KR20170035271A - Marine foundation and construction method thereof - Google Patents

Abstract

Disclosed is a marine support and a construction method thereof. A marine support of the present invention comprises: a self-weight regulating tank unit which is moved in a floating state on the sea and is submerged in the seabed as seawater is injected; a monopod unit which is provided to be descendable in the self-weight regulating tank unit and to which an offshore structure is connected; a guide bucket unit installed on an underside of the monopod unit and seated on the seabed by discharging seawater; and a leg unit provided below the self-weight regulating tank unit.

Description

[0001] MARINE FOUNDATION AND CONSTRUCTION METHOD THEREOF [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a marine support and a construction method thereof, and more particularly, to a marine support which can be easily moved in the ocean and can be immersed in an accurate installation position and a method of construction thereof.

Typically, marine structures such as wind turbines are installed in the ocean. At the seabed, the foundation of the ocean structure is settled to support the offshore structure. The offshore structure foundation is mounted on the barge or ship and then moved to the installation location. The bases of marine structures of barges or ships are moved to sea level using a crane or the like and flooded. After the foundation of the ocean structure is seated on the seabed, an offshore structure is installed on the foundation of the ocean structure.

However, since conventional offshore structure bases are moved to an installation location after being loaded on a barge or ship, several tug lines are used to move the offshore structure foundation to the installation location.

In addition, when the foundation of the offshore structure is submerged in the installation location, the location of the foundation of the offshore structure may be changed by the influence of the tide or wave.

Therefore, there is a need to improve this.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2004-0037263 (published on 04.05.2004, entitled "Method for constructing foundation for a wind power tower tower").

It is an object of the present invention to provide a marine support which can be easily moved in the ocean and can be immersed in a correct installation location and a method of construction thereof.

A marine support according to the present invention comprises: a self-weight regulating tank portion which is floated in the sea and is submerged in the seabed as seawater is injected; A mono pod portion provided to be descendable in the self weight regulating tank portion and connected to an offshore structure; A guide bucket unit installed below the monopod unit and seated on the seabed by discharging seawater; And a leg portion provided below the self weight regulating tank portion.

The marine support may further include a thrust device installed in the self-weight control tank to prevent thesubjection of the self-weight control tank from being changed by applying thrust to the self-weight control tank.

Wherein the thrust device comprises: a belt portion coupled to the self weight regulating tank portion; And a plurality of propeller units installed on the belt unit and generating thrust in the self-weight control tank unit.

The belt portion includes a plurality of band portions arranged to surround the self weight regulating tank portion; And a belt release portion that engages and disengages the adjacent ends of the plurality of band portions.

A guide portion is formed in the self weight regulating tank portion so that the monopod portion can be movably inserted, a seawater chamber is formed to inject seawater, and a hose connecting portion is formed to connect the pumping hose.

The marine support may further include an on-off valve installed in the self-weight control tank so that seawater is injected and blocked in the self-weight control tank.

The guide portion may be formed so as to pass through the center portion of the self weight regulating tank portion vertically.

The leg portion may include a plurality of leg buckets disposed along the lower circumference of the self weight regulating tank portion and seated on the seabed by discharging seawater.

The leg bucket portion is formed to open downward, and the hose coupling portion may be formed in the leg bucket portion to connect the pumping hose.

A method of constructing a marine support according to the present invention comprises the steps of: a self weight regulating tank part being moved to an installation position in a suspended state at sea by buoyancy; A guide bucket installed at a lower portion of the self weight regulating tank portion descends and is seated on the seabed; The seawater is poured into the seawater chamber of the self weight regulating tank unit, so that the self weight regulating tank unit is submerged in the seabed; And the leg portion is lowered together with the self weight regulating tank portion and is seated on the seabed.

In the step where the self weight regulating tank portion is submerged in the seabed, the thrusting device can be driven to prevent the submerged position of the self weight regulating tank portion from being changed.

In the step where the leg portion is lowered together with the self weight regulating tank portion and is seated on the seabed, seawater in the leg portion can be discharged to the outside of the leg portion.

The step of releasing the restraint of the belt portion from the belt release portion and recovering the thrust device provided at the periphery of the self weight regulating tank portion may be further included after the step of the leg portion being lowered together with the self weight regulating tank portion and being seated on the seabed have.

According to the present invention, since the self weight control tank is moved to the installation position in a floated state, the self weight control tank can be easily moved even at a low water level. In addition, since a marine support can be moved using a single tugboat, the installation cost of the marine structure can be reduced.

Further, according to the present invention, since the mono-pod portion is movably provided in the center of the self-weight control tank portion, the mono-pod portion can be stably supported by the self-weight control tank portion.

Also, according to the present invention, as the opening / closing valve is opened, seawater is injected into the self-weight regulating tank portion, and the opening of the self-weight regulating tank portion is blocked as the opening / closing valve is closed. Therefore, the self weight of the self weight control tank can be adjusted according to the main adoption of the seawater, so that the self weight of the self weight control tank can be adjusted according to the strength of the ground.

Further, according to the present invention, since the self-weight control tank portion is lowered to the seabed after the guide bucket portion is seated on the seabed, the self-weight control tank portion can be prevented from deviating from the installation position by the algae or the wave when the self-

According to the present invention, when the self weight regulating tank portion is lowered, the thrust device generates thrust in the self weight regulating tank portion, so that the self weight regulating tank portion can be prevented from being displaced from the installation position by the influence of algae or waves.

1 is a perspective view illustrating a marine support according to an embodiment of the present invention.
2 is a front view showing a marine support according to an embodiment of the present invention.
3 is a cross-sectional view of a marine support according to an embodiment of the present invention.
4 is a perspective view illustrating a thrust device in a marine support according to an embodiment of the present invention.
5 is a front view showing a state in which a marine support according to an embodiment of the present invention is moved in a floating state on the sea surface.
6 is a front view showing a state in which a guide bucket is lowered on a sea floor in a marine support according to an embodiment of the present invention.
FIG. 7 is a front view showing a state in which a guide bucket is lowered on a marine support according to an embodiment of the present invention and is seated on the sea floor.
8 is a front view showing a state in which a leg bucket is lowered on a sea floor in a marine support according to an embodiment of the present invention.
FIG. 9 is a front view showing a state in which a leg bucket is submerged in a sea floor in a marine support according to an embodiment of the present invention. FIG.
10 is a flowchart showing a method of constructing a marine support according to an embodiment of the present invention.

Hereinafter, an embodiment of a marine support according to the present invention and a construction method thereof will be described with reference to the accompanying drawings. In the course of describing the marine support and its construction method, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view showing a marine support according to an embodiment of the present invention, FIG. 2 is a front view showing a marine support according to an embodiment of the present invention, and FIG. 3 is a cross- FIG. 4 is a perspective view illustrating a thrust device in a marine support according to an embodiment of the present invention. FIG.

1 to 4, a marine support according to an embodiment of the present invention includes a self-weight control tank unit 110, a monopod unit 120, a guide bucket unit 130, and a leg unit 140 .

The self weight regulating tank unit 110 is moved to the floating state in the sea, and seeps into the seabed as the seawater is injected. The self weight control tank unit 110 is moved in a floated state from the sea so that the marine support body can be moved to the installation position by using one tug. Therefore, since the barge and the vessel are not used for mounting the self weight control tank unit 110, the transportation cost of the marine support body can be reduced.

The self weight regulating tank unit 110 is formed in a conical shape on the upper side. A circular ring-shaped skirt portion 115 is formed at the periphery of the self weight regulating tank portion 110.

A guide portion 111 is formed in the self weight regulating tank portion 110 so that the monopod portion 120 is movably inserted into the self-weight regulating tank portion 110. A seawater chamber 112 is formed to inject seawater, 113 are formed. The guide portion 111 is formed in the shape of a circular pipe. The hose connecting portion 113 is connected to the upper side of the self weight regulating tank portion 110.

The seawater chamber 112 is formed inside the self weight control tank unit 110. When the marine support body is transported to the installation position, the air is received in the seawater chamber 112 and buoyancy is applied to the self weight control tank unit 110 . When the marine support body reaches the installation position, seawater is injected into the self-weight control tank unit 110, so that the self-weight control tank unit 110 is submerged.

The guide portion 111 is formed so as to pass through the central portion of the self weight regulating tank portion 110 vertically. The guide portion 111 is formed so as to pass through the central portion of the self weight regulating tank portion 110 so that the monopod portion 120 is movably installed in the center portion of the self weight regulating tank portion 110. [ Accordingly, the monopod portion 120 can be stably supported by the self weight regulating tank portion 110.

The marine support further includes an on-off valve (117) installed in the self-weight control tank so that seawater is injected and blocked in the self-weight control tank unit (110). As the opening / closing valve 117 is opened, seawater is injected into the self-weight regulating tank unit 110 and the opening / closing valve 117 is closed, so that injection of seawater into the self-weight regulating tank unit 110 is interrupted.

Therefore, the self weight of the self weight regulating tank unit 110 can be adjusted according to the main adoption of the seawater, so that the self weight of the self weight regulating tank unit 110 can be adjusted according to the strength of the ground. For example, when the strength of the ground is relatively weak, the weight of the self-weight adjusting tank 110 may be reduced and the weight of the self-weight adjusting tank 110 may be increased when the strength of the ground is relatively strong. The weight of the self weight regulating tank unit 110 is adjusted according to the strength of the ground so that the monopod unit 120 can be positioned vertically as the self weight regulating tank unit 110 is seated parallel to the ground.

The monopod unit 120 is installed in the self-weight regulating tank unit 110 so as to be descendable. An offshore structure 10 such as a wind turbine is connected to the upper portion of the monopod portion 120. The monopod portion 120 is formed in the shape of a circular pipe.

The guide bucket part 130 is installed on the lower side of the monopod part 120 and is seated on the seabed by discharging the seawater therein. The guide bucket part 130 is formed into a cylindrical shape in which the lower side is opened. After the guide bucket part 130 is seated on the seabed, the self weight regulating tank part 110 is lowered to the seabed. Therefore, when the self weight regulating tank unit 110 is lowered, it is possible to prevent the self weight regulating tank unit 110 from escaping from the installation position by the alga or the wave.

The guide bucket part 130 is formed into a cylindrical shape in which the lower side is opened. The inside of the guide bucket part (130) communicates with the inside of the monopod part (120). The pumping hose reaches the guide bucket part 130 through the monopod part 120 so that the subsea sediment in the guide bucket part 130 is discharged to the outside by the pumping hose. Therefore, as the guide bucket part 130 is lowered into the subsoil sediment, it can be seated on the ground of the seabed.

The leg portion 140 is provided below the self weight regulating tank portion 110 to support the self weight regulating tank portion 110. The leg portion 140 includes a plurality of leg bucket portions 141 disposed along the lower side of the self weight regulating tank portion 110 and seated on the seabed by discharging seawater. The leg bucket portion 141 is lowered to the inside of the sediments of the seabed by discharging seawater and stably stays on the ground of the seabed. When the leg bucket portion 141 is lowered to the inside of the sediment, the self weight regulating tank portion 110 is also lowered together with the leg bucket portion 141, so that the monopod portion 120 is positioned above the self weight regulating tank portion 110 Relatively moved. Therefore, the leg bucket portion 141, the self weight regulating tank portion 110, and the guide bucket portion 130 can be stably mounted on the ground.

The leg bucket portion 141 is formed in a cylindrical shape with its lower side opened. The leg bucket portion 141 is formed with a hose connecting portion 113 to connect the pumping hose. The hose connecting portion 113 is disposed on the upper side of the leg bucket portion 141. The pumping hose is inserted into the hose connecting portion 113 to suck the subsea sediment in the leg bucket portion 141, so that the leg bucket portion 141 is lowered to the inside of the subsea sediment.

The marine support body further includes a thrust device 150 installed in the self-weight control tank part 110 to prevent the self-weight control tank part 110 from being changed in position by applying thrust to the self-weight control tank part 110 . The thrusting apparatus 150 generates thrust in the self weight regulating tank unit 110 when the self weight regulating tank unit 110 is lowered so that the self weight regulating tank unit 110 is prevented from being displaced from the installation position due to the influence of algae or waves . For example, the position of the marine support body is measured by GPS, and when the self-weight control tank unit 110 is slightly out of the installation position, the thrust device 150 generates thrust force so that the self-weight control tank is moved to the installation position. Thus, the marine support can be seated in the correct mounting position.

The thrust device 150 includes a belt 151 coupled to the self weight regulating tank 110 and a plurality of propellers 155 installed in the belt 151 for generating thrust in the self weight regulating tank 110 ). The plurality of propeller parts 155 are arranged at equal intervals along the circumference of the self weight regulating tank part 110. At this time, when the self weight control tank unit 110 is pushed to one side by a bird or a wave, the self weight control tank unit 110 is installed by driving the propeller unit 155 located at one side of the self weight control tank unit 110 It is possible to prevent deviation from the position.

The belt portion 151 includes a plurality of band portions 152 arranged to surround the self weight regulating tank portion 110 and a belt releasing portion 153 for engaging and disengaging the adjacent ends of the plurality of band portions 152. When the marine support body is completely seated on the seabed, the belt release portion 153 separates the adjacent end portions of the band portion 152, so that the thrust device 150 can be separated from the self weight control tank portion 110 and recovered.

A method of constructing a marine support according to an embodiment of the present invention will now be described.

FIG. 5 is a front view illustrating a state in which a marine support according to an embodiment of the present invention is moved in a floating state on a sea surface, and FIG. 6 is a cross-sectional view of a marine support according to an embodiment of the present invention, FIG. 7 is a front view showing a state in which a guide bucket is lowered in a marine support according to an embodiment of the present invention and is seated on the sea floor, and FIG. 8 is a front view showing an embodiment FIG. 9 is a front view showing a state in which a leg bucket is submerged in a sea floor in a marine support according to an embodiment of the present invention, and FIG. 9 is a front view showing a state where a leg bucket is submerged in a sea floor according to an embodiment of the present invention. 10 is a flowchart illustrating a method of constructing a marine support according to an embodiment of the present invention.

Referring to FIGS. 5 to 10, the self weight regulating tank unit 110 is moved to the installation position in a floated state by buoyancy (S11). The self weight regulating tank unit 110 is floated in the sea so that the self weight regulating tank unit 110 can be easily moved even at a low water surface. Also, since the self weight control tank unit 110 is moved to the installation position in a floating state, the marine support body can be moved using one tug. Therefore, it is not necessary to use a barge or a ship to mount a marine support, so the cost of installing the offshore structure 10 can be reduced.

The pumping hose is connected to the hose connecting portion 113 of the self weight regulating tank portion 110 and the hose connecting portion 143 of the leg bucket portion 141, respectively. In addition, the pumping hose is inserted into the guide bucket part 130 through the monopod part 120. At this time, the diver can connect the pumping hose to the hose connection part 113, the hose coupling part 143 and the guide bucket part 130. The pumping hose is connected to a pump installed on a tugboat or platform. A strainer may be provided at the lower end of the pumping hose to prevent sediment such as gravel from being sucked into the pumping hose.

The guide bucket part 130 descends and is seated on the seabed (S12). At this time, when the operator or the diver releases the hook portion from the monopod portion 120 and presses the monopod portion 120 downward, the guide bucket portion 130 is lowered along the guide portion 111. When the guide bucket part 130 begins to be lowered, the guide bucket part 130 is lowered by the weight of the guide bucket part 130. When the guide bucket part 130 reaches the submerged sediment, the guide bucket part 130 stops to descend. At this time, as the pump installed on the tugboat or the platform is driven, the subsoil sediment in the guide bucket 130 is sucked into the pump hose. At this time, as the suction pressure is generated in the guide bucket part 130, the guide bucket part 130 descends to the inside of the subsoil precipitate. Therefore, the guide bucket part 130 is seated on the ground of the seabed.

Seawater is injected into the self-weight regulating tank unit 110 (S13). At this time, the opening / closing valve 117 provided below the self weight regulating tank unit 110 is opened, so that seawater is injected into the seawater chamber 112 of the self weight regulating tank unit 110. As the seawater is filled in the seawater chamber 112 of the self weight regulating tank unit 110, the self weight regulating tank unit 110 is lowered to the seabed (S14).

At this time, since the guide bucket unit 130 is seated on the seabed and the monopod unit 120 supports the self-weight control tank unit 110, it is possible to prevent the self-weight control tank unit 110 from moving out of the installation position when the self- .

In addition, as the thrust device 150 is driven when the self weight regulating tank 110 is lowered, the submerged position of the self weight regulating tank 110 is corrected (S15). That is, when the self-weight regulating tank unit 110 is lowered, the thrust device 150 acts on the self-weight regulating tank unit 110 so as to prevent the self-weight regulating tank unit 110 from being pushed by the alga or the wave. For example, when the self-weight regulating tank unit 110 is pushed to the left, the thrust device 150 applies a thrust force to the left side of the self-weight regulating tank unit 110 so that the self-weight regulating tank unit 110 flows prevent. Therefore, it is possible to prevent the self weight control tank unit 110 from being displaced from the installation position by alga or wave.

When the self weight regulating tank portion 110 is submerged in the seabed, the leg portion 140 is seated on the seabed together with the self weight regulating tank portion 110 (S16). At this time, a sucking pressure is generated inside the leg bucket part 141 as the seabed sediment in the leg bucket part 141 is sucked through the pumping hose. The leg bucket portion 141 is lowered to the inside of the seabed sediment as the sediment is sucked out from the leg bucket portion 141. At this time, when the self weight control tank unit 110 is lowered, the monopod unit 120 is lifted along the guide unit 111.

When the self weight regulating tank unit 110 is completely submerged in the seabed, the belt releasing unit 153 releases the restraint of the belt unit 151 (S17). At this time, since the band part 152 is separated from the self weight regulating tank part 110 together with the propeller part 155, the thrust device 150 can be recovered from the self weight regulating tank part 110 (S18). The belt release unit 153 may be driven by wireless communication or the diver may be detached from the belt unit 151 directly. Further, if the diver ropes the thrust device 150 or the band 152, the diaphragm can pull the rope from the tug and collect the thrust device 150. Thus, the thrust device 150 may be reinstalled on another marine support.

As described above, the self weight control tank unit 110 is moved to the installation position floating from the sea, so that the self weight control tank unit 110 can be easily moved even at a low water level. In addition, since a marine support can be moved using a single tugboat, the installation cost of the marine structure can be reduced.

In addition, since the mono pod portion 120 is movably installed in the center of the self-weight control tank portion 110, the mono pod portion 120 can be stably supported by the self-weight control tank portion 110.

In addition, as the opening / closing valve 117 is opened, seawater is injected into the self-weight regulating tank unit 110 and the opening / closing valve 117 is closed, so that injection of seawater into the self-weight regulating tank unit 110 is interrupted. Therefore, since the weight of the self-weight control tank unit 110 can be adjusted according to the main adoption of the seawater, the self-weight of the self-weight control tank can be adjusted according to the strength of the ground.

The self weight regulating tank unit 110 is lowered to the seabed after the guide bucket unit 130 is seated on the seabed so that when the self weight regulating tank unit 110 is lowered, It is possible to prevent the user from leaving the installation position.

When the self weight regulating tank unit 110 is lowered, the thrust device 150 generates a thrust force in the self weight regulating tank unit 110, so that the self weight regulating tank unit 110 is set to the installation position It is possible to prevent deviation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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 by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

101: Pumping hose 110: Self weight control tank part
111: guide part 112: seawater chamber
113: hose connection part 115: skirt part
117: opening / closing valve 120: monopod part
130: guide bucket part 140: leg part
141: Red bucket part 143: Hose coupling part
150: Thrust device 151: Belt portion
152: band portion 153: belt release portion
155: Propeller section

Claims (13)

A self weight regulating tank portion which is moved to a floating state in the sea and is submerged in the seabed as seawater is injected;
A mono pod portion provided to be descendable in the self weight regulating tank portion and connected to an offshore structure;
A guide bucket unit installed below the monopod unit and seated on the seabed by discharging seawater; And
And a leg portion provided below the self weight regulating tank portion.
The method according to claim 1,
Further comprising a thrust device installed in the self weight regulating tank to prevent thesubjecting position of the self weight regulating tank from being changed by applying thrust to the self weight regulating tank.
3. The method of claim 2,
The thrust device comprises:
A belt portion coupled to the self weight regulating tank portion; And
And a plurality of propeller parts installed on the belt part and generating thrust in the self weight regulating tank part.
The method of claim 3,
The belt portion
A band portion disposed to surround the self weight regulating tank portion; And
And a belt release portion for joining and separating adjacent ends of the plurality of band portions.
The method according to claim 1,
Wherein a guide portion is formed in the self weight regulating tank portion so that the monopod portion is movably inserted, a seawater chamber is formed to inject seawater, and a hose connecting portion is formed to connect the pumping hose.
6. The method of claim 5,
Further comprising an on-off valve installed in the self-weight control tank so that seawater is injected and blocked in the self-weight control tank.
6. The method of claim 5,
Wherein the guide portion is formed so as to pass through a central portion of the self weight regulating tank portion vertically.
The method according to claim 1,
Wherein the leg portion comprises a plurality of leg bucket portions disposed along the lower circumference of the self weight regulating tank portion and seated on the seabed by discharging seawater.
9. The method of claim 8,
Wherein the leg bucket portion is formed so that a lower side thereof is opened,
And a hose coupling portion is formed in the leg bucket to connect the pumping hose.
The self weight regulating tank is moved to the installation position in floating state by buoyancy;
A guide bucket installed at a lower portion of the self weight regulating tank portion descends and is seated on the seabed;
The seawater is poured into the seawater chamber of the self weight regulating tank unit, so that the self weight regulating tank unit is submerged in the seabed; And
Wherein the leg portion is lowered together with the self weight regulating tank portion and is seated on the seabed.
11. The method of claim 10,
In the step where the self weight regulating tank is submerged in the seabed,
Wherein the thrusting device is driven to prevent the submerged position of the self weight regulating tank from being changed.
11. The method of claim 10,
In the step where the leg portion is lowered together with the self weight regulating tank portion and is seated on the seabed,
And seawater in the leg portion is discharged to the outside of the leg portion.
11. The method of claim 10,
After the leg portion is lowered together with the self weight regulating tank portion and is seated on the seabed,
Further comprising the step of releasing the restraint of the belt portion and recovering the thrust device provided at the periphery of the self weight regulating tank portion.

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