KR101989694B1 - System and method for connecting floating structure in sea - Google Patents

Abstract

The present invention relates to a floating structure maritime connection system and its operation method, the hollow structure 110, the floating structure 100 is formed on the side and the fixing hole 120 is formed through the hollow portion 110 and the outer surface (100) ); And a waterproof-connecting unit 200 comprising a hollow tube 211, a waterproof member 210 of a type and a steel rod 220 inserted into the hollow tube 211 of the waterproof member 210. One side of the first structure which is one of the floating structures 100 and the other side of the second structure which is one of the other floating structures 100 are connected to each other and the waterproof member 210 is connected to the first structure and the first structure. It relates to a floating structure marine connection system, characterized in that it is inserted into both of the fixing holes 120 facing the two structures.

Description

Floating structure offshore connection system and its operation method {SYSTEM AND METHOD FOR CONNECTING FLOATING STRUCTURE IN SEA}

The present invention relates to a floating structure marine connection system and a method of operating the same, and more specifically, to a floating structure marine connection system and its operation, which is easy to construct and maintain, having a waterproof function and a position movement and attitude control function. It is about a method.

Recently, due to the lack of land space, plans have been made to install airports, resorts, and LNG processing facilities as offshore facilities using floating structures.

In particular, due to the geographical conditions of Korea, where the three sides are the sea and the land area is narrow, the demand and interest for offshore facilities are expected to increase gradually. Water facilities, residential, production, storage, logistics, as well as a variety of facilities, such as hazardous facilities, airports are attracting attention as maritime facilities.

For the stable construction of offshore facilities, the development of floating structures in which offshore facilities are constructed has emerged as a major technical challenge.

The connection method between floating structures can be divided into structural coupling and non-structural coupling. Structural coupling is a method of structural coupling in which shear forces and moments are transmitted between structures. Nonstructural couplings also act as separate structures, with no shear forces and moments transferred between the structures. It is a joining method that cannot be separated. As mentioned above, facilities that are being considered for offshore installations generally require structural coupling methods.

On the other hand, in recent years, a unit floating structure and a connecting device is modularized, a system having high convenience of movement and construction has been developed. However, the conventional floating structure connection method is insufficient in waterproof function and position control function. In addition, facilities constructed on floating structures must be maintained semi-permanently.

Therefore, in order to construct and maintain stable offshore structures, it is necessary to develop a floating structure offshore connecting system and its operation method which have improved construction and maintenance convenience.

Korea Patent Registration 10-0701020

Therefore, the present invention has been made to solve the above problems, the problem to be solved by the present invention is excellent in waterproof function and assemblability, by using a detachable connection member, easy construction and maintenance, floating It is to provide a marine structured connection system and its operation method.

Another object of the present invention, by using a towing unit capable of controlling the direction and attitude, and a watertight space securing unit that can be formed by the posture control unit and the waterproof space, to accurately pull the floating structure and easily secure the working space It is to provide a floating structure marine connection system and its operation method that can be.

However, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned above are clearly apparent to those skilled in the art from the following description. It can be understood.

Means for achieving the above technical problem, the hollow structure 110, the floating structure 100 is formed on the side and the fixing hole 120 is formed through the hollow portion 110 and the outer surface; And a waterproof-connecting unit 200 comprising a hollow tube 211, a waterproof member 210 of a type and a steel rod 220 inserted into the hollow tube 211 of the waterproof member 210. One side of the first structure which is one of the floating structures 100 and the other side of the second structure which is one of the other floating structures 100 are connected to each other and the waterproof member 210 is connected to the first structure and the first structure. It provides a floating structure maritime connection system, characterized in that inserted into all of the two fixing holes 120 facing the structure.

In addition, in one embodiment, the plate-shaped bottom plate 510, and vertically protruding plate 520 protruding perpendicular to the top surface of the bottom plate 510 in the shape of a plate and having a U-shape, and having a waterproof space 521. The waterproof space securing unit 500 is further configured to include, the waterproof space securing unit 500 is disposed between the first structure and the second structure, the upper surface of the base plate 510 is the first structure and the second structure In contact with the lower surface, both sides of the vertical contact plate 520 may be a floating structure maritime connection system, characterized in that the first structure and the second surface is pressed from the opposite surface of the second structure.

In addition, in one embodiment, the steel bar 220, the projection key 221 is formed on the outer peripheral surface, the inner surface of the hollow tube 211 of the waterproof member 210, the key groove 211- is fitted with the projection key 221. 1) is formed is recessed, the floating rod is preferably a floating structure marine connection system, characterized in that the steel rod 220 is inserted into the hollow tube 211 is fixed to be detachable by rotation.

In addition, in one embodiment, the fixing member 230 including a tubular and the outer peripheral screw portion 231 is inserted into the fixing hole 120, protruded to the outer circumferential surface, and the inner circumferential screw groove 232 is formed recessed on the inner circumferential surface It is further provided, the fixing hole 120, the fixing hole screw groove that is aligned with the outer peripheral screw portion 231 is formed on the inner circumferential surface, the waterproof member 210, the protrusion screw portion that is aligned with the inner peripheral screw groove 232 (211-2) is formed on the outer circumferential surface, the fixing member 230 is screwed to the fixing hole 120, the waterproof member 210 is a floating structure, characterized in that the screw coupling to the fixing member 230 It can be a connection system.

In addition, in one embodiment, the waterproof member 210 further includes a locking projection 212 protruding from the central peripheral surface thereof, and an outer surface of the fixing hole 120 of any one of the first structure and the second structure. At the inlet, the locking groove 121 is fitted with the locking jaw 212 is formed recessed, it is possible to the floating structure offshore connection system, characterized in that the locking jaw 212 and the locking groove 121 is fitted.

In addition, in one embodiment, the waterproof member 210 is composed of a first waterproof member 213-1 and a second waterproof member 213-2, and the first waterproof member 213-1 is a first Is inserted into the fixing hole 120 of the structure and protrudes from the outer surface of the first structure, the second waterproof member 213-2 is inserted into the fixing hole 120 of the second structure, the first structure and the second structure is The end surface of the first waterproof member 213-1 closes and compresses the end surface of the second waterproof member 213-2 so that the second waterproof member 213-2 is the hollow portion 110 of the second structure. It may be a floating structure maritime connection system, characterized in that protruded to be removed.

In addition, in one embodiment, the floating structure marine connection system, characterized in that the concave and convex portions are formed on the end surfaces of the first waterproof member 213-1 and the second waterproof member 213-2 in contact with each other is formed. This is preferred.

Further, in one embodiment, a floating structure maritime connection system is preferred that removes and groutes the waterproof member 210.

In addition, in one embodiment, the fixed post 310 protruding from the upper surface of the first structure and the winch 330 and the turning pulley 330 and the fixed post 310 disposed on the upper surface of the second structure And a traction unit 300 including a rope 340 wound around the distal end via the reversing pulley 330, wherein the first structure and the second structure are in close proximity by the rope 340 being wound. Floating structure maritime connection system is possible.

In addition, in one embodiment, it is preferable that the floating structure maritime connection system, characterized in that at least two fixed post 310 and the winch 330 is installed.

In addition, in one embodiment, the attitude control unit 400 including a plurality of tubes 410 installed on the bottom of the floating structure 100; further comprising, the floating structure using the buoyancy of the tube 410 A floating structure maritime connection system is possible characterized by controlling a posture angle including a roll and pitch of 100.

As another means for achieving the above technical problem, to prepare a floating structure 100 having a hollow portion 110, a fixing hole 120 disposed on the side and penetrating the hollow portion 110 and the outer surface. Doing; Disposing a first structure which is a floating structure 100 on one side and a second structure which is another floating structure 100 on the other side; Inserting the waterproof member 210 of the hollow tube 211 into the fixing hole 120 into the fixing hole 120 facing the first structure and the second structure; Inserting the steel rod 220 into the hollow tube 211 of the waterproof member 210 provides a method of operating a floating structure maritime connection system comprising a.

In addition, in one embodiment, forming a fixed post 310 protruding from the upper surface of the first structure; Forming a winch 330 and a turning pulley 330 disposed on an upper surface of the second structure; Floating, characterized in that it further comprises the step of winding the rope 340 fixed to the fixed post 310 and wound around the original way via the turning pulley 330, the first structure and the second structure; It is possible to operate a marine structured joint system.

In addition, in one embodiment, the step of installing a plurality of tubes (410) on the lower surface of the floating structure (100); Controlling the posture angle including the roll and pitch of the floating structure 100 by using the buoyancy of the tube 410; It can be an operating method.

In addition, in one embodiment, the bottom plate 510 of the plate-like, vertically protruding plate 520 protruding perpendicular to the top surface of the bottom plate 510 in the shape of a plate, the U-shaped, and has a waterproof space 521 Preparing a waterproof space securing unit 500 consisting of; Disposing the waterproof space securing unit 500 between two floating structures 100 connected to each other; Bringing the two floating structures 100 into close proximity; Contacting a top surface of the bottom plate 510 with a bottom surface of the first structure and the second structure; Both sides of the vertical contact plate 520 is pressed between the first surface and the opposite surface of the second structure; the operation method of the floating structure marine connection system further comprises.

According to one embodiment of the present invention, the floating structure marine connection system of the present invention and its operation method is excellent in waterproof function and assemblability, by using a removable connection member, there is an advantage in construction and maintenance.

In addition, according to an embodiment of the present invention, the floating structure marine connection system of the present invention and its operation method, a waterproof space securing unit that can be formed by the traction unit and the attitude control unit and the waterproof space capable of direction and attitude control By using, there is an effect that can be accurately towed of the floating structure and easily secured the working space.

However, effects obtained in the present invention are not limited to the above-mentioned effects, and other effects not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.
1 is a perspective view illustrating a floating structure and a waterproof-connection unit combination applied to a floating structure marine connection system according to an embodiment of the present invention.
Figure 2 is a perspective view of the floating structure applied to the floating structure maritime connection system according to an embodiment of the present invention.
Figure 3a is a perspective view of a steel rod constituting a waterproof-connection unit applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 3b is a perspective view of a waterproof member constituting a waterproof-connection unit applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 3c is a perspective view of the fixing member constituting the waterproof-connection unit applied to the floating structure marine connection system according to an embodiment of the present invention.
Figures 4a to 4c is a side view illustrating the coupling of the waterproof member having a locking jaw applied to the floating structure marine connection system according to an embodiment of the present invention.
Figures 5a to 5c is a side view illustrating the coupling of the first / second waterproof member applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 5d is an uneven portion formed in the first / second waterproof member applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 6 is a perspective view illustrating the configuration and operation of the traction unit applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 7 is a perspective view illustrating the configuration and operation of the attitude control unit applied to the floating structure marine connection system according to an embodiment of the present invention.
Figure 8 is a perspective view illustrating the configuration and operation of the waterproof space securing unit applied to the floating structure marine connection system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments may be variously modified and may have various forms, and thus, the scope of the present invention should be understood to include equivalents for realizing the technical idea. In addition, the objects or effects presented in the present invention does not mean that a specific embodiment should include all or only such effects, the scope of the present invention should not be understood as being limited thereby.

The meaning of the terms described in the present invention will be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be named a second component, and similarly, the second component may also be named a first component. When a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is said to be "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring to", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "include" or "have" refer to features, numbers, steps, operations, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Generally, the terms defined in the dictionary used are to be interpreted as being consistent with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present invention.

First Example  Configuration

Hereinafter, the configuration of the preferred embodiment with reference to the accompanying drawings will be described in detail.

1 is a perspective view illustrating a floating structure and a waterproof-connection unit combination applied to a floating structure marine connection system according to an embodiment of the present invention.

Referring to Figure 1 is a floating structure marine connection system according to an embodiment of the present invention, one side of the first structure which is one of the two floating structure 100 and one of the other floating structure 100 The other side of the second structure is connected in contact with each other. It can be seen that the waterproof-connection unit 200 is inserted into the fixing hole 120 formed at the side of the floating structure 100. In addition, the waterproofing-connection unit 200 is inserted into the waterproof member 210 and the steel bar 220, preferably may further include a fixing member (230).

The fixing holes are disposed on the surfaces of the first and second structures 100-1 and 100-2 facing each other, and the center lines thereof coincide with each other. At least two fixing holes 120 may be formed.

Waterproofing-connection unit 200 may be composed of a waterproof member 210 and a steel bar (220). The waterproof member 210 is a hollow tube 211 type and the steel rod 220 is inserted. The waterproof member 210 may be press-fitted into the fixing hole 120 and an elastic material may be used so that the steel bar 220 may be press-fitted into the hollow tube 211. In addition, the waterproof-connection unit 200 further includes a fixing member 230, it is possible to easily fix the waterproof member 210 to the floating structure (100).

The floating structure 100, the waterproof member 210, the steel rod 220, and the fixing member 230 will be described in more detail with reference to FIGS. 2 to 3C.

First, Figure 2 is a perspective view of a floating structure applied to the floating structure marine connection system according to an embodiment of the present invention. The floating structure 100 has a hollow portion 110 formed therein, and a fixing hole 120 penetrating the hollow portion 110 and an outer surface thereof is formed at a side thereof. The worker may maintain the waterproof connection unit 200 inserted into the fixing hole 120 and the fixing hole while entering and exiting the hollow part 110. In addition, the fixing holes 120 may be disposed under the water surface, and a plurality of fixing holes 120 may be formed in a two-layer array structure.

3A is a perspective view of a steel rod constituting a waterproof-connection unit applied to a floating structure maritime connection system according to an embodiment of the present invention, and FIG. 3B is a floating structure maritime connection system according to an embodiment of the present invention. It is a perspective view of the waterproof member which comprises the waterproof-connection unit applied. In addition, Figure 3c is a perspective view of the fixing member constituting the waterproof-connection unit applied to the floating structure marine connection system according to an embodiment of the present invention.

First, the steel bar 220 may have a cylindrical shape and have a diameter of R2, and may include a protruding key 221 on an outer circumferential surface thereof. Waterproof member 210 is provided with a hollow tube 211, the diameter of the hollow tube 211 is formed by R2, the steel rod 220 is inserted. As described above, by applying the elastic material to the waterproof member 210, the diameter of the hollow tube 211 may be smaller than the diameter of the steel bar 220.

Preferably, the protruding key 221 is formed on the outer circumferential surface of the steel bar 220, and the key groove 211-1 may be formed on the inner circumferential surface of the hollow tube 211 of the waterproof member 210. The key groove 211-1 is formed to be recessed to fit with the protruding key 221. When the steel rod 220 is inserted into the hollow tube 211 and rotated, the waterproof member 210 and the steel rod 200 may be fixed to be detachable.

As described above, the waterproof member 210 may be pressed into the fixing hole 120 to be fixed to the floating structure 100. At this time, the fixing member 230 may be further applied to secure the fixed state.

Referring to FIG. 3C, the fixing hole 120 may have a tubular shape, and may include an outer circumferential threaded portion 231 protruding from the outer circumferential surface and an inner circumferential threaded groove 232 recessed in the inner circumferential surface. Preferably, since the fixing hole 120 is formed on the inner circumferential surface of the fixing hole 120 to align with the outer circumferential screw portion 231, the fixing member 230 may be screwed to the fixing hole 120. In addition, the waterproof member 210 has a protruding screw portion 211-2, which is aligned with the inner circumferential screw groove 232, is formed on the outer circumferential surface thereof and may be screwed to the fixing member 230.

As described above, the waterproof member 210 is to prevent the inflow of seawater into the hollow part 110, and may be diversified as follows.

Figures 4a to 4c is a side view illustrating the coupling of the waterproof member having a locking jaw applied to the floating structure marine connection system according to an embodiment of the present invention, Figures 5a to 5c is an embodiment of the present invention Side view illustrating the coupling of the first and second waterproof members applied to the floating structure marine connection system according to.

The waterproof member 210 having the locking jaw 212 illustrated in FIGS. 4A to 4C further includes a locking jaw 212 protruding from the center outer peripheral surface thereof. In addition, the locking groove 121 is formed in the entrance of the outer surface of the fixing hole 120 of any one structure and the second structure. When the first structure 100-1 and the second structure 100-2 are towed and the side surfaces are in contact with each other, the locking jaw 212 and the locking groove 121 are fitted to each other to form the first and second structures 100-. 1,100-2) of the coupling force rises. In addition, on both sides of the waterproof member 210 having a locking jaw 212, a stopper 212-1 is further provided to prevent the inflow of seawater before coupling the locking groove 121 and the locking jaw 212. .

5A to 5C, the first waterproof member 213-1 is removed by being pushed by the second waterproof member 213-2, and the second waterproof member is first and second structures 100-1 and 100. It can be seen that -2) is connected.

The second waterproof member 213-2 is inserted into the fixing hole 120 of the second structure and protrudes from the outer surface of the second structure. The first waterproof member 213-1 is inserted into and disposed in the fixing hole 120 of the first structure. When the first structure and the second structure are close to each other, the end surface of the second waterproof member 213-2 compresses the end surface of the first waterproof member 213-1. The first waterproof member 213-1 may protrude to the hollow 110 of the first structure and be removed to be removed to the outside. The protruding portion of the second waterproof member 213-2 is inserted into the fixing hole 120 of the first structure 100-1 from which the first waterproof member 213-1 is removed, thereby allowing the first and second structures ( Connect 100-1,100-2).

The end surfaces of the first and second waterproof members 213-1 and 2 which are in contact with each other may be formed with uneven parts to be aligned with each other. FIG. 5D illustrates an uneven portion formed in the first / second waterproof member applied to the floating structure marine connection system according to an embodiment of the present invention. By fitting the uneven portions to each other, when the second waterproof member 213-2 compresses the first waterproof member 213-1, the deviation can be prevented. The length of the protruding portion of the second waterproof member 213-2 is preferably equal to or thicker than the wall thickness of the first structure 100-1.

For a solid structural coupling, the waterproof member 210 applied to the aforementioned waterproof-connection unit 200 may be grouted after being removed. In general, the waterproof member may be an elastic material. In addition, the steel bar is a metal material and the floating structure 100 may be composed of concrete. Since the waterproof member 210 of the elastic material is disposed between the steel rod 220 and the fixing hole 120 formed in the floating structure 100, the play may be caused by the elastic material. Therefore, in order to secure a strong structural coupling characteristic, by removing and grouting the waterproof member 210, it is possible to permanently structurally couple the first structure (100-1) and the second structure (100-2).

As described above, in order to connect the two floating structures 100 using the waterproof-connecting unit 200, it is necessary to secure the traction, posture and waterproof space. The traction unit, the attitude control unit and the waterproof space securing unit according to an embodiment of the present invention will be described in more detail with reference to FIGS. 6 to 7.

Figure 6 is a perspective view illustrating the configuration and operation of the towing unit applied to the floating structure marine connection system according to an embodiment of the present invention.

Traction unit 300 is composed of a fixed post 310, the winch 330, the turning pulley 330 and the rope 340. Fixed post 310 is formed to protrude on the upper surface of the first structure, preferably two or more may be able to change the direction. The upper surface of the second structure is provided with a winch 330 and the direction pulley 330. The rope 340 may be fixed to the fixed post 310 and wound around the winch 330 via the diverter pulley 330 to pull the first and second structures 100-1 and 100-2 in close proximity.

Figure 7 is a perspective view illustrating the configuration and operation of the attitude control unit applied to the floating structure marine connection system according to an embodiment of the present invention. The plurality of tubes 410 installed on the bottom surface of the floating structure 100 may change the draft line of the floating structure 100 using buoyancy.

8 is a perspective view illustrating the construction and operation of the waterproof space securing unit applied to the floating structure marine connection system according to an embodiment of the present invention.

The waterproof space securing unit 500 may be composed of a bottom plate 510 and a vertical contact plate 520. The bottom plate 510 is plate-shaped, the vertical contact plate 520 is vertically protruded on the upper surface. The vertical contact plate 520 is formed in a U-shape in a plate shape, thereby forming a waterproof space 521.

The waterproof space securing unit 500 is disposed between the first structure 100-1 and the second structure 100-2, and the upper surface of the bottom plate 510 is the first and second structures 100-1 and 100-2. Both sides of the vertical contact plate 520 are compressed from opposite surfaces of the first and second structures 100-1 and 100-2, and work in the waterproof space 521 is possible.

In addition, when the base plate 510 is disposed between the waterproof space securing unit 500 between the first and second structures 100, -1 and 100-2, the waterproof space securing unit 500 rises to the surface with its own buoyancy. Prevent the phenomenon. That is, when the gap between the first and second structures 100, -1, and 100-2 is narrower than the width of the base plate 510, when the waterproof space securing unit 500 is disposed, the top surface of the base plate 510 is disposed. And the lower surfaces of the first and second structures 100, -1 and 100-2 are easily in contact with each other. In addition, the waterproof space securing unit 500 is no longer floated by the first and second structures 100,-1, and 100-2, so that the installation is easy.

First Example  action

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of the preferred embodiment.

Waterproofing-connection unit 200 according to an embodiment of the present invention, can be disposed under the water surface, maintenance is very easy after construction.

2 to 3C, it can be seen that the fixing hole 120 may be disposed under the water surface. Therefore, the waterproof member 210 of the waterproof connection unit 200, which is inserted and installed in the fixing hole 120, prevents the inflow of seawater into the hollow part 110. In addition, referring to FIG. 8, when the distance between the floating structures 100 facing each other becomes smaller than the thickness of the vertical contact plate 520, the waterproof space 521 is isolated from the sea. When the seawater remaining in the isolated waterproof space 521 is pumped, the seawater does not flow into the hollow portion 110 even when the waterproof-connection unit is removed from the fixing hole 120. In addition, according to the size of the floating structure 100, the number and size of the fixing holes 120, it is possible to vary the width, shape and thickness of the waterproof space.

The vertical contact plate 520 may be made of an elastic material, and may not be removed after connecting the floating structure 100. Since the vertical contact plate 520 made of an elastic material is connected to the floating structure 100, the space between the connected floating structures 100 may be kept to a minimum. In addition, the watertight space 521 formed by the vertical contact plate 520 may be maintained as a watertight space that is not introduced into the seawater.

2 to 3C, the waterproof connection unit 200 inserted into the fixing hole 120 is always checked and observed in the hollow part 110 of each of the first and second structures 100-1 and 100-2. This is possible. In other words, it is a device that is constructed under the surface of the water, and the related workers can always check and observe with the naked eye, so maintenance is very easy. In addition, as described above, even after connection construction, the vertical contact plate 520 may be disposed between the first and second structures 100-1 and 100-2. Thus, the waterproof connection unit 200 is not directly exposed to seawater.

In conclusion, the waterproof-connecting unit 200 of the floating structure marine connection system according to an embodiment of the present invention can be kept insulated from seawater even after the construction step and construction.

Traction unit 300 is applied to the floating structure marine connection system according to an embodiment of the present invention, it is easy to adjust the yaw (yaw) angle. Referring to Figure 6, by having a plurality of fixed post 310 and the winch 320, it is possible to facilitate yaw angle adjustment when the floating structure is towed. In addition, it is possible to further add a fixed post, and to pull apart the first and second structures 100-1 and 100-2 according to the arrangement position thereof. The second fixed post 310-1 (not shown) is disposed on the first structure 100-1 on the opposite side of the fixed post 310. The rope 340 fixed to the fixed post 310 is redirected to the U-shaped in the second fixed post 310-1, and wound around the winch 320. When the winch winds up the rope 340, the first and second structures 100-1 and 100-2 are towed in a spaced apart direction.

In conclusion, the traction unit 300 applied to the floating structure marine connection system according to an embodiment of the present invention, there is an advantage that can maintain the two floating structure 100 at a specific interval during the connection construction process.

The attitude control unit 400 applied to the floating structure marine connection system according to an embodiment of the present invention may control the attitude of the floating structure at an arbitrary angle. Referring to FIG. 7, a plurality of tubes 410 may be installed and each buoyancy may be asymmetrically adjusted. By controlling the direction of the asymmetric buoyancy control, it is possible to control the posture angle including the roll and pitch of the floating structure 100. In addition, by disposing the pump 420 on the upper surface of the floating structure 100, the attitude of the floating structure 100 itself can be controlled without the help of an external device.

In addition, to facilitate the connection construction, the waterproof space 521 may be raised above the water surface. Increasing the buoyancy of the tube as a whole increases the draft of the floating structure 100. That is, when the draft of the floating structure 100 rises, the waterproof space 521 is exposed on the water surface. In this case, when the first and second structures 100-1 and 100-2 are pulled to closely contact each other, since the seawater does not already exist in the waterproof space 521, no separate pumping operation is required.

In conclusion, in the floating structure marine connection system according to an embodiment of the present invention, the waterproof-connecting member, the traction, the posture control unit and the waterproof space securing unit organically act, it is easy to precisely connect the floating structure . In addition, the waterproofing-connection member can be isolated from the seawater at the time of construction or after construction, and it is always visually observed and confirmed to facilitate maintenance.

The detailed description of the preferred embodiments of the invention disclosed as described above is provided to enable those skilled in the art to implement and practice the invention. Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art will understand that various modifications and changes can be made without departing from the scope of the present invention. For example, those skilled in the art can use each of the components described in the above-described embodiments in combination with each other. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The invention can be embodied in other specific forms without departing from the spirit and essential features of the invention. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention. The present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein. In addition, the claims may be incorporated into claims that do not have an explicit citation relationship in the claims, or may be incorporated into new claims by amendment after filing.

100. Floating Structures
100-1. First Structure 100-2. Second structure
110. Hollow parts.
120. Fixing Hole
121. Hanging groove
200. Waterproof connection unit
210. Waterproof member
211.Hollow tube
211-1. Keyway
211-2. Protruding screw part
212. Jamming jaw
212-1. stopper
213-1. First waterproof member 213-2. 2nd waterproof member
213-3-4. Irregularities
220. Steel rods
221. Protrusion Key
230. Fastening members.
231. Outer thread
232. Inner thread groove
300. Towing Unit
310. Fixed Post.
320. Winch
330. Directional pulley
340. Rope
400. Attitude Control Unit
410.Tube
420. Pump
500. Waterproof space securing unit
510. Bottom plate
520. Vertical contact plate
521. Waterproof space.

Claims (15)

A hollow structure (110) and a floating structure (100) formed at a side and having a fixing hole (120) passing through the hollow portion (110) and an outer surface; And
It includes; waterproof-connecting unit 200 comprising a hollow tube 211, a waterproof member 210 of the type and a steel rod 220 is inserted into the hollow tube 211 of the waterproof member 210;
One side of the first structure which is one of the two floating structures 100 and the other side of the second structure which is one of the other floating structures 100 are connected in contact with each other,
The waterproof member 210 is inserted into both the fixing holes 120 facing the first structure and the second structure,
Secure a waterproof space consisting of a bottom plate 510 of the plate-like, a vertical contact plate 520 protruding perpendicular to the top surface of the bottom plate 510 in the shape of a plate and having a U-shape, and having a waterproof space 521. Unit 500; further comprising,
The waterproof space securing unit 500 is disposed between the first structure and the second structure,
The upper surface of the bottom plate 510 is in contact with the lower surface of the first structure and the second structure,
Both sides of the vertical contact plate (520) is a floating structure marine connection system, characterized in that the compression from the opposite surface of the first structure and the second structure. delete The method of claim 1,
The steel bar 220, the protrusion key 221 is formed on the outer peripheral surface,
On the inner circumferential surface of the hollow tube 211 of the waterproof member 210, a key groove 211-1, which is fitted with the protruding key 221, is recessed and formed.
Floating structure marine connection system, characterized in that the steel rod 220 is fixed to be detachable by rotating after being inserted into the hollow tube (211). The method of claim 1,
And a fixing member 230 that is tubular and is inserted into the fixing hole 120 and includes an outer circumferential screw portion 231 protruding from the outer circumferential surface and an inner circumferential screw groove 232 formed to be recessed in the inner circumferential surface. ,
The fixing hole 120, the fixing hole screw groove that is aligned with the outer peripheral screw portion 231 is formed on the inner peripheral surface,
The waterproof member 210 has a protruding screw portion 211-2, which is fitted with the inner circumferential screw groove 232, formed on an outer circumferential surface thereof.
The fixing member 230 is screwed to the fixing hole 120, the waterproof member 210 is a floating structure marine connection system, characterized in that the screw coupling to the fixing member (230). The method of claim 1,
The waterproof member 210 further includes a locking jaw 212 protruding from the outer peripheral surface of the central portion thereof.
A locking groove 121 is formed in the outer surface of the fixing hole 120 of any one of the first structure and the second structure to be fitted with the locking jaw 212,
Floating structure marine connection system, characterized in that the locking step 212 and the locking groove 121 is fitted. The method of claim 1,
The waterproof member 210 is composed of a first waterproof member 213-1 and a second waterproof member 213-2,
The first waterproof member 213-1 is inserted into the fixing hole 120 of the first structure and protrudes from an outer surface of the first structure, and the second waterproof member 213-2 is the second structure. Is inserted into the fixing hole 120 of,
When the first structure and the second structure are in close proximity, the end surface of the first waterproof member 213-1 compresses the end surface of the second waterproof member 213-2,
Floating structure marine connection system, characterized in that the second waterproof member (213-2) is protruded and removed to the hollow portion 110 of the second structure. The method of claim 6,
Floating structure marine connection system, characterized in that the uneven parts to be fitted to each other, the end surface of the first waterproof member (213-1) and the second waterproof member (213-2) in contact with each other is formed. The method according to any one of claims 5 to 6,
Floating structure marine connection system, characterized in that for removing and grouting the waterproof member (210). The method of claim 1,
The fixed post 310 protruding from the upper surface of the first structure and the winch 330 disposed on the upper surface of the second structure and the direction change pulley 330 and the fixed post 310 fixed to the direction change pulley Including a towing unit 300 consisting of a rope 340 wound on the winch via 330,
Floating structure marine connection system, characterized in that the first structure and the second structure is close by the winding of the rope (340). The method of claim 9,
Floating structure marine connection system, characterized in that at least two fixed post 310 and the winch (330) is installed. The method of claim 1,
Further comprising: a posture control unit 400 including a plurality of tubes 410 are installed on the bottom surface of the floating structure 100,
Floating structure marine connection system, characterized in that for controlling the posture angle including the roll (roll) and the pitch (pitch) of the floating structure (100) using the buoyancy of the tube (410). Preparing a floating structure (100) having a hollow portion (110) and a fixing hole (120) disposed on a side surface and penetrating the hollow portion (110) and an outer surface thereof;
Disposing a first structure which is the floating structure 100 on one side and a second structure which is the other floating structure 100 on the other side;
Inserting a waterproof member (210) of a hollow tube (211) type into the fixing hole (120) into the fixing hole (120) facing the first structure and the second structure;
And inserting a steel rod 220 into the hollow tube 211 of the waterproof member 210.
Water-proof space consisting of a lower surface plate 510 of the plate-like, a vertical contact plate 520 protrudes vertically to the upper surface of the bottom plate 510 in the shape of a plate, taken out in a U-shape, and having a waterproof space 521. Preparing a securing unit 500, the waterproof space securing unit 500 is disposed between the two floating structures 100 are connected to each other, the two floating structures 100 are in close proximity, the base plate ( Float, characterized in that the upper surface of the 510 is in contact with the lower surface of the first structure and the second structure, both sides of the vertical contact plate 520 is pressed between the facing surface of the first structure and the second structure. Method of operation of an offshore structural connection system. The method of claim 12,
Forming a fixed post 310 protruding from an upper surface of the first structure;
Forming a winch 330 and a turning pulley 330 disposed on an upper surface of the second structure;
And fixing the first post and the second structure by winding the rope 340 fixed to the fixed post 310 and wound around the winch via the turning pulley 330. Operation method of the floating structure marine connection system, characterized in that The method of claim 12,
Installing a plurality of tubes (410) on a lower surface of the floating structure (100);
Controlling a posture angle including the roll (roll) and pitch of the floating structure 100 by using the buoyancy of the tube 410; How to operate the system delete

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