KR20240004074A - A mooring system having underwater buoyancy - Google Patents

Abstract

A mooring system using an underwater buoyancy body according to an embodiment of the present invention includes a floating facility 100 floating on the water surface and at least one mooring device 200 for mooring the floating facility 100, The mooring device 200 includes a pair of underwater anchors 210 that are fixedly installed and spaced apart at a preset distance from the floor below the water surface of the floating facility 100; A pair of fixed pulleys (230) made of a preset material and shape, one side of which is respectively coupled and fixed to the pair of underwater anchors (210); A mooring rope (220) in which predetermined portions at both ends are respectively coupled to predetermined portions of the floating facility (100), and a predetermined portion in the middle is provided to be caught by the pair of fixed pulleys (230); It is coupled to a predetermined portion of the mooring rope 220 disposed between the pair of fixed pulleys 230, and is made of a predetermined material and shape, and the overall weight is formed to be lighter than the weight of water corresponding to the same volume. It includes a sieve (250).

Description

Mooring system using underwater buoyancy {A MOORING SYSTEM HAVING UNDERWATER BUOYANCY}

The present invention relates to a mooring system, and more specifically, to a mooring system that can stably moor floating facilities even in areas with severe water level differences by providing an underwater buoyancy body.

In general, a floating water structure (or floating structure) refers to a water rest area, floating pier, barge, water house, water fishing site, loading and unloading facility, bridge, artificial island, water, etc. constructed on the surface of a river, river, or sea coast. It refers to various structures such as solar power generation facilities, floating fish farms, etc.

These floating water structures are equipped with floating facilities floating on the water surface, and these floating facilities are configured to be connected to a plurality of anchors installed on the underwater ground through ropes, so that they are moored, that is, the fixing force of the anchors and the ropes. It is designed to maintain stability against external environmental conditions such as waves, wind, and currents by limiting the movement of floating facilities using tension.

In the case of the conventional mooring system described above, when the water depth at the mooring location decreases, the tension of the rope weakens, which makes it difficult to restrict the horizontal movement of the floating facility, and furthermore, the problem of the rope becoming twisted may occur, so a new solution is needed. This is a situation where a type of mooring system is required.

Republic of Korea Patent Publication No. 10-2016-0000262

The mooring system using an underwater buoyancy body according to an embodiment of the present invention aims to solve the following problems in order to solve the above-mentioned problems.

Because it is compact but has a more efficient structure than before, it provides a mooring system that can moor floating facilities easily and effectively while preventing the mooring rope from becoming twisted.

In addition, it provides a mooring system that can effectively limit the horizontal movement of floating facilities even when the water level drops.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below.

A mooring system using an underwater buoyancy body according to an embodiment of the present invention includes a floating facility 100 floating on the water surface and at least one mooring device 200 for mooring the floating facility 100, The mooring device 200 includes a pair of underwater anchors 210 that are fixedly installed and spaced apart at a preset distance from the bottom of the water surface of the floating facility 100; A pair of fixed pulleys (230) made of a preset material and shape, one side of which is respectively coupled and fixed to the pair of underwater anchors (210); A mooring rope (220) in which predetermined portions of both ends are respectively coupled to predetermined portions of the floating facility (100), and a predetermined portion in the middle is provided to be caught by the pair of fixed pulleys (230); It is coupled to a predetermined portion of the mooring rope 220 disposed between the pair of fixed pulleys 230, and is made of a predetermined material and shape, and the overall weight is formed to be lighter than the weight of water corresponding to the same volume. It includes a sieve (250).

It is preferable to combine certain parts at both ends of the mooring rope 220 together at a certain part located at the same position in the floating facility 100.

The mooring device 200 preferably further includes an anchor connection member 240, one side of which is coupled with the underwater anchor 210, and the other side of which is coupled with the fixed pulley 230.

In a predetermined portion of the mooring rope 220 where the underwater buoyancy body 250 is coupled, the mooring rope 220 is not continuous and is broken, and the predetermined portion of the mooring rope 220 at each end that becomes the broken portion is as described above. It is preferable that each is coupled to a predetermined part of the underwater buoyancy body 250.

The mooring device 200 is a buoyancy body made of a predetermined material and shape with an overall weight lighter than the weight of water corresponding to the same volume, and a predetermined portion of both ends of the mooring rope 220 is formed by the floating facility (100). ) It is preferable to further include a balancing buoyancy body 250 disposed in a portion coupled to a predetermined portion of the.

A predetermined portion of one side of the balanced buoyancy body 250 is coupled to a predetermined portion of the floating facility 100, and a predetermined portion of the other side of the balanced buoyancy body 250 is coupled to predetermined portions of both ends of the mooring rope 220. It is desirable to be

The mooring device 200 is disposed in the area between the floating facility 100 and the fixed pulley 230 among the mooring ropes 220, and can repeat the action of extending and shrinking by a predetermined length by elasticity. It is preferable to further include an elastic connector 221.

The elastic connector 221 is preferably made of an elastic rubber material or has an elastic spring structure.

The floating facility 100 includes one section having a predetermined area, and it is desirable to repeatedly arrange a plurality of mooring devices 200 in a preset direction within the section.

It is preferable that the plurality of mooring devices 200 are arranged on the floating facility 100 so that they are all oriented in the same direction.

It is preferable that the plurality of mooring devices 200 are divided and arranged to face one predetermined direction and another direction perpendicular thereto.

It is preferable that a plurality of mooring devices 200 are arranged to surround a specific location of the compartment.

The mooring system using an underwater buoyancy body according to an embodiment of the present invention can be expected to effectively limit the horizontal movement of floating facilities even when the water level drops by combining the underwater buoyancy body on the mooring rope.

In addition, by providing a flexible anchor connector between the underwater anchor and the fixed pulley, and at the same time, arranging an elastic connector at a certain part of the mooring rope, the sensitivity to the fluidity of the floating facility is further increased with respect to the flow of the water surface such as waves, thereby increasing the floating facility. The effect of ensuring the stability of the mooring of the entire floating facility while flowing as the facility matches better with the flow of the water surface can be expected.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below.

1 to 8 are diagrams briefly illustrating a mooring system using an underwater buoyancy body according to various embodiments of the present invention.
Figures 9 to 12 are diagrams briefly illustrating examples of the arrangement of mooring devices when applying a plurality of mooring devices within a floating facility.

Preferred embodiments according to the present invention will be described in detail with reference to the attached drawings, but identical or similar components will be assigned the same reference numbers regardless of reference numerals, and duplicate descriptions thereof will be omitted.

Additionally, when describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted. In addition, it should be noted that the attached drawings are only intended to facilitate easy understanding of the spirit of the present invention, and should not be construed as limiting the spirit of the present invention by the attached drawings.

Hereinafter, a mooring system using an underwater buoyancy body according to the present invention will be described with reference to FIGS. 1 to 8.

As shown in FIGS. 1 to 8, the mooring system using an underwater buoyancy body according to the present invention includes a floating facility 100 floating on the water surface and at least one mooring device 200 for mooring the floating facility 100. ) includes.

In particular, the mooring device 200 is configured to include an underwater anchor 210, a fixed pulley 230, a mooring rope 220, and an underwater buoyancy body 250.

The underwater anchors 210 are fixedly installed on the floor below the water surface of the floating facility 100, and a pair of underwater anchors 210 are installed spaced apart from each other by a preset distance.

The fixed pulleys 230 are also provided in pairs, and are formed of preset materials and shapes, with one side each coupled to a pair of underwater anchors 210.

The mooring rope 220 is configured so that both ends are coupled to predetermined portions of the floating facility 100, and the middle portion of the mooring rope 220 is arranged to be caught by the pair of fixed pulleys 230 described above.

In particular, as shown in FIGS. 1 and 5, both ends of the mooring rope 220 may be spaced apart and coupled to the bottom of the floating facility 100, but as shown in FIGS. 2 and 6, the mooring rope 220 ) It may also be possible to configure both ends of the floating facility (100) to be coupled to the same position on the bottom of the floating facility (100).

The underwater buoyancy body 250 is coupled to a predetermined portion of the mooring rope 220 disposed between a pair of fixed pulleys 230, and is made of a preset material and shape so that the overall weight is the weight of water corresponding to the same volume. It is a lighter composition.

Even if the water level changes due to this underwater buoyancy body 250, the tension of the mooring rope 220 can be maintained as is, and this has the effect of restricting the horizontal movement of the floating facility 100 despite the water level change. there is.

Meanwhile, in relation to the connection between the underwater buoyancy body 250 and the mooring rope 220, a structure in which the mooring rope 220 is threaded and coupled to the underwater buoyancy body 250 can be considered, and further, the underwater buoyancy body 250 ) is connected to a certain part of the mooring rope 220, the mooring rope 220 is not continuous and is broken, and a certain part of the mooring rope 220 at each end that becomes the broken part is the underwater buoyancy body 250. It may also be possible to configure each to be combined with a predetermined part of .

Meanwhile, in the process of moving the floating facility 100 in a direction perpendicular to the direction of rotation of the fixed pulley 230 due to wind or storm, a problem may occur in which the mooring rope 220 does not slide smoothly on the fixed pulley 230. .

In order to overcome this problem, the mooring system using an underwater buoyancy body according to the present invention is an anchor connection material in which one side is coupled to the underwater anchor 210 and the other side is coupled to the fixed pulley 230, as shown in FIGS. 1 to 8. It may further include 240, and the anchor connection material 240 is preferably made of a fiber rope or metal chain in order to ensure the fluidity of the fixed pulley 230 in water.

Meanwhile, the mooring system using an underwater buoyancy body according to the present invention may further include a balance buoyancy body 250 as shown in FIGS. 3, 4, 7, and 8.

This balanced buoyancy body 250 is a buoyancy body made of a predetermined material and shape with an overall weight lighter than the weight of water corresponding to the same volume, and a predetermined portion of both ends of the mooring rope 220 is formed by the floating facility (100). ) is a configuration that is placed in the part that is combined with a certain part of the.

Specifically, a predetermined portion of one side of the balanced buoyancy body 250 is coupled with a predetermined portion of the floating facility 100, and a predetermined portion of the other side of the balanced buoyancy body 250 is coupled with predetermined portions of both ends of the mooring rope 220. It can be configured as follows.

In addition, the mooring system using an underwater buoyancy body according to the present invention may further include an elastic connector 221 as shown in FIGS. 5 to 8.

This elastic connector 221 is disposed in the area between the floating facility 100 and the fixed pulley 230 of the mooring rope 220 and is configured to repeat the action of stretching and shrinking by a predetermined length by elasticity. For this purpose, The elastic connector 221 is preferably made of an elastic rubber material or has an elastic spring structure.

By providing the above-described elastic connector 221, the sensitivity to the fluidity of the floating facility 100 is further increased with respect to the flow of the water surface such as waves, so that the floating facility 100 flows in better harmony with the flow of the water surface, while maintaining the floating facility ( 100) Safety of the entire mooring can be secured.

On the other hand, when the floating facility 100 is large, it is difficult to moor the floating facility 100 with only one mooring device 200, so a plurality of mooring devices 200 may be provided. Various embodiments of arrangement will be described with reference to FIGS. 9 to 12.

The floating facility 100 includes one compartment with a predetermined area, and within the compartment, a plurality of mooring devices 200 can be repeatedly arranged in a preset direction.

In particular, as shown in FIG. 9, a plurality of mooring devices 200 may be arranged on the floating facility 100 so that they are all oriented in the same direction, and as shown in FIG. 10, a plurality of mooring devices 200 may be arranged in one direction and another orthogonal thereto. They can be divided and arranged to face one direction, and in this case, neighboring mooring devices 200 among the plurality of mooring devices 200 may share the underwater anchor 210 with each other.

In addition, as shown in FIG. 11, a plurality of mooring devices 200 may be arranged to surround a specific position of the compartment, and as the area of the floating facility 100 increases, the plurality of mooring devices 200 move toward the center of the compartment. It can be arranged in a circular shape as a reference.

In addition, as shown in FIG. 12, a plurality of mooring devices 200 can be arranged to double surround a specific position of the compartment, and in this case, the larger the area of the floating facility 100, the more the plurality of mooring devices 200 are used in the compartment. It can be arranged in a concentric circle shape centered on a specific location.

Above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to the specific embodiments and should be interpreted in accordance with the appended claims. Additionally, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: floating facility
200: mooring device
210: underwater anchor
220: Mooring rope
221: Elastic connector
230: fixed pulley
240: Anchor connector
250: Underwater buoyancy body
260: Balanced buoyancy body

Claims (12)

It includes a floating facility 100 floating on the water surface and at least one mooring device 200 for mooring the floating facility 100, wherein the mooring device 200 includes,
A pair of underwater anchors (210) fixedly installed and spaced apart at a preset distance from the bottom of the water surface of the floating facility (100);
A pair of fixed pulleys (230) made of a preset material and shape, one side of which is respectively coupled and fixed to the pair of underwater anchors (210);
A mooring rope (220) in which predetermined portions of both ends are respectively coupled to predetermined portions of the floating facility (100), and a predetermined portion in the middle is provided to be caught by the pair of fixed pulleys (230);
It is coupled to a predetermined portion of the mooring rope 220 disposed between the pair of fixed pulleys 230, and is made of a predetermined material and shape, and the overall weight is formed to be lighter than the weight of water corresponding to the same volume. sieve (250);
A mooring system using an underwater buoyancy body including.
In claim 1.
A mooring system using an underwater buoyancy body, characterized in that predetermined parts of both ends of the mooring rope (220) are joined to a predetermined part at the same position in the floating facility (100).
In claim 1. The mooring device 200,
An anchor connecting member 240, one side of which is coupled to the underwater anchor 210, and the other side of which is coupled to the fixed pulley 230;
A mooring system using an underwater buoyancy body further comprising:
In claim 1.
In a predetermined portion of the mooring rope 220 where the underwater buoyancy body 250 is coupled, the mooring rope 220 is not continuous and is broken, and the predetermined portion of the mooring rope 220 at each end that becomes the broken portion is as described above. A mooring system using an underwater buoyancy body, characterized in that each is coupled to a predetermined part of the underwater buoyancy body (250).
In claim 1. The mooring device 200,
It is a buoyant body made of a predetermined material and shape so that the overall weight is lighter than the weight of water corresponding to the same volume, and predetermined portions of both ends of the mooring rope 220 are coupled with predetermined portions of the floating facility 100. A balancing buoyancy body 250 disposed in the portion;
A mooring system using an underwater buoyancy body further comprising:
In claim 5.
A predetermined portion of one side of the balanced buoyancy body 250 is coupled to a predetermined portion of the floating facility 100, and a predetermined portion of the other side of the balanced buoyancy body 250 is coupled to predetermined portions of both ends of the mooring rope 220. A mooring system using an underwater buoyancy body.
The method of claim 1, wherein the mooring device 200,
An elastic connector 221 disposed in the area between the floating facility 100 and the fixed pulley 230 among the mooring ropes 220, and capable of repeating the action of extending and shrinking by a predetermined length by elasticity;
A mooring system using an underwater buoyancy body further comprising:
In claim 7,
The elastic connector 221 is a mooring system using an underwater buoyancy body, characterized in that it is formed of an elastic rubber material or has an elastic spring structure.
In claim 1.
The floating facility 100 includes one section having a predetermined area,
A mooring system using an underwater buoyancy body, characterized in that at least one mooring device (200) is repeatedly arranged in a preset direction within the compartment.
In claim 9.
A mooring system using an underwater buoyancy body, characterized in that the plurality of mooring devices (200) are arranged on the floating facility (100) so that they are all oriented in the same direction.
In claim 9.
A mooring system using an underwater buoyancy body, characterized in that the plurality of mooring devices (200) are divided and arranged to face one predetermined direction and another direction orthogonal thereto.
In claim 9.
A mooring system using an underwater buoyancy body, characterized in that a plurality of mooring devices (200) are arranged to surround a specific position of the compartment.

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