficient location maintenance method and a maintenance method of the device.

Currently, in the case of tidal power generation, energy conversion devices are being installed in fixed structures, floating bodies, floating in water and connected to the seabed.

When the energy conversion device is mounted on the stationary structure, the stationary structure is usually installed in water as a steel frame structure in the form of a concrete block or a tower. In a region of high tidal force, the stationary structure is installed at an accurate position, or the energy conversion is underwater. There is a problem that is difficult to mount the device.

In addition, in order to install a plurality of energy conversion apparatus has a problem that must be installed a plurality of fixed structures or large structures.

In addition, there is a problem that a regular maintenance work of the energy conversion device or a series of operations for separating, moving, and remounting it in case of a position change or unexpected breakage for optimum efficiency are very difficult.

In addition, the remote control of the energy conversion device or the connection, wiring work of various cables for transmitting the converted energy is difficult.

Sometimes, the fixed structure and the energy conversion device may be manufactured in one piece, but in this case, there is a problem that it is not easy to access the underwater energy conversion device for maintenance with excessive weight and manufacturing cost.

Therefore, it is necessary to provide a support structure that can solve the above problems by providing an offshore support frame capable of making the offshore power generation device such as the energy conversion device floating and fixing it using a mooring line.

An object of the present invention for solving the above problems, by adjusting the buoyancy of the floating offshore power plant to facilitate the connection and separation of the grid-like support frame is installed on the seabed through mooring lines for offshore power generation Easy maintenance of the device and configuration of large-scale plants, installation of control / power transmission cables and movement of workers through the support frame to facilitate maintenance of the support frame and cables, It is to provide a supporting structure of the floating offshore power generation apparatus that can be installed below the sea level because the offshore type power generation apparatus can be installed.

The present invention to achieve the object as described above and to solve the conventional drawbacks, in the support structure for supporting a floating offshore power plant in the ocean, a pipe having a predetermined diameter to enable the movement of the operator A support frame configured to connect to form a grid and installed on the sea floor to support the floating offshore power generation apparatus; A support column installed in the seabed to support and fix the support frame; A mooring line, one end of which is connected to the support frame and the other end of which is connected to the floating offshore power generation device to allow the floating offshore power generation device to be moored; And buoys connected to the connection portion between the mooring line and the offshore power generating apparatus or any other part of the offshore power generating apparatus to be exposed to the sea surface to identify the position of the mooring line.

In addition, it is characterized in that the buoyancy tank is installed in the floating offshore power generation apparatus to further adjust the buoyancy through the filling or drainage of sea water to facilitate installation and dismantling on the support frame through mooring cutting.

In addition, the cable for power transmission and control of the floating offshore power plant is characterized in that connected to the land through the pipe of the support frame.

As described above, according to the present invention, it is easy to install, remove, maintain, and repair a floating marine power generation apparatus, and a large-scale plant can be formed in a fast process, and when a certain depth of water is secured, The generator can be installed under the sea level so that it does not affect the operation of the ship, it is a very useful invention that can safely connect the cable for power transmission or control to the land.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is an exemplary view showing a support structure of the floating marine power generation apparatus according to the present invention, Figure 2 is an exemplary view showing the installation process of the floating marine power generation apparatus according to the present invention and the connection of mooring lines and cables, Figure 3 Is an exemplary view showing a state of connecting the mooring line and the cable to the support frame during the installation of the floating marine power generation apparatus according to the present invention, Figure 4 is an exemplary view showing the installation completion state of the floating marine power generation apparatus according to the present invention, 5 is an exemplary view showing a detailed connection structure of the mooring line and the cable to the support frame according to the present invention,

As shown in the drawing, the present invention is configured to safely support the floating marine power generation apparatus in the ocean, and is configured by connecting a plurality of pipes 210 and installed on the sea floor to support the floating marine power generation apparatus 100. Support frame 200, a plurality of support pillars 300 and the support frame 200 is placed on the sea floor so that the support frame 200 is fixed to the seabed, and once in the support frame 200 Is connected and the other end is connected to the floating offshore power generating apparatus 100, the mooring line 400 to allow the floating offshore power generating apparatus 100, the mooring line 400 and the offshore power generating apparatus 100 It is configured to include a buoy 600 to be connected to the connection portion 120 or a portion of the other offshore power generation apparatus to be exposed to the sea surface to determine the position of the mooring line 400.

The support frame 200 is configured by connecting the pipe 210 having a predetermined diameter in the form of a grid so that the worker can move, the worker can move while maintaining the structural stability.

In addition, the present invention can be connected to the land by wiring the cable 500 for the power and control of the floating offshore power generation apparatus 100 through the pipe 210 of the support frame 200.

At this time, the cable tray 220 is installed inside the pipe 210 so that the cable 500 can be secured and wired.

As such, by wiring the cable 500 through the pipe 210 of the support frame 200, the cable 500 can be safely connected to the land.

On the other hand, the connection portion 130 between the cable 500 and the support frame 200 uses a conventional underwater connection device.

On the other hand, the inside of the pipe 210 is provided with a moving device consisting of a rail and a bogie to enable maintenance of cables and pipes inside.

On the other hand, the support column 300 is to adjust the installation height according to the shape of the bottom surface so that the installation surface of the support frame 200 can be formed in a horizontal plane or an inclined plane, or can be manufactured in a stepwise manner.

On the other hand, the mooring line 400 may be connected in a ring shape so as to be easily attached to and detached from the lower portion of the floating offshore power generator 100 and the grid-shaped intersection of the support frame 200.

In addition, the lower portion of the floating offshore power generation apparatus 100 may be connected in the form of a winch (not shown) to the intersection of the support frame 200 made of a grid shape and the lower portion of the mooring line 400.

The buoy 600 is to install and disassemble the floating marine power generation device 100 through the working vessel 700 through the installation of the floating marine power generation device 100 by confirming the position of the floating marine power generation device 100 and Easy identification of dismantling location enables quick installation, dismantling and maintenance.

On the other hand, the floating offshore power generation device 100 is installed in the buoyancy tank 110 to position the wing 101 to the outside to obtain the energy required for power generation, and to float using buoyancy in the inner space as shown in the figure do.

As described above, the floating marine power generator 100 may adjust the installation height in the ocean by adjusting the buoyancy using the buoyancy tank 110, and thus, when the depth of a certain depth is secured, the floating marine power generator 100 is used. It can be located below the sea level, by loosely adjusting the tensile force of the mooring line 400 and the cable 500 through buoyancy control is to be easily separated from the mooring line 400 and the cable 500.

The installation and dismantling process of the floating marine power generation apparatus of the present invention configured as described above will be described with reference to FIGS. 2, 3, 4, and 5.

First, the floating marine power generator 100 is transported to the installation position by using the working ship 700.

At this time, it is possible to clearly check the installation position of the floating offshore power plant 100 through the buoy 600 connected to the existing offshore power plant.

When the floating marine power generator 100 is transported to the installation position as described above, the mooring line 400 and the cable 500 for power and control are connected to the floating marine power generator 100 on the work line 700, The crane 710 lowers the floating marine power generation apparatus 100 to the sea, and fills the water in the buoyancy tank 110 and lowers it to a predetermined depth or less.

As such, when the mooring line 400 and the cable 500 are connected to the floating offshore power generation apparatus 100 and positioned under a predetermined depth, the unmanned underwater work apparatus 720 (ROV: Remotely Operated Vehicle) or Diver (Diver) By inserting the mooring line 400 and the other end of the cable 500 is connected to the support frame 200.

Then, when the seawater filled in the buoyancy tank 110 is drained, the floating offshore power generation device 100 rises, and when the mooring line 400 receives a constant tensile force, the floating offshore power generation device is removed by removing the crane 710. The installation of 100 is completed.

In addition, when a certain depth of water is secured when the floating marine power generator 100 is installed, the buoyant tank 110 is used to adjust the buoyancy so that the floating marine power generator 100 is located below the sea level to operate the ship. Do not affect.

Meanwhile, when dismantling to maintain the floating marine power generator 100 or to move the installation position, first, the crane 710 of the working ship 700 and the floating marine power generator 100 are connected.

Since the mooring line 400 and the cable 500 can be easily removed to fill the seawater in the buoyancy tank 110 so that the floating offshore power plant 100 is lowered below a certain depth.

This is because the mooring line 400 is loosened when the floating offshore power plant 100 descends to a predetermined depth or less so that the mooring line 400 and the cable 500 can be easily removed.

Thereafter, the unmanned underwater work apparatus 720 or the diver is inserted to remove the mooring line 400 and the cable 500 from the support frame 200.

After that, the seawater filled in the buoyancy tank 210 is discharged to float on the water surface by its own buoyancy of the floating marine power generation apparatus 100, and if necessary, the crane 710 may work together.

When the floating offshore power generation device 100 rises to the sea level, it can be repaired by transporting it to a place where it can be loaded and repaired on the working ship 700.

On the other hand, the buoyancy control method of the buoyancy tank 210 of the floating offshore power generation apparatus 100 is installed in the pump work line 700 and the hose and cable to the buoyancy tank 110 of the floating offshore power generation apparatus (100). Buoyancy can be adjusted by connecting.

Alternatively, the pump is installed inside the floating marine power generator 100 and is configured to operate the pump remotely on land using a cable 500 connected to the support frame.

At this time, when the floating marine power generation device 100 is installed for the first time can be lowered by filling the water using the working vessel 700 on the water surface.

In addition, since the cable 500 connected to the support frame 200 is removed for the final ascension, it may be raised using the crane 710.

In this case, since the mooring line 400 and the cable 500 are loosened, the water is removed after filling only enough water to be removed from the support frame 200, so that the weight increase is not large and the crane 710 can be removed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1 is an exemplary view showing a supporting structure of a floating marine power generation apparatus according to the present invention,

Figure 2 is an exemplary view showing a process of connecting the mooring line and the installation of the floating marine power generation apparatus according to the present invention,

Figure 3 is an exemplary view showing a state of connecting the mooring line and the cable to the support frame when installing the floating marine power generation apparatus according to the present invention,

Figure 4 is an exemplary view showing the installation completion state of the floating marine power generation apparatus according to the present invention,

5 is an exemplary view showing a detailed connection structure of the mooring line and the cable to the support frame according to the present invention;

<Description of the symbols for the main parts of the drawings>

(100): floating offshore power plant (101): wing

110: buoyancy tank 120, 130 connection

(200): support frame 210: pipe

220: cable tray 300: support pillar

400: mooring line 500: cable

(600): buoy 700: working ship

(710): crane (720): unmanned underwater work equipment

Claims (3)

A support structure for supporting a floating offshore power plant in the ocean, A support frame configured to connect pipes having a predetermined diameter in the form of a lattice to enable the movement of the workers and to be installed on the sea floor to support the floating marine power generation apparatus; A support column installed in the sea floor to support and fix the support frame; A mooring line, one end of which is connected to the support frame and the other end of which is connected to the floating marine power generation device, such that the floating marine power generation device can be moored; The buoy for connecting the mooring line or the mooring line and a portion of the offshore power plant or a marine power generation unit is exposed to the sea surface to determine the position of the mooring line; Structure. The method of claim 1, Floating marine is characterized in that it is installed in the floating marine power generation device further comprises a buoyancy tank to facilitate the installation and dismantling of the support frame through mooring lines by adjusting the buoyancy through the filling or drainage of sea water Support structure of the power generator. The method of claim 1, And a cable for power and control of the floating offshore power generator is connected to the land through the inside of the pipe of the support frame.

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