KR20170124772A - Marine structure and installation method of the same - Google Patents

Abstract

Disclosed are a marine structure and an installation method for the same. According to the embodiment of the present invention, provided are the marine structure capable of maintaining a stable posture during a work process and the installation method for the same. According to the embodiment of the present invention, the marine structure includes: a main body having a ballast tank; and a fixing unit adsorbing and fixing the main body sinking onto a sea bottom, to the surface of the sea bottom. The fixing unit includes: a suction tank having an opening open toward the surface of the sea bottom; and a sound pressure pump providing a sound pressure about the suction tank. The opening is opened and closed by a door unit.

Description

[0001] Marine structure and installation method thereof [0002]

The present invention relates to an offshore structure and a method for installing the same.

An offshore structure refers to a structure that is installed in marine environments such as offshore or submarine. Recently, interest in marine power plant, which is a kind of offshore structure, is increasing. The offshore power plant is capable of supplying electric power to a book area where power is difficult to supply or an electric power is urgently needed because it is easy to move in an environment such as a sea. The offshore structure used as a marine power plant is equipped with power generation facilities using raw materials such as natural gas, coal, and oil, and can produce and supply electric power.

On the other hand, offshore structures used for offshore power plants need to maintain a stable attitude during the production and supply of electricity. However, there is a problem in that a marine structure used as a conventional marine power plant is difficult to maintain a stable posture due to the influence of marine environment such as waves or currents.

Embodiments of the present invention provide an offshore structure capable of maintaining a stable posture in a work process and a method of installing the same.

According to an aspect of the present invention, there is provided a ballast tank comprising: a body formed with a ballast tank; And a fixture for sucking and fixing the body submerged on the seabed to the seabed.

Wherein the fixing portion includes: a suction tank having an opening portion opened toward the bottom surface; And a negative pressure pump that provides negative pressure to the suction tank.

The opening may be opened or closed by a door portion.

The suction tank may be formed inside the lower portion of the main body.

The suction tank may be disposed adjacent to the ballast tank formed inside the main body.

The suction tank may be formed to communicate with the ballast tank.

The suction tanks may be provided in plural, and the plurality of suction tanks may be distributed in at least one of a width direction and a length direction of the main body.

The suction tank may be formed outside the lower portion of the main body.

The suction tank may be detachably formed on a lower outer side of the main body.

The sound pressure pump is disposed in the main body, and the suction tank can be connected to the sound pressure pump through a connector.

According to another aspect of the present invention, there is provided a method of installing an offshore structure, the method comprising: (a) moving the offshore structure to a working position; (B) sinking the body into the seabed; And (c) securing the main body, which is fixed by the fixing portion, to the seabed so that the main body sinks to the seabed and fixes the seabed surface.

Wherein the fixing portion includes a suction tank having an opening portion that is opened and closed by a door portion, and a negative pressure pump that provides a negative pressure to the suction tank, wherein in the step (a), the door portion closes the opening portion, , And in the step (c), the door portion opens the opening portion, and the sound pressure pump can start operation.

According to the embodiment of the present invention, since the sound pressure formed in the suction tank absorbs the main body, which is submerged in the seabed, against the seabed surface, the main body is arranged on the sea floor so as to maintain a stable posture even under the influence of waves, There is an effect of being firmly fixed and installed.

1 is a view illustrating an offshore structure according to an embodiment of the present invention.
FIG. 2 is an enlarged view of FIG. 1 A. FIG.
3 is a schematic view showing a cross section taken along line BB in Fig.
4 is a modification of the suction tank of Fig.
5 is a flowchart illustrating a method of installing an offshore structure according to an embodiment of the present invention.
6 to 9 are views for explaining a method of installing an offshore structure according to an embodiment of the present invention.
10 is a view illustrating an offshore structure according to another embodiment of the present invention.
FIG. 11 is an enlarged view of FIG. 10C.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Referring to the accompanying drawings, the same or corresponding components are denoted by the same reference numerals, do. In the following description, terms such as first and second terms are used to describe various components, and the meaning is not limited to itself, and is used only for the purpose of distinguishing one component from another component do.

FIG. 1 is a view showing an offshore structure according to an embodiment of the present invention, FIG. 2 is an enlarged view of FIG. 1, and FIG. 3 is a schematic view of a section taken along the line BB of FIG. 2, the sound pressure pump 1220 is omitted.

1 to 3, an offshore structure 1000 according to an embodiment of the present invention includes a main body 1100 and a fixing portion 1200.

In this embodiment, the case where the offshore structure 1000 is a marine power generation plant will be described as an example. However, this is merely an example, and it goes without saying that the shape and function of the offshore structure 1000 may be variously provided.

In the case where the offshore structure 1000 is a marine power generation plant, a power generation facility 1110 for generating electricity and a transmission facility 1120 for supplying generated electricity to a consumer are installed on the upper surface of the main body 1100 . Inside the main body 1100, a fuel storage facility 1130 for storing fuel such as natural gas, which is a fuel for generating electricity, may be installed.

The main body 1100 can float on the sea and can move to the working position. At least a part of the main body 1100 may be installed on the seabed so that the main body 1100 reaches a working position and a stable posture is maintained during a process related to the production and supply of electricity.

Such a body 1100 may be provided in the form of a horizontal barge, but is not limited thereto.

A ballast tank 1150 is formed in the main body 1100. At this time, the ballast tank 1150 may be formed inside the main body 1100.

At least one ballast tank 1150 may be provided. For example, the ballast tank 1150 may be installed on the left and right sides and the lower side of the main body 1100 as shown in FIG. 1, but is not limited thereto.

Ballast water may be introduced into the ballast tank (1150).

More specifically, when the main body 1100 floats and moves, the ballast tank 1150 may be filled with ballast water necessary for movement of the main body 1100. In this case, the ballast water may fill only part of the ballast tank 1150.

When the main body 1100 is installed at a working position, ballast water for infiltrating the main body 1100 on the seabed may be introduced into the ballast tank 1150. In this case, the ballast water can fill all of the ballast tank 1150. At this time, the main body 1100 can descend to the seabed by the self weight of the ballast tank 1150.

On the other hand, although not shown in the figure, a ballast pump and a pipe for inflow and movement of the ballast water may be formed.

The fixing unit 1200 fixes the main body 1100 sinking to the seabed to the bottom of the sea. At this time, the fixing part 1200 can adsorb the main body 1100 on the bottom surface of the sea using negative pressure.

According to the present embodiment, the fixing portion 1200 may include a suction tank 1210 and a sound pressure pump 1220.

The suction tank 1210 may be provided in a box shape as shown in FIGS. In this case, a negative pressure can be provided inside the suction tank 1210 by a sound pressure pump 1220 described later. In this case, the main body 1100 can be adsorbed on the seabed surface through the suction tank 1210. This will be described later.

The suction tank 1210 may have an opening 1211 opened toward the bottom surface. For example, the opening 1211 may be formed on the bottom surface of the suction tank 1210 as shown in FIGS.

The opening 1211 can be opened and closed by the door portion 1212.

For example, the door portion 1212 may have a structure in which the door member 1212a is hinged to the inner wall of the suction tank 1210, as shown in FIG. Needless to say, this is merely an example, and it is needless to say that the door part can have various structures for opening and closing the opening part such that the door member opens and closes the opening part in a sliding manner.

When negative pressure is applied to the suction tank 1210, the door portion 1212 can operate so that the opening 1211 is opened. In this case, the negative pressure provided to the suction tank 1210 may act to cause the main body 1100 to be adsorbed to the seabed surface through the opened opening 1211.

On the other hand, the door portion 1212 can be opened and closed by a driving unit (not shown) composed of a motor or a hydraulic cylinder.

The suction tank 1210 may be formed inside the lower portion of the main body 1100.

For example, the suction tank 1210 may be formed to share a part of the outer plate of the main body 1100, as shown in Figs. At this time, the bottom surface of the suction tank 1210 may be formed to constitute a part of the bottom surface of the main body 1100. In this case, when the main body 1100 is sucked against the seabed surface through the suction tank 1210, the bottom surface of the main body 1100 can come into contact with the seabed surface together with the bottom surface of the suction tank 1210.

The suction tank 1210 may be disposed adjacent to the ballast tank 1150 formed in the main body 1100.

For example, the ballast tank 1150 may be disposed at the lower center portion of the main body 1100 and the suction tank 1210 may be formed at the lower edge portion of the main body 1100 so as to be adjacent to the ballast tank 1150 .

At this time, the suction tank 1210 may be formed to communicate with the ballast tank 1150.

For example, as shown in FIG. 2, a communication hole may be formed on a sidewall forming a boundary between the suction tank 1210 and the ballast tank 1150 so that the suction tank 1210 and the ballast tank 1150 communicate with each other. A valve 1213 for opening and closing the communication hole may be formed in the communication hole.

When the valve 1213 is opened, the suction tank 1210 can communicate with the ballast tank 1150. At this time, it is possible to move the ballast water between the suction tank 1210 and the ballast tank 1150. In this case, the suction tank 1210 can perform the function of the ballast tank 1150.

When the valve 1213 is closed, the suction tank 1210 may have a structure independent of the ballast tank 1150.

The suction tank 1210 may be provided in plural. The plurality of suction tanks 1210 can be distributed in at least one of the width direction and the longitudinal direction of the main body 1100.

3, the plurality of suction tanks 1210 may be spaced apart from each other in the width direction (X direction) of the main body 1100 and at the same time may be distributed in the longitudinal direction (Y direction) of the main body 1100 have. In this case, the plurality of suction tanks 1210 are uniformly distributed on both side portions of the main body 1100, and the main body 1100 can be uniformly adsorbed on the bottom surface.

As another example, a plurality of suction tanks 1210 'may be distributed in a widthwise direction as shown in Fig. 4 is a modification of the suction tank of Fig.

In this case, each of the suction tanks 1210 'spaced apart from each other in the width direction may have a structure extending in the longitudinal direction of the main body 1100. Alternatively, although not shown, a plurality of suction tanks may be arranged continuously in the longitudinal direction of the main body so as to be spaced apart in the width direction.

1, the number of the suction tanks 1210 may be determined in consideration of the size of the main body 1100, the environment of the working position, and the like.

In this embodiment, the sound pressure pump 1220 may provide a negative pressure to the suction tank 1210. [

For example, the sound pressure pump 1220 can discharge the air inside the suction tank 1210 to the outside air when the main body 1100 is installed so as to sink from the working position to the seabed. In this case, negative pressure may be formed in the suction tank 1210. At this time, the opening 1211 of the suction tank 1210 can be opened.

When negative pressure is formed in the suction tank 1210 in a state where the opening 1211 of the opened suction tank 1210 is in contact with the sea floor, the main body 1100 sinking on the seabed can be adsorbed on the seabed surface by negative pressure. In this case, the main body 1100 can be firmly fixed to the sea floor. Further, when the negative pressure is continuously applied to the suction tank 1210, the main body 1100 can stably maintain the fixed state with respect to the sea floor.

The sound pressure pump 1220 may be disposed inside the main body 1100 as shown in FIG. 1, but is not limited thereto.

The sound pressure pump 1220 may be directly connected to the suction tank 1210. Alternatively, the sound pressure pump 1220 may be connected to the suction tank 1210 through a connection pipe (not shown).

Meanwhile, a discharge line (not shown) may be formed in the main body 1100 to discharge air inside the suction tank 1210 to the outside air. In this case, the sound pressure pump 1220 may be connected to the discharge line.

On the other hand, the sound pressure pump 1220 may be provided corresponding to the number of suction tanks 1210, but is not limited thereto.

As described above, the offshore structure 1000 according to the embodiment of the present invention has a structure in which the sound pressure formed on the suction tank 1210 adsorbs the body 1100, which is submerged in the seabed, against the sea floor, 1100 are firmly fixed to the seabed so that the body 1100 can maintain a stable posture even under the influence of waves or currents.

FIG. 5 is a flowchart illustrating a method of installing an offshore structure according to an embodiment of the present invention, and FIGS. 6 to 9 illustrate a method of installing an offshore structure according to an embodiment of the present invention.

Hereinafter, a method of installing the offshore structure 1000 according to an embodiment of the present invention will be described with reference to FIGS. 5 to 9. FIG.

5 and 6, the marine structure 1000 according to the present embodiment can be moved to a working position (S100).

For example, the offshore structure 1000 can be used as a marine power plant for producing and supplying electricity. In this case, the offshore structure 1000 can be moved to a work location where electricity generated from the offshore structure 1000 can be supplied to the consumer in the land.

The main body 1100 of the offshore structure 1000 floats on the sea and can move to the working position.

At this time, the ballast tank 1150 may be filled with ballast water necessary for moving the main body 1100. For example, the ballast water may fill a portion of the ballast tank 1150 as shown in FIG.

At this time, the door portion 1212 can close the opening 1211. The sound pressure pump 1220 may not operate.

5 and 7, the main body 1100 can sink into the seabed (S200).

At this time, the ballast tank 1150 may be filled with ballast water for submerging the main body 1100 on the seabed. For example, the ballast water may fill the entirety of the ballast tank 1150 as shown in FIG. In this case, the main body 1100 can descend to the seabed by the self weight of the ballast tank 1150 filled with ballast water.

At this time, the main body 1100 may sink so that the bottom surface of the suction tank 1210 abuts against the bottom surface as shown in FIG. In this case, the bottom surface of the main body 1100 can touch the bottom surface.

On the other hand, the main body 1100 may sink so that at least a part of the upper part protrudes above the water surface. In this case, the power generation equipment 1110 and the like provided on the upper surface of the main body 1100 may be exposed above the water surface. At this time, the offshore structure 1000 can produce and supply electricity with the main body 1100 sinking on the seabed.

5, 8, and 9, the fixing unit 1200 may fix the main body 1100, which is submerged in the sea floor, by adsorbing it on the sea floor (S300).

When the main body 1100 sinks to the seabed, the bottom surface of the suction tank 1210 abuts against the bottom surface, as shown in Fig. 8, and the door portion 1212 can open the opening 1211. [

At this time, the sound pressure pump 1220 may operate so as to provide a negative pressure to the suction tank 1210. In this case, air in the suction tank 1210 may be discharged to the outside air through a discharge line (not shown) connected to the negative pressure pump 1220. In this process, gravel or sand on the sea floor may be sucked into the suction tank 1210 to increase the weight of the main body 1100.

The negative pressure provided to the suction tank 1210 as described above can cause the main body 1100 to be adsorbed on the sea floor. In this case, the lower end of the main body 1100 can be stuck toward the sea floor as shown in Fig.

In this way, when the main body 1100 is adsorbed on the seabed surface, the main body 1100 can be easily and firmly fixed to the seabed surface. In this case, the main body 1100 submerged in the seabed can effectively maintain a stable posture against the effects of waves, ocean currents, and the like. Furthermore, the offshore structure 1000 is installed to maintain a constant attitude, so that the operation of producing and supplying electricity can be performed stably.

FIG. 10 is a view showing an offshore structure according to another embodiment of the present invention, and FIG. 11 is an enlarged view of FIG.

Referring to FIG. 10, an offshore structure 2000 according to the present embodiment may include a main body 2100 and a fixing portion 2200. The main body 2100 according to this embodiment is the same as the main body 1100 of the previous embodiment. The fixing portion 2200 according to the present embodiment differs from the fixing portion 1200 of the previous embodiment in the forming position and the like. Hereinafter, the difference from the previous embodiment will be described in describing the present embodiment.

The suction tank 2210 may be formed on the lower outer side of the main body 2100.

For example, the suction tank 2210 may be formed to protrude downward from the bottom surface of the main body 2100, as shown in FIG.

For example, although not shown, the suction tank may be integrally formed with the main body.

As another example, the suction tank 2210 may be detachably formed on the lower outer side of the main body 2100.

In this case, the suction tank 2210 can be detached from the lower portion of the main body 2100 when the main body 2100 is moving. The suction tank 2210 can be coupled to the lower outer side of the main body 2100 when the main body 2100 is installed in a submerged state.

The suction tank 2210 may be coupled to the main body 2100 through a magnetic portion 2215. [ In this case, the suction tank 2210 can be easily coupled to the main body 2100.

For example, the magnetic portion 2215 may protrude from the upper surface of the suction tank 2210 as shown in FIG. In this case, an insertion groove 2170 into which the protruded magnetic portion 2215 can be inserted may be formed in the lower portion of the main body 2100.

The magnetic portion 2215 may include, but is not limited to, an electromagnet.

It is needless to say that the suction tank may be formed in various structures detachable from the bottom of the main body.

In this embodiment, the sound pressure pump 2220 may be disposed in the main body 2100. In other words, the sound pressure pump 2220 may be supported on the inside of the main body 2100 or on the outside of the main body 2100.

At this time, the suction tank 2210 may be connected to the negative pressure pump 2220 through the connector 2216. In this case, the negative pressure pump 2220 may provide negative pressure to the suction tank 2210 via the connector 2216. [

For example, the connector 2216 may protrude from the upper surface of the suction tank 2210 as shown in FIG. In this case, the connector 2216 may be connected to the connection pipe 2221 extending from the sound pressure pump 2220. At this time, the connector 2216 is normally covered with a cap (not shown), and when the suction tank 2210 and the main body 2100 are engaged, the cap can be removed and connected to the negative pressure pump 2220.

It is needless to say that the connector may be provided in various structures connected to the sound pressure pump.

On the other hand, the suction tank 2210 can be separated or coupled to the main body 2100 underwater by an operator (not shown) or a submersible (not shown).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

1000, 2000: Offshore structures
1100, 2100:
1110: Power generation facilities
1120: Transmission facilities
1130: Fuel storage facility
1150: ballast tank
2170: Insertion groove
1200, 2200:
1210, 1210 ', 2210: Suction tank
1211:
1212:
1212a: Door member
1213: Valve
2215: Magnetic part
2216: Connector
1220, 2220: Sound pressure pump
2221: Connection piping

Claims (12)

A body formed with a ballast tank; And
And a fixing unit for absorbing and fixing the main body submerged in the sea floor to the sea floor. The method according to claim 1,
The fixing unit includes:
A suction tank having an opening opened toward the sea floor; And
And a negative pressure pump that provides negative pressure to the suction tank. 3. The method of claim 2,
Wherein the opening is opened and closed by a door portion. 3. The method of claim 2,
Wherein the suction tank is formed inside the lower portion of the main body. 5. The method of claim 4,
Wherein the suction tank is disposed adjacent to the ballast tank formed inside the body. 6. The method of claim 5,
Wherein the suction tank is formed to communicate with the ballast tank. 3. The method of claim 2,
The suction tank is provided in plural,
Wherein the plurality of suction tanks are distributed apart in at least one of a width direction and a length direction of the main body. 3. The method of claim 2,
Wherein the suction tank is formed outside the lower portion of the main body. 9. The method of claim 8,
Wherein the suction tank is detachably formed outside the lower portion of the main body. 10. The method of claim 9,
The sound pressure pump is disposed in the main body,
Wherein the suction tank is connected to the sound pressure pump through a connector. A method of installing an offshore structure according to claim 1,
(A) moving the offshore structure to a working position;
(B) sinking the body into the seabed; And
(C) securing the main body, which is fixed by the fixing portion, to the bottom of the sea so as to be fixed. 12. The method of claim 11,
Wherein the fixed portion includes a suction tank having an opening portion opened and closed by a door portion and a negative pressure pump for providing negative pressure to the suction tank,
In the step (a)
The door portion closes the opening portion, the sound pressure pump stops operating,
In the step (c)
Wherein the door portion opens the opening portion and the sound pressure pump starts operation.

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