KR101505725B1 - Marine floating structures of self buoyancy control device - Google Patents

Abstract

The present invention relates to an apparatus for controlling the buoyancy of an ocean floating structure by buoyancy so as to prevent the ocean floating structure from being damaged by a wave, A main body in which an enclosed space for storing seawater is formed and an inlet for introducing seawater into the enclosed space and an outlet for discharging seawater introduced into the enclosed space are provided; A sensor connected to the main body and positioned around the main body to measure the wave height of the wave; And a control unit for controlling the opening and closing of the inlet and the outlet and the winding of the mooring line by sensing a signal of the sensor and being provided in the main body, the mooring line having elasticity for fixing the main body, A pumping means for pumping upward the seawater stored in the closed space and discharging the seawater to the outside of the main body through the discharge port is provided at the discharge port, And a winding means for winding up the mooring line by means of the control unit is provided on the lower and both sides of the mooring structure.
Accordingly, it is possible to prevent the main body and the floating structure from being damaged by wave rising due to lifting and lowering the main body supporting the marine floating structure from the bottom to the top and inside of the sea surface by using the sensor, the control unit and the winding means, It is possible to extend the lifespan of the floating structure of the ocean and to reduce the maintenance cost of the floating structure due to the prevention of damage to the floating structure of the main body and the ocean.

Description

Marine floating structures of self floating buoyancy control devices

The present invention relates to an apparatus for controlling the buoyancy of a marine floating structure, and more particularly, to an apparatus for controlling the buoyancy of a marine floating structure by sensing buoyancy of seawater so that the buoyancy of the marine floating structure is raised and lowered.

Korean Patent No. 0338474, there are various kinds of structures installed in the ocean and the river, and the marine platform is used as a representative structure for collecting and processing marine resources.

The offshore structures that are commonly used around us include oil pipelines that transport raw oil or oil, water pipes that transport water, and gas pipelines that transport gas, and many of them are installed in the ocean or river. In addition, various harbor facilities and buildings using marine space are in contact with water, and some or all of them are in the water in most cases.

Various special equipment are used to install these marine / underwater structures. And, the larger the structure, the larger the equipment is required. The enlargement of the equipment has a bad influence on the economical efficiency and the workability. Conversely, marine equipment must be mobilized to withdraw aging offshore structures. Since these marine equipment are mainly expensive and large equipment, they are not easily available at any time, so if you reduce the weight of the structure, you can work economically while relaxing restrictions on the equipment.

On the other hand, interest in marine floating structures for use in wind power generation has greatly increased in recent years due to various reasons such as site costs, limitation of installation size, and difficulties of nearby residents.

The floating structure of a marine floating structure for wind power generation is advantageous in that stable and steady power generation is possible because the land terrain can perform wind power generation in the ocean which is not influenced by the wind.

In other words, wind power generation in the ocean far from the land is more advantageous, since the land that is not influenced by the land terrain is better suited for wind power in the ocean.

However, due to the structural characteristics of wind turbines such as a blade or a nacelle, the floating structure of a marine floating structure for wind power generation must have an extremely limited dynamic movement under harsh conditions such as typhoons and bad weather, This may cause the selection of the mooring system to be limited.

Of course, although the mooring system is stable in harsh marine conditions, this method must always be subjected to strong tension on the timber (or mooring line), regardless of the marine environment or condition, There is a problem in that it is not well suited to the use of wind power for mooring at a position for a long period of time compared with the structure, and there is a problem that the floating structure of the ocean is damaged by wave breaking.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a floating structure for a marine structure, which can prevent a marine floating structure from being damaged by waves due to buoyancy, The present invention is directed to a self-buoyancy adjusting device for a self-

In order to accomplish the above object, the present invention provides an automatic buoyancy control apparatus for buoying the marine floating structure to prevent the marine floating structure from being damaged by a wave, the apparatus comprising: A body formed of a rigid body and formed with a sealed space for storing seawater therein, and having an inlet for introducing seawater into the sealed space and an outlet for discharging seawater introduced into the sealed space; A sensor connected to the main body and positioned around the main body to measure the wave height of the wave; And a control unit for controlling the opening and closing of the inlet and the outlet and the winding of the mooring line by sensing a signal of the sensor and being provided in the main body, the mooring line having elasticity for fixing the main body, A pumping means for pumping upward the seawater stored in the closed space and discharging the seawater to the outside of the main body through the discharge port is provided at the discharge port, And a winding means for winding up the mooring line by means of the control unit is provided on the lower and both sides of the mooring structure.

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The sensor can be suspended on the sea surface by a floating means.

A main mooring line having an elastic force and having one end fixed to the bottom surface of the water and the other end connected to a lower portion of the main body to fix the position of the main body; And an auxiliary mooring line connected to both side surfaces of the main body to supplementally fix the position of the main body.

The apparatus for controlling the buoyancy of a floating structure of a marine structure according to the present invention provides the following effects.

First, the main body supporting the marine floating structure from the bottom can be raised and lowered to the top and inside of the sea surface by using the sensor, the control unit and the winding means, thereby preventing the main body and the marine floating structure from being damaged by the waves.

Second, by preventing damage to the main body and the floating structure of the ocean, it is possible to extend the lifespan of the floating structure of the ocean and to reduce the maintenance cost of the floating structure of the ocean.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an apparatus for controlling the buoyancy of a marine floating structure according to an embodiment of the present invention;
FIG. 2 is a view showing a state where seawater is introduced into the main body of the self-buoyancy adjusting device of the marine floating structure shown in FIG.
3 is a view showing a state where the main body is lowered below the sea level due to seawater introduced into the inside of the main body.
4 is a view showing a state in which seawater is discharged from the main body to raise the main body.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms and words used in the specification and claims should not be construed to be limited to ordinary or dictionary meanings, and the inventor should appropriately define the concept of the term to describe its invention in the best way possible It should be construed in the meaning and concept consistent with the technical idea of the present invention.

FIG. 1 is a view showing an apparatus for controlling the buoyancy of a marine floating structure according to an embodiment of the present invention. FIG. FIG. 3 is a view showing a state in which the main body is lowered below the sea level due to seawater introduced into the main body, and FIG. 4 is a view showing a state of discharging seawater from the main body in order to raise the main body.

Referring to the drawings, an apparatus 100 for controlling the buoyancy of a floating structure of a marine floating structure according to an embodiment of the present invention includes a buoyant structure 10 for preventing a marine floating structure 10 from being damaged by waves, And includes a main body 110, a sensor 120, a mooring line 130, and a control unit 140,

The main body 110 supports the marine floating structure 10 from below. The main body 110 is made of a rigid body and a closed space 112 is formed therein. Seawater flows into the closed space 112, and the main body 110 is lifted up and down by the buoyancy by the seawater flowing into or discharged from the closed space 112.

The main body 110 is provided with an inlet 114 for introducing seawater into the closed space 112 and an outlet 116 for discharging seawater introduced into the closed space 112 to the outside.

It is preferable that the inlet port 114 and the outlet port 116 are spaced apart from the upper surface of the main body 110. The outlet port 116 may be formed by connecting the main body 110 with seawater stored in the closed space 112, The pumping means 117 may be connected to the discharge port 116 to discharge the seawater to the upper portion thereof for discharging it to the outside.

A sensor 120 is connected to the main body 110 and the sensor 120 is positioned around the main body 110 to measure wave heights. It is preferable that the sensor 120 is attached to the floating means 122 and floats on the upper surface of the sea surface to measure the wave crest and the floating means 122 has a light material so as to float on the sea surface.

The opening and closing of the inlet 114 provided in the main body 110 and the driving of the pumping means 117 for discharging the seawater stored in the closed space 112 through the discharge port 116 are performed by a control unit 140).

The main body 110 is fixed by a mooring line 130 having elasticity. The mooring line 130 comprises a main mooring line 132 and an auxiliary mooring line 134.

The main mooring line 132 has one end fixed to the floor F and the other end connected to the lower portion of the main body 110 to fix the position of the main body 110, One end is fixed to the bottom surface F of the water and the other end is connected to both side surfaces of the main body 110 to auxiliaryly fix the position of the main body 110. [

The main mooring line 132 and the auxiliary mooring line 134 are connected to the other end of the main mooring line 132 and the auxiliary mooring line 134 because one end of the main mooring line 132 and the auxiliary mooring line 134 are fixed to the floor F, The main body 110 is fixed to the seawater while being prevented from being moved by the flow of the seawater.

The main body 110 is preferably provided with a winding means 118 for winding the main mooring line 132 and the auxiliary mooring line 134. The main mooring line 132 and the auxiliary mooring line 134 should be wound and unwound due to the rising and falling of the main body 110 by seawater introduced into and discharged from the closed space 112, Since the winding unit 118 is provided in the main body 110, the winding operation can be easily performed.

The operation of the winding means 118 is preferably controlled by the control unit 140. The control unit 140 receives and analyzes wave heights measured by the sensor 120 and opens the inlet 114 provided in the main body 110 when the wave height of the wave is high, So that the main body 110 is lowered below the seawater.

The controller 140 closes the inlet 114 and then drives the pumping means 117 to discharge the seawater stored in the closed space 112 to the outlet 116, ) To the sea level.

Therefore, the main body 110 supporting the marine floating structure 10 from the bottom is raised and lowered to the upper and the inside of the sea surface by using the sensor 120, the control unit 140 and the winding means 118, It is possible to prevent the main body 110 and the marine floating structure 10 from being damaged and to prolong the life of the marine floating structure 10 by preventing the main body 110 and the marine floating structure 10 from being damaged And the maintenance cost of the marine floating structure 10 can be reduced.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Self-buoyancy control of floating structure of ocean
110: main body 112: sealed space
114: inlet 116: outlet
117: Pumping means 118: Winding means
120: sensor 122: floating means
130: Mooring line 132: Main mooring line
134: auxiliary mooring line 140:

Claims (6)

A self buoyancy regulating device for lifting and lowering the floating structure of a marine vessel by buoyancy to prevent the marine floating structure from being damaged by waves,
An enclosed space formed by a rigid body for storing seawater therein and an inlet for introducing seawater into the enclosed space and an outlet for discharging seawater introduced into the enclosed space are provided main body;
A sensor connected to the main body and positioned around the main body to measure the wave height of the wave; And
And a mooring line having elasticity for fixing the main body,
And a control unit provided in the main body and sensing a signal of the sensor to control opening and closing of the inlet and outlet and winding of the mooring line,
Wherein the inlet port and the discharge port are spaced apart from the upper surface of the main body, and the discharge port is provided with a pumping means for drawing the seawater stored in the closed space upward and discharging the seawater to the outside through the discharge port,
Wherein the lower portion and both side surfaces of the main body are provided with a winding means for winding up the mooring line by the control unit.
delete delete The method according to claim 1,
Wherein the sensor is suspended on the sea surface by a floating means.
The method according to claim 1,
The mooring line has an elastic force,
A main mooring line having one end fixed to the bottom surface of the water and the other end connected to a lower portion of the main body to fix the position of the main body,
And an auxiliary mooring line, one end of which is fixed to the bottom surface of the water and the other end is connected to both side surfaces of the main body to fix the position of the main body auxiliaryly.
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