KR102083576B1 - Mooring apparatus for floating offshore structure - Google Patents

Abstract

The present invention, the longitudinal end is connected to the floating facility floating on the water surface, and the other end in the longitudinal direction is installed on the mooring rope to be disposed between the floating facility and the seabed, the mooring rope is separated from the mooring rope A plurality of elastic connectors, each of which is arranged on the upper side and the lower side of the elastic connecting body to maintain the tension of the mooring rope while controlling the distance of the separated mooring rope through elastic force that is compressed or expanded according to the movement of the floating facility. It is installed on the mooring rope as much as possible, and the elastic connector is buoyantly supported in the water to prevent the elastic connector from being compressed by its own weight, so that the tension of the mooring rope by the elastic connector is stably maintained when the floating facility moves. It provides a mooring device for water floating facilities comprising a plurality of underwater buoyancy.

Description

Mooring apparatus for floating offshore structure

The present invention relates to a mooring device for an aqueous floating facility to keep the floating facility floating on the water surface in a stable floating state.

In general, offshore installations can be moored while floating at sea, and there are various types of work in the moored state, such as power generation, fossil fuel harvesting, production, stagnation, storage and / or unloading. In particular, marine floating facilities are classified into various types according to their functions, structures, mooring methods, for example, semi-submersibe (TEM), tensioned leg platform (TLP), SPAR, floating, production, storage and offloading. ), There are many types of offshore installations called FSRUs or drilling rigs.

On the other hand, interest in offshore floating facilities for power generation, such as wind and solar power, has recently increased significantly for various reasons, such as site cost, limitation of installation size, and difficulty of neighboring residents.

Such a floating facility equipped with a power generation facility is provided with a mooring device to stably float on the water surface to increase power generation efficiency. Here, the mooring device is connected to the anchor and the floating facility with a rope while fixing the anchor to the floor below the surface of the water, but the mooring device using such a rope is a floating facility by the change of fluid force or water level such as wind load and waves applied to the floating facility. There is a problem inherent in the risk of failure while the stress is concentrated in the rope end connected to.

Such a technology related to a floating facility having a previously filed mooring device is presented in Korean Patent Publication No. 2009-0028972 (2009.03.20).

It is an object of the present invention to provide a mooring device for a water floating facility that maintains the floating facility in a stable mooring state even when a fluid force such as wind load and waves is applied or the water level is changed.

The present invention, the longitudinal end is connected to the floating facility floating on the water surface, and the other end in the longitudinal direction is installed on the mooring rope to be disposed between the floating facility and the seabed, the mooring rope is separated from the mooring rope to be separated A plurality of elastic connectors for maintaining the tension of the mooring ropes while adjusting the spacing of the mooring ropes by the elastic force that is compressed or expanded according to the movement of the floating facility, and the upper and lower sides of the elastic connectors. It is installed on the mooring rope so as to be arranged respectively, and the elastic connector is buoyantly supported in the water to prevent the elastic connector from being compressed by its own weight, thereby stably maintaining the tension of the mooring rope by the elastic connector when the floating facility moves. Provided is a mooring device for an aquatic floating facility comprising a plurality of underwater buoyancy bodies to be maintained.

In addition, the elastic connector, a pair of first connecting plates spaced apart from each other, the first connecting portion consisting of a first connecting bar connecting between the pair of first connecting plates, spaced apart from each other A second connecting portion comprising a pair of second connecting plates and a second connecting bar connecting between the pair of second connecting plates, one of the pair of first connecting plates being connected between the pair of second connecting plates A first connection slidably connected to the second connection bar, one of the pair of second connection plates slidably connected to the first connection bar between the pair of first connection plates, and a first connection slidably connected to the second connection bar It may include a spring provided between the plate and the second connecting plate slidably connected to the first connecting bar to provide elastic force to the first connecting portion and the second connecting portion.

In addition, the plurality of underwater buoyancy bodies may be arranged such that the buoyancy of the underwater buoyancy body increases in order from the underwater to the seabed direction.

In the mooring apparatus for water floating facilities according to the present invention, a plurality of elastic connecting bodies are sequentially installed to be spaced apart from each other in a mooring rope connecting the floating facilities and the seabed, and the underwater buoyant body is positioned above and below the elastic connecting body. Install the connection. At this time, the underwater buoyant body supports the elastic connector with buoyancy in the water, thereby preventing the compression of the spring by the weight of the elastic connector, thereby maintaining the tension of the mooring rope according to the level change of the floating facility while maintaining the stability of the floating facility. Keep mooring

1 is a cross-sectional view showing the installation state of the mooring device for water floating facilities according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the elastic connector illustrated in FIG. 1. FIG.
3 is a cross-sectional view of a structure according to another embodiment of the elastic connector shown in FIG. 1.

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

1 is a cross-sectional view showing the installation state of the mooring device for water floating facilities according to an embodiment of the present invention. Referring to FIG. 1, the mooring apparatus for a water floating facility of an embodiment includes a mooring rope 100, an elastic connecting body 200, and an underwater buoyancy body 300. Here, the floating facility 10 is a structure that is arranged to float on the water surface, preferably having a rectangular planar shape, but is not limited to this in a variety of structures depending on the facilities to be installed on the top in a state arranged to float on the water surface. Of course, it can be designed.

The mooring rope 100 is a wire member for connecting the floating facility 10 to the seabed. That is, the mooring rope 100 supports to float in a constant position without floating the floating facility 10 arranged to float on the water surface. This, the longitudinal end of the mooring rope 100 is connected to one side of the floating facility 10, the other end of the longitudinal direction of the mooring rope 100 is installed to be fixed to the seabed. Here, the other end in the longitudinal direction of the mooring rope 100 may be provided with a sinker 110 to be fixed to the seabed.

The elastic connector 200 is a portion for maintaining the tension of the mooring rope 100 by the elastic force. Such, the elastic connector 200 is installed a plurality of spaced apart from each other in the middle portion of the mooring rope 100 to be disposed between the floating facility 10 and the seabed. At this time, the elastic connector 200 is connected to the mooring rope 100 in a spaced apart state and by pulling the mooring rope 100 of the two sides separated by the elastic force to increase the water level to increase the floating facility (10) Allow the gap between the separated mooring ropes 100 to be extended to allow the entire length to elongate, and when the water level is lowered, the floating facility 10 is lowered to narrow the separation between the separated mooring ropes 100 so that the entire length is shrunk. It keeps tension constant. 2, the elastic connector 200 includes a first connector 210, a second connector 220, and a spring 230. In addition, the first connector 210 and the second connector 220 are symmetrical with each other and are coupled to each other so as to slide forward and backward in a mutually overlapping form to enable expansion and contraction according to the size of the overlapping sections. In addition, the spring 230 is installed in the region of the overlapped portion between the first connecting portion 210 and the second connecting portion 220 to provide an elastic force in a compressed state during both stretching and contracting.

The first connection part 210 is a first connection bar that connects and supports a pair of first connection plates 211a and 211b spaced apart from each other and a pair of first connection plates 211a and 211b facing each other. 212. Here, one of the pair of first connecting plates 211a and 211b, that is, the first connecting plate 211b disposed on one side is between the second connecting plates 221a and 221b of the second connecting portion 220 which will be described later. In the second connecting bar 222 is slidably connected to the insertion state. In addition, a first connecting ring 213 for connecting the mooring rope 100 is formed in the first connecting plate 211a disposed at the other side.

The second connection part 220 is a second connection bar that connects and supports a pair of second connection plates 221a and 221b spaced apart from each other in a state facing each other, and a pair of second connection plates 221a and 221b. 222. Here, one of the pair of second connection plates 221a and 221b, that is, the second connection plate 221a disposed on the other side may be formed between the first connection plates 211a and 211b of the first connection portion 210. The connection bar 212 is slidably connected to the inserted state. In addition, a second connecting ring 223 for connecting the mooring rope 100 is formed in the second connecting plate 221b disposed at one side.

The spring 230 is slidably connected to the first connecting plate 211b on one side and slidably connected to the second connecting bar 222 and the second connecting plate 221a on the other side. Install between). Here, the spring 230 is the first connecting bar 212 and the second connection so as to be guided and supported by the first connecting bar 212 and the second connecting bar 222 to prevent the deflection during compression. It is installed to be inserted while wrapping the outside of the bar 222. In this case, referring to FIG. 3, the spring 230 may be arranged to sequentially insert the plurality of spring members 230a and 230b to the outside of the first connection bar 212 and the second connection bar 222. As such, when the spring 230 is composed of a plurality of spring members 230a and 230b, it is possible to finely adjust the tension of the spring 230, in which case the plurality of spring members may have different tensions. to be. Here, the spring 230 is shown as consisting of two spring members (230a, 230b), but is not limited to this may be configured to be configured to connect three or more sequentially.

The underwater buoyancy body 300 supports the elastic connecting body 200 as buoyancy in the water, so that the movement of the floating facility 10, that is, the compression of the elastic connector 200 during the rise or fall of the floating facility (10) And while the expansion is made to be stable to maintain the tension of the mooring rope 100 by the elastic connecting member 200. That is, the underwater buoyancy body 300 is an elastic connector located on the upper side by the weight of the elastic connector 200 in a state in which the plurality of elastic connector 200 is installed to be connected to the mooring rope 100 to be spaced apart from each other. The spring 230 of the 200 serves to support each elastic connecting member 200 with buoyancy to prevent the tension of the mooring rope 100 from loosening while being compressed.

The underwater buoyancy body 300 is provided with a plurality of mooring ropes 100 to be disposed on the upper and lower sides of each elastic connecting member 300 so as to stably support each elastic connecting member 200 through buoyancy. Install to be connected.

In addition, the underwater buoyancy body 300 in the seafloor direction under water to stably prevent the compression of the spring 230 of the elastic connector 200 located on the upper side by the weight of the elastic connector 200. Increasingly, the buoyancy can be arranged in order to be larger.

The underwater buoyancy body 300 may be a block structure made of a material having buoyancy in water or may be formed in a tubular structure filled with air therein.

Referring to the operation of the mooring device for floating water facilities according to an embodiment configured as described above are as follows.

First, when the position of the floating facility 10 is not normally changed, that is, when the floating facility 10 in the initial state without changing the water level, the elastic connector 200 is arranged in a row in the middle of the mooring rope 100. It is installed to connect the mooring rope 100 in a spaced apart state and continuously pulls the mooring rope 100 on both sides separated by the elastic force. At this time, while maintaining the state in which the elastic connector 200 is supported in the water through the buoyancy of the underwater buoyancy body 300, the spring 300 is not compressed by the self-weight of the elastic connector 200.

As such, since the spring 300 is not compressed by its own weight, the maximum compression length of the spring 230 is maximized so that the space between the separated mooring ropes 100 is maximized when the floating facility 10 rises as the water level increases. Allowing to extend the length, and the water level is lowered when the floating facility 10 is lowered to allow the maximum expansion length of the spring 230 to narrow the separation between the separated mooring rope 100, the mooring rope while contracting the length The tension of the 100 is kept in a stable state continuously.

As described above, the mooring apparatus for water floating facilities according to an embodiment, the plurality of elastic connecting members 200 are sequentially connected to the mooring rope 100 connected between the floating facility 10 and the seabed to be spaced apart, and elastic The underwater buoyancy body 300 is installed to be installed above and below the connecting body 200. At this time, the underwater buoyancy body 300 supports the elastic connector 200 through buoyancy in the water, thereby preventing the compression of the spring 230 due to the weight of the elastic connector 200, the water level of the floating facility 10 While maintaining the tension of the mooring rope 100 according to the change to maintain a stable mooring state of the floating facility (10).

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: floating facility 100: mooring rope
200: elastic connector 210: first connection portion
220: second connection portion 230: spring
300: underwater buoyancy body

Claims (3)

A mooring rope connected at one end in the longitudinal direction to the floating facility floating on the water surface, and the other end in the longitudinal direction fixed to the seabed;
The mooring rope is installed on the mooring rope so as to be disposed between the floating facility and the seabed, and the mooring rope is connected in a separated space, and the mooring rope is controlled by adjusting the distance of the mooring rope separated by elastic force compressed or expanded according to the movement of the floating facility. A plurality of elastic connector to maintain the tension of; And
It is installed on the mooring rope so as to be respectively disposed above and below the elastic connecting member, and supports the elastic connecting member with buoyancy in the water so as to prevent the elastic connecting member from being compressed by its own weight. Includes; a plurality of underwater buoyancy body to maintain a stable tension of the mooring rope by,
The plurality of underwater buoyancy body, mooring apparatus for a water floating facility disposed so that the buoyancy of the underwater buoyancy body in order to increase in the direction toward the seabed in the water sequentially. The method according to claim 1,
The elastic connector,
A first connection part including a pair of first connection plates spaced apart from each other and a first connection bar connecting the pair of first connection plates to each other;
A second connection part including a pair of second connection plates spaced apart from each other and a second connection bar connecting the pair of second connection plates,
One of the pair of first connecting plates is slidably connected to the second connecting bar between the pair of second connecting plates, and one of the pair of second connecting plates is connected to the first between the pair of first connecting plates. Slidingly connected to the connecting bar,
Floating facility comprising a spring provided between the first connecting plate slidably connected to the second connecting bar and the second connecting plate slidably connected to the first connecting bar, the spring providing elastic force to the first connecting portion and the second connecting bar. Mooring device.






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