KR101314763B1 - Offshore structure and construction method thereof - Google Patents

Abstract

The present invention includes a main body 110; A spiral submerged chamber 120 formed in a closed structure inside the main body 110 and formed in a spiral pipe structure; An inlet 103 formed at one end of the spiral submerged chamber 120; By presenting the sinking marine structure 100 having a swirl submerged chamber, characterized in that it comprises; outlet 101 formed at the other end of the spiral submerged chamber 120, the lateral flow during the sinking of the marine structure Prevent and control the sinking speed.

Description

Sinking offshore structure with vortex submerged chamber and construction method {OFFSHORE STRUCTURE AND CONSTRUCTION METHOD THEREOF}

Field of the Invention [0002] The present invention relates to a civil engineering field, and more particularly, to a method of constructing an offshore structure.

It is very difficult to construct an offshore structure on the sea floor such as the foundation of bridge bridges and the foundation of offshore wind power generation structures because it is very difficult to construct by concrete casting in the field. , Sinking (submerging) method which is installed on the sea floor is commonly used.

1 and 2 are process drawings for explaining a conventional method of constructing a submerged offshore structure.

The conventional submerged offshore structure 10 generally has a structure in which an upper portion is opened and a receiving space 11 for seawater is formed therein and seawater flows into the receiving space 11 to sink the offshore structure 10 .

However, when such a conventional method is applied, since the seawater does not constantly flow into the storage space 11 during flooding, the offshore structure 10 sinks while flowing left and right, and there is no way to control the sinking speed. There is a problem that the offshore structure 10 collides with the ocean floor or the installed offshore structure to cause damage.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a submerged offshore structure and a method of constructing the submerged offshore structure, which can prevent a lateral flow when a marine structure sinks and control a sinking speed .

In order to solve the above-described problems, the present invention provides a display apparatus including a main body 110; A spiral submerged chamber 120 formed in a closed structure inside the main body 110 and formed in a spiral pipe structure; An inlet 103 formed at one end of the vortex submerged chamber 120; Presents a sunken marine structure 100 having a swirl submerged chamber, characterized in that it comprises a; outlet 101 formed at the other end of the spiral submerged chamber 120.

One end of the spiral submerged chamber 120 is formed in the center portion, the other end of the spiral submerged chamber 120 is preferably formed in the edge portion.

The swirl submerged chamber 120 is preferably formed by embedding a hose made of a flexible material in the concrete forming the body 110.

The vortex submerged chamber 120 is formed in a plurality in the vertical direction, the inlet 103 is formed at one end of the lower vortex submerged chamber 120b of the plurality of vortex submerged chamber 120, The outlet 101 is formed at the other end of the upper spiral submerged chamber 120a among the plurality of spiral submerged chambers 120, and the other end of the lower spiral submerged chamber 120b and the upper spiral submerged chamber 120a. One end of the) is preferably connected by a connecting passage (102).

The present invention relates to a method of constructing the sinking offshore structure (100), comprising the steps of lifting the sinking offshore structure (100) to a position where the sinking structure is installed, with the inlet (103) closed; The sinking step of sinking the sinking marine structure 100 by opening the inlet 103 so that water flows into the vortex submerged chamber 120, the construction of the sinking marine structure comprising a Present the method together.

The sinking step is to repeat the closing and opening of the outlet 101, so that the air of the swirl submerged chamber 120 is slowly discharged, the sinking speed control to adjust the sinking speed of the sinking marine structure 100 It is preferable to further include;

In the sinking step, the air flows back through the outlet 101 so that the volume of the air in the vortex submerged chamber 120 is slowly reduced, thereby controlling the sinking speed of the sinking marine structure 100. It is preferable to further include a; speed adjusting step.

The present invention proposes a submerged offshore structure and its construction method that can prevent lateral flow when sinking an offshore structure and control the sinking speed.

1 and 2 are process drawings for explaining a conventional method of constructing a submerged offshore structure.
3 or less shows an embodiment of the present invention,
3 is a cross sectional view of a first embodiment of a sunken offshore structure;
4 is a cross-sectional view taken along AA of FIG. 3.
5 is a longitudinal sectional view of a second embodiment of a sunken offshore structure;
Figure 6 is a process diagram of one embodiment of the construction method of the sinking marine structure.
7 is a cross sectional view of a third embodiment of a sunken offshore structure;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3, the submerged offshore structure 100 according to the present invention basically comprises a main body 110; A spiral submerged chamber 120 formed in a closed structure inside the main body 110 and formed in a spiral pipe structure; An inlet 103 formed at one end of the spiral submerged chamber 120; And an outlet 101 formed at the other end of the vortex submerged chamber 120.

It lifts the sinking offshore structure 100 to the installation position of the ocean in the state in which the inlet 103 is closed, and opens the inlet 103 so that water flows into the vortex submerged chamber 120, the sinking type The marine structure 100 is constructed by sinking.

In this case, since the water gradually fills the vortex submerged chamber 120 along the structure of the submerged chamber, a stable buoyancy structure is achieved so that the lateral flow of the marine structure 100 does not occur.

In addition, since the speed of filling the water in the vortex submerged chamber 120 will be significantly slow, as the sinking speed is slow, the offshore structure 100 is prevented from colliding with the sea floor or the installed offshore structure at a high speed to be damaged. can do.

Further, when the offshore structure 100 is to be dismantled, the offshore structure 100 may be floated by injecting air through the outflow port 101, so that the disassembly operation is facilitated.

When one end of the vortex submerged chamber 120 in which the inlet 103 of the sea water is formed is formed in the center portion, and the other end of the vortex submerged chamber 120 in which the outlet 101 is formed is formed in the edge portion, the seawater Since it gradually fills the edge from the center of the submerged chamber 120, it is possible to more stably prevent the lateral flow of the offshore structure (100).

The vortex submerged chamber 120 may be implemented by a method of embedding in concrete by transforming the hose by a flexible material into a vortex structure when the concrete is poured for the formation of the main body 110.

The spiral submerged chamber 120 may have a configuration in which a plurality is formed along the vertical direction (FIG. 5).

That is, an inlet 103 is formed at one end of the lower swirl submerged chamber 120b among the plurality of spiral submerged chambers 120, and the upper spiral submerged chamber 120a of the plurality of spiral submerged chambers 120 is formed. The outlet 101 is formed at the other end, and the other end of the lower vortex submerged chamber 120b and one end of the upper vortex submerged chamber 120a are connected by a connecting passage 102.

In this configuration, water is gradually filled from the lower vortex submerged chamber 120b among the plurality of submerged chambers 120. At this point, water is filled in the lower portion of the marine structure 100, but air is filled in the upper portion. Since it is possible to form a stable buoyancy structure, the lateral flow of the offshore structure 100 can be more stably prevented.

In addition, since the water is completely submerged until the upper vortex submerged chamber 120b from the lower vortex submerged chamber 120b to the upper vortex submerged chamber 120a is completed, the sinking speed is slowed. High speed collisions with sea floors or existing offshore structures can be prevented from damage.

The sinking speed of an offshore structure 100 having such a structure can be controlled by the following method.

First, by repeatedly closing and opening the outlet 101, the air in the vortex submerged chamber 120 is slowly discharged, it is possible to take a way to control the sinking speed of the sinking marine structure (100).

That is, the discharge speed of the air through the outlet 101 is proportional to the inflow speed of the seawater through the inlet 103, so that the inflow speed of the seawater can be adjusted by adjusting the discharge speed of the air.

Second, by inflowing the air back through the outlet 101, the volume of the air in the vortex submerged chamber 120 is slowly reduced, it is possible to take a way to control the sinking speed of the sinking marine structure (100).

The buoyancy of an object is proportional to the volume occupied by the object in water. In the case of a compressible fluid such as air, the buoyancy becomes smaller as the volume becomes smaller by the water pressure as it enters a deep water depth.

Therefore, in the case of a large-scale offshore structure installed in a high depth of water, as in the present embodiment, the air is introduced back through the outlet 101 by a high pressure air injector 200 or the like, so that the air in the vortex submerged chamber 120 It is more desirable to control the sinking rate by allowing the volume of to decrease slowly despite the state of high depth (FIG. 6).

The swirl submerged chamber 120 may be formed in a circular structure as described above, or may be formed in a square structure or the like according to the structure of the main body 110 (FIG. 7).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: sinking type offshore structure 101: outlet
102: connecting passage 103: inlet
110: main body 120: spiral submerged chamber

Claims (7)

Main body 110;
A spiral submerged chamber 120 formed in a closed structure inside the main body 110 and formed in a spiral pipe structure;
An inlet 103 formed at one end of the vortex submerged chamber 120;
An outlet 101 formed at the other end of the vortex submerged chamber 120;
Sinking marine structure (100) having a swirl submerged chamber, characterized in that it comprises a. The method of claim 1,
One end of the vortex submerged chamber 120 is formed in the center portion, the other end of the vortex submerged chamber 120 is sunk marine structure having a vortex submerged chamber, characterized in that formed in the edge portion. 3. The method of claim 2,
The spiral submerged chamber 120 is a sunken marine structure having a spiral submerged chamber, characterized in that the hose formed of a flexible material is embedded in the concrete forming the body (110). 3. The method of claim 2,
The vortex submerged chamber 120 is formed in a plurality along the vertical direction,
The inlet 103 is formed at one end of the lower spiral submerged chamber 120b of the plurality of spiral submerged chambers 120,
The outlet 101 is formed at the other end of the upper spiral submerged chamber 120a of the plurality of spiral submerged chambers 120,
The other end of the lower vortex submerged chamber (120b) and one end of the upper vortex submerged chamber (120a) is sunk marine structure 100 having a vortex submerged chamber, characterized in that connected by a connecting passage (102) . As a method of construction of the sunken marine structure 100 of any one of claims 1 to 4,
A salvage step of lifting the sinking offshore structure (100) to an installation position of the ocean while the inlet (103) is closed;
The sinking step of sinking the sinking marine structure 100 by opening the inlet 103 to allow water to flow into the vortex submerged chamber 120;
Construction method of the sunk marine structure comprising a. The method of claim 5,
The sinking step
Repeating the closing and opening of the outlet 101, so that the air of the swirl submerged chamber 120 is slowly discharged, the sinking speed adjustment step of adjusting the sinking speed of the sinking marine structure 100;
Construction method of the sunken marine structure further comprises. The method of claim 5,
The sinking step
Sinking speed adjusting step of adjusting the sinking speed of the sinking marine structure 100 by slowly inflowing air through the outlet 101 so that the volume of air in the swirl submerged chamber 120 is slowly reduced; To
Construction method of the sunken marine structure further comprises.

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