KR101048492B1 - Floating offshore structure - Google Patents

Abstract

PURPOSE: A floating marine structure device is provided to keep a marine structure balanced by blocking the flow of ballast water to the other side ballast tank at an angle over a stable angle. CONSTITUTION: A floating marine structure device comprises a marine structure(10), ballast tanks(30), a pipeline(40), a cone stopper(50), a floating ball, and a mooring line. The marine structure is in the shape of a trigonal pyramid and installed with a lighting device or structure to act as a light tower or milestone. The ballast tank is coupled to each corner of the bottom of the marine structure and filled with ballast water(31) to lower the center of mass of the marine structure. The pipeline is hollow and coupled to the ballast tanks on both ends. The cone stopper is installed in a fitting groove formed in the center of the pipeline and moves from side to side according to the movement of the marine structure in order to control the flow of ballast tank between the two ballast tanks. The floating ball is installed in the upper side of the ballast tank and coupled with each corner of the structure to provide buoyancy. The mooring line is fixed to the bottom of the marine structure and put in the sea in order to anchor the marine structure.

Description

Floating offshore structure

The present invention relates to a floating marine structure device, and more particularly, in a floating marine structure having a buoyancy body having a buoyancy of a predetermined size submerged in water, made of a triangular pyramid and the lighting or structure on the top The ballast tank and the ballast tank is installed in the marine structure that can be used as a lighthouse or a milestone, coupled to each corner of the lower end of the marine structure, the ballast water is filled in a predetermined ballast water to lower the center of gravity of the marine structure, The inner side is hollow so that the two ends are coupled to the ballast tanks, respectively, and a pipe having a rhombus-shaped locking groove is formed in the center, and installed in the locking groove and formed in a rhombus shape and left and right according to the movement of the marine structure. Ballast tank of one ballast tank A cone stopper for intermittently moving the other side, a floating ball installed at an upper side of the ballast tank, coupled to each corner of the offshore structure, and providing buoyancy to the offshore structure, and fixed to a lower portion of the offshore structure. The present invention relates to a floating marine structure device comprising a mooring line introduced into the sea so that it can be anchored.

As the development of marine resources increases, many types of offshore structures besides ships are being installed at sea. Most offshore structures are floating in the sea by floating bodies. Since these floating marine structures are floating in the sea, they are shaken under the influence of waves, wind, and tides, so it is important to minimize these movements in order to maximize the efficiency of floating drilling / production facilities.

Recently, as a floating structure for production, structures such as "spar" and "buoys" are considerably larger in height than the diameter and structures larger in diameter than the height suggested by "SEVAN". It is becoming. These structures are not only cylindrical but also consist of squares, octagons and other forms, and aim to achieve stability by a lower center of gravity than the buoyancy center of the submerged structure.

Floating offshore structures, such as "spars" and "buoys", whose heights are considerably larger than their diameters, have the ideal shape with a small water surface area in order to minimize forward, backward, left and right fluctuations. Implemented. However, such floating marine structures have a long shape, which is disadvantageous in manufacturing, transportation and installation, and also does not have a storage function.

On the other hand, in order to complement the storage function of the spar and buoys, a floating marine structure having a diameter larger than its height (hereinafter referred to as a half-shaped marine structure) has been proposed. Such semi-shouldered offshore structures have a cylindrical shape, which tends to greatly reduce rolling and pitching.

However, in such a semi-offshore structure, the diameter of the cylindrical structure increases as the storage capacity increases in the vertical shaking, thereby increasing the repair area.

As a result, the intrinsic fluctuations of vertical fluctuations of the sewage-type marine structures are shortened, and tend to be close to the wave periods under extreme wave conditions having a repetitive period of 100 years or more caused by typhoons or extreme weather conditions. As such, when the intrinsic period of the semi-shoulder offshore structure approaches the wave period, a resonance phenomenon occurs, causing an excessive vertical swing motion.

In addition, an excessive mooring system is required to fix the sew-type offshore structure to prevent such excessive up-and-down rocking motion, and if the up-and-down rocking motion exceeds the design value of the mooring system, the structure may become inoperable. It became.

The present invention has been invented to solve the above problems, the shape of the floating offshore structure, through the floating ball and ballast tank and cone stopper coupled to the offshore structure to minimize the resistance to external forces and maximize the resilience The object is to provide a floating offshore structure device.

In order to solve the above problems, the present invention is a floating marine structure having a buoyancy body having a buoyancy of a predetermined size submerged in water, made of a triangular pyramid and installed a light or a structure on the lighthouse or milestone Marine structure that can be used as, and the ballast tank is coupled to each corner of the lower end of the marine structure, the ballast tank is filled with a predetermined ballast water to lower the center of gravity of the marine structure, and the ballast tank is in communication with each other Is empty and both ends are coupled to the ballast tank, respectively, and the pipe is formed with a rhombus-shaped locking groove in the center, and is installed in the locking groove and is made of a rhombus shape and moves from side to side according to the movement of the marine structure. Ballast water of one ballast tank moves to the other side while caught Cone stopper to intervene, the ballast tank is installed on the upper side of the floating ball coupled to each edge of the offshore structure and buoyant to the offshore structure and fixed to the bottom of the offshore structure can anchor the offshore structure It is characterized in that it comprises a mooring line to be put into the sea.

In addition, the floating ball is characterized in that coupled to the marine structure spaced apart by a predetermined distance in order to maximize the resilience of the offshore structure.

In addition, the inside of the cone stopper is characterized in that the ballast water is filled so as to be moved over the stable angle to move quickly to the locking groove to block the movement of the ballast water when the offshore structure is tilted.

Floating offshore structure device according to the present invention made as described above can have a triangular pyramid shape to minimize the resistance to external forces such as water flow, the conduction through the cone stopper installed inside the pipe has been above the stable angle When the ballast water contained in one ballast tank is prevented from moving to the other ballast tank through the pipe, it is possible to maintain the balance of the marine structure.The floating ball is installed so as to be spaced apart from the marine structure by a predetermined distance. The center of gravity is placed between the floating ball and the ballast tank, but close to the ballast tank side, there is an effect that can maximize the resilience of the offshore structure.

In addition, the ballast tank installed in the lower portion of the offshore structure is arranged in the shape of a triangle to minimize the influence of the sea current has an easier effect to maintain the balance of the offshore structure.

1 is an illustration of a floating offshore structure device in accordance with the present invention.
Figure 2 is a schematic diagram showing the installation of the ballast tank of the floating offshore structure apparatus according to the present invention.
3 to 5 is an exemplary view for showing the operating state of the cone stopper of the floating offshore structure apparatus according to the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, It is to be understood that the present invention may be implemented as illustrated embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and such modified embodiments fall within the technical scope of the present invention. In addition, in order to help the understanding of the embodiments described below, in the reference numerals described in the accompanying drawings, among the components that will perform the same function in each embodiment, related components are denoted by the same or extension numbers.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the floating marine structure device related to the embodiment of the present invention.

1 is an exemplary view of a floating offshore structure apparatus according to the present invention, Figure 2 is a schematic diagram showing the installation state of the ballast tank of the floating offshore structure apparatus according to the present invention, Figures 3 to 5 are in the present invention Exemplary diagram for showing the operating state of the cone stopper of the floating offshore structural apparatus according to.

The present invention is a floating marine structure having a buoyancy body having a buoyancy of a predetermined size submerged in water, made of a triangular pyramid and can be used as a lighthouse or a milestone by installing a light or structure on the top (10 And a ballast tank 30 coupled to each corner of the lower end of the offshore structure, and filled with a predetermined ballast water to lower the center of gravity of the offshore structure 10, and the ballast tank 30. The interior is empty so as to communicate with each other, both ends are coupled to the ballast tank, respectively, the pipe 40 is formed with a rhombus-shaped locking groove 41 in the center, and is installed in the locking groove 41 and made of a rhombus shape The ballast water of one ballast tank is moved to the other side while being caught by the locking groove 41 by moving left and right according to the movement of the marine structure. The cone stopper 50 and the floating ball 20 is installed on the upper side of the ballast tank and coupled to each corner of the offshore structure and provide a buoyancy to the offshore structure, and are fixed to the bottom of the offshore structure. It relates to a floating marine structure device (1) characterized in that it comprises a mooring line (60) to be moored to the sea.

The marine structure 10 is formed in the shape of a triangular pyramid, to be used as a structure such as a milestone or meteorological observation tower to serve as a lighthouse or to guide the way by installing a light on the upper, such as to form a triangular pyramid By minimizing the resistance of water flow, less resistance to external forces and maximum resilience are effective.

In addition, the floating offshore structure apparatus 1 according to the present invention is coupled to each corner of the lower end of the offshore structure, the predetermined ballast water 31 is filled therein so as to lower the center of gravity of the offshore structure 10 This includes the ballast tank (30).

Referring to FIG. 2, the ballast tanks 30 are respectively coupled to the lower edges of the offshore structure 10, and ballast water 31 filled in the ballast tanks 30 may move from one side to the other. It is connected to the pipe 40 so that.

Both ends of the pipe 40 are coupled to the ballast tanks 30, respectively, and the inside of the pipe 40 is opened so that the one ballast tank and the other ballast tank can communicate with each other, and a locking groove 41 having a rhombus shape is formed in the center thereof.

The ballast water 31 filled in the ballast tank 30 lowers the center of gravity of the marine structure 10 so that the lower portion of the marine structure 10 is submerged below the surface by a predetermined height, and the marine structure ( When 10) is inverted due to external force, the ballast tank moves from one ballast tank to the other ballast tank to maintain balance.

In addition, the floating offshore structure apparatus 1 according to the present invention comprises a cone stopper 50 for controlling the movement of the ballast water 31 in the ballast tank (30).

The cone stopper 50 is installed in a locking groove 41 formed in the pipe 40, and has a rhombus shape corresponding to the locking groove 41.

When the offshore structure 10 is inclined by an external force, the ballast water 31 of one ballast tank is introduced into the ballast tank on the inclined side through the pipe 40, and the offshore structure 10 is above a stable angle. When the inclined cone stopper 50 is inserted into the locking groove 41 to block the movement of the ballast water (31).

In addition, a predetermined ballast water 51 is filled in the cone stopper 50, and the ballast water 51 filled in the cone stopper has a cone stopper when the marine structure 10 is inclined at a stable angle or more. 50 to quickly move to the locking groove 41 serves to prevent the marine structure 10 is overturned.

Referring to FIG. 3, when the offshore structure 10 maintains an equilibrium state, the cone stopper 50 is positioned at the center of the catching groove 41. As shown in FIG. 4, the offshore structure 10 is θ1 ° due to external force. If it is inclined as much as the cone stopper 50 is moved in the inclined direction, as shown in Figure 5 when the offshore structure is inclined by θ2 ° more than the stable angle, the cone stopper 50 is caught in the locking groove 41 while the pipe ( 40 is completely blocked to prevent the ballast water 33 from entering the ballast tank located in the inclined direction.

In addition, the mooring line 60 is fixed to the lower portion of the marine structure 10, and a heavy object such as an anchor is coupled to the end of the mooring line to anchor the marine structure to the location where the marine structure is installed, thereby further reducing shaking.

In addition, the floating offshore structure apparatus 1 according to the present invention is installed on the upper side of the ballast tank 30, and further comprises a floating ball 20 coupled to each corner of the offshore structure.

The floating ball 20 serves to provide buoyancy so that the marine structure 10 does not sink into the water, and is coupled to the marine structure 10 by a predetermined distance so that the floating ball 20 is viewed from one side. ) And the ballast tank 30 are arranged in the shape of an inverted trapezoid, each floating ball 20 is connected to each other through a connecting body, and the floating ball 20 and the ballast tank 30 are also coupled through the connecting marine The structure 10 has the effect of minimizing the resistance received from the water flow and maximizing the restoring force.

1: Floating offshore structure device
10: offshore structure 20: floating ball
30: ballast tank 31: ballast water
40: piping 41: locking groove
50: cone stopper 51: ballast water
60: mooring line

Claims (3)

A floating marine structure having a buoyancy body submerged in water and having a predetermined buoyancy,
It is made in the shape of a triangular pyramid and the marine structure can be used as a lighthouse or a milestone by installing lights or structures on the top;
A ballast tank coupled to each corner of a lower end of the offshore structure and filled with a predetermined ballast water to lower the center of gravity of the offshore structure;
A pipe in which an interior is empty so that the ballast tanks communicate with each other, and both ends of the ballast tank are coupled to the ballast tanks, respectively, and a locking groove having a rhombus shape is formed in the center;
A cone stopper installed in the locking groove and formed in a rhombus shape and intermittently moving from side to side in accordance with the movement of the marine structure to be caught in the locking groove to move the ballast water of one ballast tank to the other side;
A floating ball installed at an upper side of the ballast tank and coupled to each corner of the offshore structure to provide buoyancy to the offshore structure; And
A mooring line which is fixed to a lower portion of the marine structure and is introduced into the sea so that the marine structure can be anchored;
Floating offshore structure device, characterized in that comprises a. The method of claim 1,
The floating ball is a floating marine structure device, characterized in that coupled to the marine structure spaced apart by a predetermined distance to maximize the resilience of the offshore structure. The method of claim 1,
Floating offshore structure device is characterized in that the inside of the cone stopper is filled with a predetermined ballast water so as to be moved beyond the stable angle to move quickly to the locking groove when the offshore structure is tilted to block the movement of the ballast water.

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