KR101162441B1 - Floating Structure - Google Patents

Abstract

The present invention relates to a structure for reducing the positive pressure of a floating structure, and more particularly, to mooring a structure by effectively reducing the pressure in the sea surface direction, ie, the positive pressure, acting on the floating structure by seawater flowing under the floating structure. A positive pressure reducing structure of a floating structure that can effectively reduce the design load of the device and structure.
The present invention provides a buoyant structure installed on the sea, a fixed anchor buried beneath the sea bottom or positioned near the sea bottom and fixed by position, one end is connected to the structure and the other end is fixed An inlet provided in a floating structure including a mooring means connected to an anchor to prevent the structure from moving vertically by buoyancy or horizontally by blue, and an inlet provided at a lower side of the structure, and the sofa It provides a positive pressure reducing structure of the floating structure comprising an outlet provided in the side or the upper side of the structure and the connecting hole which connects the inlet and the outlet with each other and is a space portion through which seawater can pass.
According to the present invention, by effectively reducing the positive pressure acting on the structure of the floating structure to reduce the load on the structure and the mooring system (mooring means + fixed anchor), and thus the floating structure that can reduce the cost and air required for construction It is possible to provide a positive pressure reducing structure of. In addition, according to the present invention, while effectively reducing the positive pressure applied to the structure and at the same time by changing the movement path of the seawater generating a positive pressure to change the movement path seawater can effectively reduce the wave energy by disturbing the flow of other seawater There are also advantages.

Description

Floating Structure

The present invention relates to a structure for reducing the positive pressure of a floating structure, and more particularly, to mooring a structure by effectively reducing the pressure in the sea surface direction, ie, the positive pressure, acting on the floating structure by seawater flowing under the floating structure. A positive pressure reducing structure of a floating structure that can effectively reduce the design load of the device and structure.

Floating structures are floating structures at sea, usually made of steel or concrete. Floating structures are subjected to ocean currents or waves, and these structures are considered to design structures and mooring systems.

Floating structures can be used for various purposes, such as storage facilities, structures, industrial facilities, etc. It can be divided into the case where the upper part of the structure is exposed above the water and the upper part is submerged under the water surface.

When the floating structure is installed on the sea, it blocks the original current or the flow of waves, and the load is applied to the structure in various directions. In particular, in the present invention, to reduce the positive pressure generated in the lower portion of the floating structure.

1 shows an example of a conventional floating structure. As shown in FIG. 1, the floating structure generally consists of a structure 1, a mooring means 2 and a fixed anchor 3. The structure may be a sofa block used in a floating breakwater, a drilling facility for petroleum or natural gas, or a docking facility.

The structure has a buoyancy in a manner such as having a hollow portion therein, and may be made of a steel structure or reinforced concrete structure. The fixed anchor 3 may be buried under the sea bottom to be fixed or installed near the sea bottom to be fixed by its own weight. The fixed anchor shown in FIG. 1 is embedded below the sea bottom.

In the case of the conventional floating structure, the seawater moves in the direction of the arrow indicated by the dotted line in FIG. 1, and a part of the seawater is blocked by the opposite surface of the structure) and flows down the structure. In the portion indicated by a in FIG. 1, a pressure for pushing the structure in the sea level direction (the arrow direction indicated by b in FIG. 1) is acted as positive pressure. In order to support such a positive pressure, the design load of the mooring system (mooring means + fixed anchor) increases and the moment acting on the structure increases, which all leads to an increase in construction cost.

The present invention was derived to solve the problems described in the prior art, the problem to be solved by the present invention is to effectively reduce the positive pressure acting on the structure of the floating structure to act on the structure and mooring system (mooring means + fixed anchor) It is to provide a positive pressure reducing structure of a floating structure that can reduce the load, and thus reduce the cost and air required for construction.

The present invention as a solution to the above problem,

A buoyant structure installed at sea,

A fixed anchor buried beneath the sea bottom or positioned near the sea bottom to be fixed by its own weight;

One end is connected to the structure and the other end is connected to the fixed anchor is provided in the floating structure comprising a mooring means for preventing the structure from moving up and down by buoyancy or horizontally by blue,

Floating type, characterized in that it comprises an inlet provided in the lower side of the structure, the outlet provided in the side or the upper side of the sofa structure and the connection hole which connects the inlet and the outlet to each other and the seawater can pass through Provide a positive pressure reducing structure of the structure.

The connection hole may be manufactured to gradually reduce the passage area from the inlet to the outlet.

The connection hole may be manufactured to gradually increase the passage area from the inlet to the outlet.

It is preferable that the connection hole is branched such that one inlet and two or more outlets are connected to each other.

On the other hand, it is also preferable that the connection hole is branched so that two or more inlets and one outlet are connected to each other.

On the other hand, the two or more inlets and two or more outlets may be manufactured so that the connection hole is connected to each other.

According to the present invention, by effectively reducing the positive pressure acting on the structure of the floating structure to reduce the load on the structure and the mooring system (mooring means + fixed anchor), and thus the floating structure that can reduce the cost and air required for construction It is possible to provide a positive pressure reducing structure of. In addition, according to the present invention, while effectively reducing the positive pressure applied to the structure and at the same time by changing the movement path of the seawater generating a positive pressure to change the movement path seawater can effectively reduce the wave energy by disturbing the flow of other seawater There are also advantages.

1 is a view for explaining the positive pressure acting on the floating structure.
2 is a cross-sectional perspective view of a structure provided with a positive pressure reducing structure of a floating structure according to an embodiment of the present invention.
3 is a view for explaining a positive pressure reduction by the positive pressure reducing structure of the floating structure shown in FIG.
5 is a cross-sectional perspective view of a structure provided with a positive pressure reducing structure of a floating structure according to an embodiment of the present invention.
5 is a view for explaining a positive pressure reduction by the positive pressure reducing structure of the floating structure shown in FIG.
Figure 6 is a simplified view of the positive pressure reduction structure of the floating structure according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings to provide specific contents for carrying out the present invention.

2 is a cross-sectional perspective view of a structure provided with a positive pressure reducing structure of the floating structure according to an embodiment of the present invention, Figure 3 is a positive pressure reduction by the positive pressure reducing structure of the floating structure shown in FIG. It is a figure for demonstrating.

First, the positive pressure reducing structure of the floating structure according to the present embodiment will be described with reference to FIG. 2.

The positive pressure reducing structure 10 of the floating structure according to the present embodiment may be used for various floating structures such as structures, storage facilities, and industrial facilities.

As described in the prior art, the floating structure is composed of a structure 1, a fixed anchor 3 and a mooring means 2. The structure 1 has a buoyancy and dissipates energy due to blue, 3) is buried or fixed below the sea bottom or positioned near the sea bottom and fixed by self weight, and the mooring means 2 has one end connected to the structure 1 and the other end of the fixed anchor 3 ) To prevent the structure from being excessively moved by a load due to currents or waves. The mooring means (2) is a method using a flexible cable or chain, and a method using a rigid structure is possible. As a mooring means, it is possible to use a rigid structure such as a jacket structure, a monopile, or a pile pile.

The positive pressure reduction structure 10 of the floating structure is composed of an inlet 11, an outlet 12 and a connection hole 13. The portion labeled 14 in FIG. 2 is a hollow portion that provides buoyancy for floating the structure 1 in water.

The inlet 11 is provided under the structure 1, the outlet 12 is the side of the structure 1, more specifically, the structure 1 of the wave to reduce the wave energy It is provided on the side surface facing the frequency direction.

The connecting hole 13 connects the inlet 11 and the outlet 12, and is a space for passing the seawater so that the seawater introduced through the inlet 11 can be discharged through the outlet 12. .

In this embodiment, the connection hole 13 is configured to reduce the passage area from the inlet 11 toward the outlet 12, so that the seawater flowing through the inlet 11 toward the outlet 12 moves toward the outlet 12. It is configured to increase, and in the process of moving from the inlet 11 to the outlet 12, a certain level of kinetic energy is lost by friction, which dissipates some of the energy.

The connection hole 13 may be configured to connect one inlet 11 and one outlet 12 as shown in FIG. 2, and may connect one inlet 11 and two or more outlets 12. Branched forms are also possible. The connecting hole 13 in the upper part of the connecting hole 13 shown in FIG. 2 connects one inlet 11 and two outlets 12 to the outlet 12 connected to one inlet 11. The number of may increase further depending on the design.

The inlet 11, the outlet 12, and the connection hole 13 are arranged along the longitudinal direction of the structure 1, only the outlets 12 are shown in FIG. 2.

Hereinafter, with reference to Figure 3 will be described the function, operation and effect of each configuration of the above-described embodiment.

Marked with a long arrow on the drawing is the flow of sea water. A portion of the seawater that has entered the structure 1 is directed downward of the structure 1 as described in FIG.

According to the present invention, as shown in FIG. 3, a portion of seawater moving to the lower part of the structure 1 flows through the inlet 11 provided at the lower side of the structure 1 as indicated by the arrow, thereby acting on the structure 1. It is possible to reduce the positive pressure. At this time, the seawater introduced through the inlet 11 is discharged through the outlet 12 through the connecting hole 13, the discharged seawater is in contact with the seawater incident toward the structure (1), through the outlet 12 As the discharge direction of the discharged seawater and the seawater incident toward the structure 1 are different from each other, disturbance occurs, so that an effect of reducing the energy of the blue wave toward the structure 1 can be expected.

Hereinafter, the positive pressure reducing structure of the floating structure according to another embodiment of the present invention will be described with reference to FIGS. 4 and 5.

The positive pressure reducing structure of the floating structure according to the present embodiment is also used in the floating structure consisting of the structure 1, the mooring means 2 and the fixed anchor (3).

As shown in FIG. 4, the positive pressure reducing structure of the floating structure according to the present exemplary embodiment includes an inlet 11, an outlet 12, and a connection hole 13 as in the previous embodiment.

The inlet 11 is provided on the lower side of the structure 1, that is, the surface located in the sea bottom direction, the outlet 12 is provided on the upper side of the structure 1, that is, the surface located in the sea surface direction.

The connection hole 13 is a space portion for connecting the inlet 11 and the outlet 12 to each other to move the sea water.

In this embodiment, the connecting hole 13 is configured to gradually decrease the passage area from the inlet 11 toward the outlet 12 so that the speed of the seawater introduced into the inlet 11 increases toward the outlet 12. .

The connection hole 13 is branched to connect two inlets 11 and two outlets 12 to each other, and the number of inlets and outlets to be connected may increase according to design.

Hereinafter, with reference to Figure 5 will be described the function, operation and effect of the positive pressure reducing structure of the floating structure according to this embodiment.

When a part of seawater entering the structure 1 moves to the lower part of the structure 1, the water pressure of the lower part of the structure 1 becomes relatively high, and the positive pressure which presses the structure 1 toward the sea surface direction arises. Is introduced through the inlet 11 provided in the lower portion of the structure 1 to reduce the positive pressure acting on the structure (1). This seawater flow can be seen in the seawater flow indicated by the arrow in FIG. At this time, the seawater introduced through any one of the inlet 11 of the two inlet 11 is discharged through one of the outlet 12 of the two through the branched connection hole 13 can move more freely To secure the path.

In the above description of the embodiments configured to reduce the passage cross-sectional area of the connection hole toward the inlet side toward the outlet, as shown in Figure 6 can be configured to increase the cross-sectional area of the connection hole toward the outlet from the inlet side. In addition, as shown in FIG. 6, a part of the outlet hole may be configured to be located at the upper side of the structure and at a part of the side.

The present invention has been described in detail above by describing preferred embodiments of the present invention, but the technical idea of the present invention is not limited to the described embodiments, and the scope does not deviate from the technical idea of the present invention. It can be embodied as a positive pressure reducing structure of various types of floating structures therein.

1: structure
2: mooring means
3: fixed anchor
10: structure for reducing the positive pressure of the floating structure 11: inlet
12: outlet 13: connection hole

Claims (6)

A buoyant structure installed at sea,
A fixed anchor buried beneath the sea bottom or positioned near the sea bottom to be fixed by its own weight;
One end is connected to the structure and the other end is connected to the fixed anchor is provided in the floating structure comprising a mooring means for preventing the structure from moving up and down by buoyancy or horizontally by blue,
An inlet provided in the lower side of the structure, an outlet provided in the side or the upper side of the structure and a connection hole which connects the inlet and the outlet to each other and is a space portion through which seawater can pass;
The connecting hole is a floating structure, characterized in that the passage area is reduced from the inlet to the outlet.
delete delete The method of claim 1,
Floating structure characterized in that the connecting hole is branched so that one inlet and two or more outlets are connected to each other. The method of claim 1,
Floating structure characterized in that the connecting hole is branched so that two or more inlets and one outlet are connected to each other. The method of claim 1,
Floating structure characterized in that the connecting hole is branched so that two or more inlets and two or more outlets are connected to each other.

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