KR20220133749A - Elastic Mooring Rope - Google Patents

Abstract

The present invention relates to an elastic mooring rope, which comprises: an elastic member; a deformable member including a plurality of unit joint members arranged in a longitudinal direction to surround the elastic member; a first fixing member for fixing and connecting the plurality of adjacent unit joint members; and a second fixing member for fixing both ends of the elastic member and both ends of the plurality of connected unit joint members, wherein the deformable member may provide an elastic mooring rope that is deformed in a corresponding shape as the elastic member is deformed. The elastic mooring rope according to the present invention can protect an elastic member vulnerable to horizontal cutting, and when the elastic mooring rope receives an external force, the external force can be distributed to the deformable member to relieve the impact.

Description

Elastic Mooring Rope

The present invention relates to an elastic mooring rope capable of protecting an internal elastic member vulnerable to horizontal cutting and distributing an impact to an external force.

Photovoltaic power generation is regarded as a synonym for future energy sources to reduce the use of fossil fuels and environmental pollution. However, since solar power generation requires a large installation area, there is a problem of damage to agricultural land or forest when installed on land. In particular, a country with a large number of mountainous regions and a large population compared to land area, such as Korea, lacks space for installing solar power plants. On the other hand, floating solar power generation, which installs power generation facilities on water such as reservoirs, freshwater lakes, and the sea, utilizes the idle water surface, so it is suitable for efficient use of the land. There are also advantages. Accordingly, the floating solar power generation market is growing rapidly.

However, while land photovoltaic power generation is a method of installing a foundation and building a structure, floating photovoltaic power generation requires a floating structure with a buoyant body installed instead of a foundation, so it is a fusion of photovoltaic power generation and floating structure.

On the other hand, as one of the methods of mooring floating structures (berthing facilities, floating houses, artificial islands, floating footbridges, etc.) on the water, it is a method of mooring by pouring a large weight concrete block on the ground under water and loosely connecting it with a chain. are using In such a conventional mooring method, it is difficult to control the position of the floating structure itself in a place with a large tidal difference or a severe change in flow rate, such as in the ocean. device will be needed.

In such a conventional mooring method, it is difficult to control the position of the floating structure itself in a place with a large tidal difference or a large change in flow rate, such as in the ocean. There is a need for a mooring device capable of distributing an external force through deformation and preventing an internal elastic member from being damaged.

Accordingly, the present invention prevents the internal elastic member from being damaged from physical impact, blocks contact with salt, solves the problem of reduced durability due to corrosion, and utilizes the joint structure to provide flexibility from external impact. An object of the present invention is to provide an elastic mooring rope that is deformable and can respond.

In order to achieve the above object, the present invention is an elastic member 100; a deformable member 200 including a plurality of unit joint members 201 arranged in a longitudinal direction to surround the elastic member 100; a first fixing member 300 for fixing and connecting the plurality of adjacent unit joint members 201; and a second fixing member 400 fixing both ends of the elastic member 100 and both ends of the deformable member 200 , wherein the deformable member 200 is deformed as the elastic member 100 is deformed. It provides an elastic mooring rope (10) that is deformed into a corresponding shape.

In addition, the present invention provides an elastic mooring rope 10 in which the first protrusion 210 is formed in the unit joint member 201 in which both ends are bent in the vertical direction of the surface facing the elastic member 100 .

In addition, the present invention provides an elastic mooring rope 10 in which the unit joint member 201 has a second protrusion 220 bent so that an end of the first protrusion 210 faces.

In addition, in the present invention, the first fixing member 300 has a pair of first protrusions 210 and/or second protrusions 220 disposed adjacent to each other and a third protrusion 310 for surrounding and fixing is formed elastically. A mooring rope (10) is provided.

In addition, the present invention provides an elastic mooring rope 10 in which a first flow space 320 is formed between the first protrusion 210 or the second protrusion 220 in the third protrusion 310 .

In addition, the present invention provides an elastic mooring rope (10) in which the first fixing member (300) is formed in a shape corresponding to the shape of the deformable member (200), and the third protrusion (310) is formed in plurality.

In addition, in the elastic mooring rope 10 , a second accommodating space 330 is formed between the third protrusion 310 and the other third protrusion 310 , and a third elastic accommodating space 330 is provided in the second accommodating space 330 . The member 500 is accommodated, and the third elastic member 500 is disposed between the third protrusion 310 and the other third protrusion 310 with the third protrusion 310 and another third protrusion 310 and An elastic mooring rope (10) secured in contact is provided.

In addition, the present invention provides an elastic mooring rope (10) including a rubber material in the third elastic member (500).

In addition, the present invention provides an elastic mooring rope 10 in which the third elastic member 500 is detachable.

In addition, the elastic member 100 includes a first elastic member 110 and a second elastic member 120 , and the second elastic member 120 is an elastic mooring rope surrounding the first elastic member 110 . (10) is provided.

In addition, the first elastic member 110 provides an elastic mooring rope 10 having a smaller elastic modulus than the second elastic member 120 .

In addition, there is provided an elastic mooring rope 10 in which the central axes of the first elastic member 110 and the second elastic member 120 coincide.

The elastic mooring rope according to the present invention can protect an elastic member that is vulnerable to horizontal cutting, and when the elastic mooring rope receives an external force, it can distribute the external force to the deformable member to alleviate the impact, and through this, the water structure is stable in one place It is possible to berth the water and at the same time alleviate the impact on the floating structure.

1 is a longitudinal sectional view showing the schematic configuration of an elastic mooring rope according to the present invention.
Figure 2 shows the arrangement of the first elastic member and the second elastic member according to the present invention.
3A is an enlarged view of the first protrusion, the second protrusion, the third protrusion and the first accommodating space according to the present invention.
3b is an enlarged cross-section of the unit joint member according to the present invention.
4 shows a shape in which the elastic mooring rope according to the present invention is bent by an external force.
Figure 5 shows the overall appearance of the elastic mooring rope according to the present invention.
6 is a cross-sectional view illustrating a state in which a plurality of elastic mooring ropes according to the present invention are screwed with a coupling member.
7 is a perspective view showing a state in which a plurality of elastic mooring ropes according to the present invention are combined with a coupling member.

The invention to be described below can be made various changes and can have various embodiments, and specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the invention described below to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the technology described below.

In the drawings, like reference numerals refer to like elements.

Throughout the specification, when a part "includes", "contains", or "has" a certain element, it means that other elements may be further included unless otherwise defined.

Terms such as 1st, 2nd, etc. are used to distinguish one component from another component, and the component is not limited by the above-mentioned terms.

When a part of a layer, membrane, etc. is said to be “above/above” or “below/below” another part, it means that the other part It includes not only cases where they are in contact with each other, but also cases where other parts exist in between. Conversely, when a part is said to be “just above/above” or “just below/below” another part, it means that there is no other part in the middle.

The mooring rope refers to a rope for connecting an aquatic structure to an underwater structure such as underwater concrete or an underwater ground. The floating structure means an arbitrary structure floating on water, and may be a ship, an artificial island, a floating footbridge, a floating house, as well as a solar power generation device. In addition, the aquatic structure may include an offshore structure.

1 schematically shows the configuration of an elastic mooring rope according to an embodiment of the invention. Referring to FIG. 1, the elastic mooring rope 10 is connected to a structure installed on the seabed to withstand shocks such as tension, bending and vibration, and the elastic member 100, the joint member 200, the first It may include a first fixing member 300 , a second fixing member 400 , and a third elastic member 500 .

The elastic member 100 may have a circular or rectangular cross-section. The elastic member 100 may be deformed such as being bent or stretched by absorbing an impact caused by an external force, and the deformed elastic member 100 may return to a state before deformation by elastic restoration. It may include a rubber material that is an elastic material so as to

The elastic member 100 includes natural rubber, butadiene rubber (BR), styrene-butadiene rubber (SBR), acrylonitrile butadiene rubber, polychloroprene rubber, and polyisoprene. Polyisoprene Rubber, isobutylene isoprene copolymer, ethylene propylene rubber, ethylene vinyl acetate copolymer, chlorinated polyethylene rubber, chlorosulfonated polyethylene, acrylic rubber, ethylene acrylate copolymer ( Ethylene acrylate copolymer), fluororubber (Fluoroelastomer), silicone rubber (Silicone Robber), and may include one or more of polyurethane rubber (Polyurethane Elastomer).

One end and the other end of the elastic member 100 may be coupled to and fixed to the second fixing member 400 .

Figure 2 shows a cross-section of the elastic member of the present invention. Referring to FIG. 2 , the elastic member 100 may include a first elastic member 110 and a second elastic member 120 surrounding the first elastic member. The first elastic member 110 may include a rubber material having a smaller elastic modulus than the second elastic member 120 . Since the first elastic member 110 occupies the center of the elastic member 100, it is formed of a material stronger than that of the second elastic member 120 so that it can support the marine structure well with little deformation with respect to an external force. it is preferable

Since the second elastic member 120 is formed in a shape surrounding the outer surface of the first elastic member 110, it is flexibly deformed with respect to an external force that directly applies an impact, and then elastically restored than the first elastic member 110. It may be a rubber material with a higher modulus of elasticity. The first elastic member 110 and the second elastic member 120 may have the same vertical central axis.

The elastic mooring rope 10 according to the present invention may include a deformable member 200 including a plurality of unit joint members 201 . The plurality of unit joint members 201 may closely surround the elastic member 100 and may be arranged in a line along the longitudinal direction. The unit joint member 201 may be in contact with another adjacent unit joint member 201 .

Referring to FIG. 4 , when the elastic mooring rope 10 is bent under an external force, a place where the elastic member 100 is bent receives a compressive force, and a place on the opposite side receives a tensile force.

The unit joint member 201 located in the portion to which the tensile force is applied may be bent while forming a curved surface according to the tensile force, and the plurality of unit joint members 201 form an angle with the adjacent unit joint member 201 and have a gap between them. It spreads and the deformable member 200 may form a continuous curved surface as a whole. The deformable member 200 forms a curved surface by the tensile force and may distribute an external shock to the plurality of unit joint members 201 .

The unit joint member 200 positioned at the portion to which the compressive force is applied may be bent while forming a curved surface according to the compressive force, and the plurality of unit joint members 201 form an angle with the adjacent unit joint member 201 and have a gap between them. It spreads, and the deformable member 200 may form a continuous curved surface as a whole. The deformable member 200 forms a curved surface by the tensile force and may distribute an external shock to the plurality of unit joint members 201 .

The deformable member 200 is disposed in close contact with the elastic member 100 , and forms a joint structure in which a plurality of unit joint members 201 are aligned to organically flow together with the adjacent unit joint members 201 .

The unit joint member 201 may be formed in a band shape of a metal material, and may wrap around a predetermined section in the longitudinal direction of the elastic member 100 . The unit joint member 201 is formed of a tensile material so that when the elastic mooring rope according to the present invention is deformed by receiving a bending force, a compressive force, or a tensile force, the plurality of joint members 200 can distribute the bending force, compressive force or tensile force. It can be modified accordingly.

The unit joint member 201 may include a material having excellent malleability and ductility, such as copper, aluminum, tungsten, iron, and nickel, so as to disperse an impact caused by an external force.

Referring to FIGS. 3A and 3B , both ends of the unit joint member 201 may be bent in the vertical direction of a surface facing the elastic member 100 to form a first protrusion 210 protruding. The first protrusion 210 may be in contact with the first protrusion 210 of the other adjacent unit joint member 201, and when the elastic mooring rope according to the present invention receives an external force, the first protrusion 210 and the first protrusion adjacent to the first protrusion 210 may be in contact. 1 The distance between the protrusions 210 , an angle, etc. may change, and the deformable member 200 may be deformed. The first protrusion 210 may expand a contact area between the first fixing member 300 and the deformable member 200 to distribute a tensile force or a compressive force with respect to an external force.

The first protrusion 210 forms a pair of first protrusions 210 together with the first protrusions 210 formed on other adjacent unit joint members 201 , and the pair of first protrusions 210 are 1 It may be wrapped and fixed by the fixing member 300 . The first fixing member 300 may be formed to correspond to the shape of the pair of first protrusions 210 and may be wrapped. The pair of first protrusions 210 can effectively disperse an impact caused by an external force applied from the outside to the surroundings by expanding the contact area of the deformable member 200 with the first fixing member 300 . A plurality of the pair of first protrusions 210 may be formed on the deformable member 200 .

The two first protrusions 210 formed on the unit joint member 201 may be formed with second protrusions 220 protruding by bending the ends to face each other. The first protrusion 210 and the second protrusion 220 may increase a contact area between the second fixing member 400 and the deformable member 200 to effectively disperse an impact caused by an external force applied from the outside.

The first fixing member 300 may be formed and wrapped in a shape corresponding to a shape of a pair of adjacent first protrusions 210 or a pair of adjacent second protrusions 220 .

A first flow space 320 may be formed between the pair of second protrusions 220 and the first fixing member 300 . The first flow space 320 can secure a space in which the unit joint member 201 can flow, so that the adjacent unit joint member 201 can be deformed to correspond to the deformation of the elastic mooring rope, and the first protrusion An angle between the 210 and the other adjacent first protrusion may be widened, and the angle may be modified.

The first fixing member 300 is formed in a shape corresponding to the shape of the joint member 200 by a plurality of joint members 200 surrounding the elastic member 100, and surrounds and fixes the adjacent unit joint member 201, connected, and to protect the elastic member 100 from external physical impact.

The first fixing member 300 is a metal having excellent malleability and ductility, such as copper, aluminum, tungsten, iron, nickel, or the like, or polycarbonate, polyethylene, polyimide, polypropylene, polystyrene. (Polystyrene), PVC (Polyvinyl Chloride), etc. may include a plastic material.

Since the first fixing member 300 and the deformable member 200 seal and enclose the elastic member 100 in a double layer, it is possible to prevent the elastic member 100 from being damaged by salt.

A plurality of third protrusions 310 and second accommodating spaces 330 are repeatedly and continuously formed on the outer surface of the first fixing member 300 to form a wrinkled structure. The continuous T-shaped wrinkle structure formed on the first fixing member 300 may form an advantageous structure for dispersing external impact by increasing the surface area.

Two first protrusions 210 and two second protrusions 220 formed on one unit joint member 201 may form a first accommodation space 230 .

In the first accommodating space 230 , the first fixing member 300 is formed in a shape corresponding to the shape of the unit joint member 201 , and the first fixing member 300 may form the second receiving space 330 . have. The third elastic member 500 may be positioned in the second accommodation space 330 . The third elastic member 500 is disposed in contact with at least a portion of the second receiving space 330 of the first fixing member 300 , or the third elastic member 500 is disposed with the third protrusion 310 and the third elastic member 500 . The third protrusion 310 and the other third protrusion 310 may be in contact with and fixed between the other third protrusions 310 .

The second fixing member 400 may fix both ends of the elastic member 100 . In addition, the second fixing member 400 can fix both ends of the deformable member 200 formed by connecting a plurality of unit joint members 201 , and if necessary, both ends of the deformable member 200 and the first fixing member Both ends of 300 can be fixed together.

The third elastic member 500 may include a rubber material having elasticity, and may be in contact with the third protrusion 310 and be fixed in position. The third elastic member 500 applies pressure to the first fixing member 300 along the circumference of the second accommodation space 330 so that the first fixing member 300 , the deformable member 200 and the elastic member 100 are formed. can be made to stick to each other.

A second accommodating space 330 is formed between the third protrusion 310 and the other third protrusion 310 , and a third elastic member 500 is accommodated in the second accommodating space 330 , The third elastic member 500 may be fixed in contact with the third protrusion 310 and the other third protrusion 310 between the third protrusion 310 and the other third protrusion 310 .

The third elastic member 500 may be disposed along the circumference of the first fixing member 300 . An insertion protrusion is formed at one end of the third elastic member 500 and an insertion hole is formed at the other end, and as the insertion protrusion is inserted into the insertion hole, the third elastic member 500 may be formed in a ring shape. It may be arranged along the circumference of the first fixing member 300 by connecting the holes. Alternatively, the third elastic member 500 may have a ball shape.

The third elastic member 500 includes butadiene rubber (BR), styrene-butadiene rubber (SBR), acrylonitrile butadiene rubber, polychloroprene rubber, and polyisoprene rubber. (Polyisoprene Rubber), isobutylene isoprene copolymer, ethylene propylene rubber, ethylene vinyl acetate copolymer, chlorinated polyethylene rubber, chlorosulfonated polyethylene, acrylic rubber, ethylene acrylate copolymer (Ethylene) It may include one or more of acrylate Copolymer), fluororubber (Fluoroelastomer), silicone rubber (Silicone Robber), or polyurethane rubber (Polyurethane Elastomer).

Both ends of the elastic mooring rope 10 according to the present invention may be coupled to the coupling member 600 , respectively.

The elastic mooring rope 10 may include a bolt portion having a screw surface formed in a predetermined section of both ends. In the elastic mooring rope, when the bolt part passes through a through hole formed on one surface of the coupling member 600 , the bolt part of the elastic mooring rope protrudes from the other surface of the coupling member 600 , and the protruding bolt part may be coupled with a nut.

A plurality of through-holes may be formed in the coupling member 600 , and an elastic mooring rope may pass through each through-hole to be coupled to the nut. Accordingly, the coupling member 600 may be coupled to both ends of the plurality of elastic mooring ropes.

A ring portion 610 may be formed on one surface of the coupling member, and the ring portion 610 may connect the marine structure and the elastic mooring rope according to the present invention.

The plurality of elastic mooring ropes 10 may be coupled to the coupling member 600 with a nut to form the elastic mooring rope coupling body 1 .

Although the present technology has been described through the above embodiments, the present technology is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present technology, and those skilled in the art will recognize that such modifications and changes also belong to the present technology.

1: elastic mooring rope assembly 10: elastic mooring rope
100: elastic member 110: first elastic member
120: second elastic member 200: deformable member
201: unit joint member 210: first protrusion
220: second protrusion 230: first receiving space
300: first fixing member 310: third protrusion
320: first flow space 330: second accommodation space
400: second fixing member 500: third elastic member
600: coupling member 610: ring portion

Claims (8)

elastic member;
a deformable member including a plurality of unit joint members arranged in a longitudinal direction to surround the elastic member; and
Including; a first fixing member for fixing and connecting the plurality of adjacent unit joint members,
The deformable member is deformed into a shape corresponding to the deformation of the elastic member,
A first protrusion having both ends bent in a vertical direction of a surface facing the elastic member is formed in the unit joint member,
The joint member is formed with a second protrusion bent so that the end of the first protrusion faces;
A third protrusion is formed on the first fixing member to surround and fix the pair of first protrusions and/or the pair of second protrusions disposed adjacent to each other,
The first fixing member is formed in a shape corresponding to the shape of the deformable member,
A plurality of the third protrusions are continuously formed,
A second accommodating space is formed between the third protrusion and the other third protrusion,
A third elastic member is accommodated in the second accommodating space,
The third elastic member is fixed in contact with the third protrusion and the other third protrusion between the third protrusion and the other third protrusion, and applies pressure to the first fixing member by contacting the first fixing member to apply pressure to the first fixing member. 1 An elastic mooring rope, which allows the fixing member, the deformable member and the elastic member to be in close contact with each other. According to claim 1,
The third elastic member elastic mooring rope, characterized in that it comprises a rubber material having elasticity. According to claim 1,
The third elastic member is an elastic mooring rope, characterized in that the ball shape. According to claim 1,
The unit joint member is an elastic mooring rope, characterized in that formed of a metal material having malleability and ductility. According to claim 1,
The elastic mooring rope further comprising a second fixing member for fixing both ends of the elastic member and both ends of the plurality of connected unit joint members. The elastic mooring rope according to claim 1;
bolt portions positioned at both ends of the elastic mooring rope and having threaded surfaces;
a coupling member including a through hole through which the bolt part passes; and
and a nut coupled with the bolt part protruding through the through hole of the coupling member.
Elastic mooring rope assembly. 6. The method of claim 5,
In the coupling member, a plurality of through-holes are formed, and each of a plurality of bolts connected to each of the plurality of elastic mooring ropes penetrates the through-holes and is coupled with a nut. 6. The method of claim 5,
A ring portion is formed on one surface of the coupling member Elastic mooring rope assembly.

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