KR101324320B1 - System for transfering objects in ship - Google Patents

Abstract

A marine transport system is disclosed. The ship transport system includes a first lifting unit for transferring an object located inside the hull through a passage formed in the deck to a first transfer point above the deck; A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point; And a cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit, wherein the cat work is formed with an opening. The object passes through the opening in the process of moving to the second delivery point.

Description

Ship transport system {SYSTEM FOR TRANSFERING OBJECTS IN SHIP}

The present invention relates to a transport system, and more particularly to a system for transporting an object in a ship.

In the drill ship, pipes for drilling work are loaded into the hull. The pipes are connected to each other and served from the hull to the bottom of the seabed, which is used for drilling undersea resources. Among these pipes, risers are a kind of underwater pipes installed between the drilling rig and the bottom of the seabed, which are provided as a passage for preventing the drill pipes excavating the seabed from being exposed to the seawater and transporting mud for electric, hydraulic and cooling lubrication. .

Korean Laid-Open Patent Publication No. 10-2010-0121403 discloses a drilling vessel loaded with risers. The riser is loaded inside the hull and is carried by the first crane and the second crane to be carried out of the hull. The second crane uses a knuckle boom crane and carries the riser to the cat walk. The process by which the knuckle boom crane carries the riser to the cat walk is man-operated manually, so the working time is flexible. In addition, the working time may vary depending on the weather, the work history, and the surrounding environment. In addition, a work delay may occur in the process of transferring the riser to the knuckle boom crane and in the process of transferring the riser to the cat walk.

Embodiments of the present invention provide a marine transport system that can improve the transfer efficiency of the riser.

In addition, embodiments of the present invention provides a transport system for ships that can perform the riser transfer operation regardless of external factors.

According to an aspect of the invention, the first lifting unit for transferring the object located inside the hull through the passage formed in the deck to the first transfer point of the upper deck; A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point; And a cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit, wherein the cat work is formed with an opening. The object is provided with a ship transport system passing through the opening in the process of moving to the second transfer point.

The first transfer point and the second transfer point may be located on the same line in the vertical direction.

The first lifting unit and the second lifting unit may move vertically to the first transfer point and the second transfer point, respectively.

A horizontal transfer unit configured to transfer the object to the first lifting unit, wherein the horizontal transfer unit comprises: a support block having a lower end fixed to a bottom surface of the hull in a vertical direction; A guide block fixedly coupled to an upper end of the support block; A horizontal moving block coupled to the guide block and movable along a length direction of the guide block; And a vertical moving block coupled to a lower portion of the horizontal moving block and movable up and down.

The first lifting unit may include a fixing block fixedly installed in a vertical direction on a bottom surface of the hull; A lifting block installed in the fixed block and movable to the first transmission point from the inside of the hull; And it may be installed at the tip of the lifting block, and may include a support for supporting the object.

The second lifting unit is installed on the deck, the lifting rail disposed in the vertical direction; An elevating block installed on the elevating rail and movable up and down along the elevating rail; A moving block installed in the lifting block and movable in a direction perpendicular to the longitudinal direction of the lifting rail; And a support part installed at the front end of the moving block and movable relative to the moving block in the vertical direction and supporting the object.

A conveying rail disposed perpendicular to a conveying direction of the second lifting unit and guiding a movement of the cat work; A first support part installed on an upper surface of the cat walk and supporting one end of the object; And a second support part installed on an upper surface of the cat walk and supporting the other end of the object, wherein at least one of the first and second support parts includes: the first support part and the second support part. It is movable along the longitudinal direction of the cat walk so that the distance between them is changed.

In embodiments of the present invention, since the riser is conveyed along a straight path, the rise distance of the riser can be minimized and the transfer time can be shortened.

In addition, embodiments of the present invention can be transferred to the riser without being affected by the weather, work history, and the surrounding environment because the riser is transferred by an automated system.

1 is a perspective view showing a ship transport system according to an embodiment of the present invention.
FIG. 2 is a left side view of the horizontal transfer unit of FIG. 1. FIG.
3 is a perspective view illustrating a first lifting unit of FIG. 1.
4 is a perspective view illustrating a second lifting unit of FIG. 1.
5 is a perspective view illustrating the cat walk unit of FIG. 1.
6 to 12 are views sequentially showing a process of transferring the riser using the vessel transport system.

Hereinafter, a ship transport system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a ship transport system according to an embodiment of the present invention.

Referring to FIG. 1, the hull is formed by assembling a plurality of hull blocks 10. A storage space 11 is formed inside each of the hull blocks 10. The object P is stored in the storage space 11. The object P includes various devices provided for the work performed in the ship. Object P comprises a pipe. Pipe P includes a drill pipe, a casing, a drilling collar, a riser, etc., which are loaded on a drill ship. The drilling vessel is loaded with pipes P, which can be connected at a length greater than the distance from the hull to the sea bottom. The pipes P have a certain length and are stored in the storage space 11. A passage 21 is formed in the deck 20 of the hull. The passage 21 connects the hull block inner 11 and the outer space. The passage 21 is formed with a length corresponding to or longer than the length of the pipe P. The passage 21 is provided as a space in which the pipe P located in the hull block interior 11 can move to the deck 20. Hereinafter, the riser P will be described as being loaded into the hull block 11, but the object to be loaded is not limited to the riser P.

Ship transport system 1000 transfers the riser (P) located in the hull block interior 11 to the top of the deck (20). The marine transport system 1000 includes a horizontal transport unit 100, a first lifting unit 200, a second lifting unit 300, and a cat work unit 400. The horizontal transfer unit 100 transfers the riser P from the inside of the hull block 11, and the first lifting unit 200 transfers the riser P from the inside of the hull block 11 to the top of the deck 20. . The second lifting unit 300 receives the riser P from the first lifting unit 200 and transfers it to the cat work unit 400, and the cat work unit 400 transfers the riser P to the work area. . The work area includes, in the case of a drilling ship, the pool of pools in which the drilling work takes place. Hereinafter, each configuration will be described in detail.

FIG. 2 is a left side view of the horizontal transfer unit of FIG. 1. FIG.

1 and 2, the horizontal transfer unit 100 is located inside the hull block 11. The horizontal transfer unit 100 includes the support block 110, the guide block 120, the horizontal moving block 130, the vertical moving block 140, the support pin 150, the vertical driver 160, and the wire 170. It includes.

The support block 110 is disposed in the hull block 11 in the vertical direction. The support block 110 is fixed to the bottom surface of the bottom surface of the hull block 10. The support block 110 is provided a plurality of spaced apart from each other. According to an embodiment, four support blocks 110 are provided and are arranged in a generally rectangular shape.

The guide block 120 is supported on the top of the support block 110. Two guide blocks 120 are provided, and are arranged side by side at the same height. One end of the guide block 120 is fixedly coupled to the top of any one support block 110, the other end is fixedly coupled to the top of the other support block (110).

The horizontal moving block 130 is disposed perpendicular to the longitudinal direction of the guide block 120 and lies on the guide blocks 120. One end of the horizontal moving block 130 is placed in one guide block 120, and the other end is placed in the other guide block 120. The horizontal moving block 130 is movable along the guide block 120 by the driving of a driver (not shown). The horizontal moving block 130 may move from one end of the guide block 120 to the other end. An accommodation space 131 is formed in the horizontal moving block 130. The accommodation space 131 is formed along the longitudinal direction of the horizontal moving block 130. The accommodation space 131 is an open space extending from the top surface of the horizontal moving block 130 to the bottom surface.

The vertical movement block 140 is positioned below the horizontal movement block 130. The vertical movement block 140 is disposed in parallel with the horizontal movement block 130 in the longitudinal direction thereof. The vertical moving block 140 is provided longer than the length of the riser P. Both ends of the vertical movement block 140 protrude downward. Support pins 150 are provided at both ends of the vertical movement block 140, respectively. The support pin 150 protrudes into spaces between both ends of the vertical moving block 140. The support pin 150 may move in the longitudinal direction of the vertical movement block 140. The support pins 150 are inserted into spaces A formed at both ends of the riser P, respectively.

The vertical driver 160 is installed at the top of the horizontal moving block 130. Two vertical drivers 160 are provided and are spaced apart from each other along the longitudinal direction of the horizontal moving block 130. Vertical driver 160 includes a winch.

The wire 170 connects the vertical driver 160 and the vertical moving block 140. Two wires 170 are provided and arranged side by side to be spaced apart from each other. The wires 170 may be connected to upper ends of the vertical moving blocks 140, respectively. Vertical driver 160 unwinds or winds wire 170. As a result, the vertical movement block 140 may move in the vertical direction.

3 is a perspective view illustrating a first lifting unit of FIG. 1.

1 and 3, the first lifting unit 200 is located inside the hull block 11. The first lifting unit 200 moves the riser P from the hull interior 11 to the first transfer point. The first delivery point is located above the deck 20. The first lifting unit 200 includes a fixed block 210 and a lifting block 220.

The fixing block 210 is arranged in parallel with the vertical direction of the longitudinal direction, the lower end is fixedly installed on the bottom surface of the hull block 10. Two fixed blocks 210 are provided and spaced apart from each other along the longitudinal direction of the horizontal moving block 130. The fixing blocks 210 are located under the guide block 120, respectively. The distance between the fixing blocks 210 corresponds to the length of the riser P.

The lifting block 220 is installed in each of the fixed blocks 210. The lifting block 220 is installed to be relatively movable in the vertical direction with respect to the fixed block 210. The elevating block 220 passes through a passage 21 formed in the deck 20 so that an upper end thereof is positioned above the deck 20. The lifting block 220 may be provided by combining a plurality of rods 221 and 222. According to the embodiment, the lifting block 220 is composed of two lifting rods (221, 222). The first elevating rod 221 is installed directly on the fixing block 210 and moves up and down along the guide groove 210a formed at one side of the fixing block 210. The first lifting rod 221 may move upwards to a height at which a lower end thereof is not separated from the guide groove 210a. The second lifting rod 222 is installed on the first lifting rod 221. The second lifting rod 222 is provided to be movable up and down along the first lifting rod 221. The supporting part 223 is formed at the upper end of the second lifting rod 222. The supporting part 223 supports the riser P at the bottom of the riser P. The upper surface of the support 223 may be provided in a shape corresponding to the outer peripheral surface of the riser (P). The upper surface of the support 223 may be provided as a rounded curved surface. The two support portions 223 support both ends of the riser P. In the state where the lifting block 220 is raised, the supporting part 223 is located at the first transmission point. In the present embodiment, the lifting block 220 has been described as being composed of two lifting rods 221 and 222, but the number of lifting rods 221 and 222 provided is not limited thereto. The number of lifting rods 221 and 222 may be changed according to the height of the first transfer point.

4 is a perspective view illustrating a second lifting unit of FIG. 1.

1 and 4, the second lifting unit 300 is installed on the deck 20. The second lifting unit 300 receives the riser P from the first lifting unit 200 at the first transfer point and transfers the riser P to the second transfer point. The second transfer point is located above the first transfer point, and is located on the same line as the first transfer point in the vertical direction. The second lifting unit 300 includes a lifting rail 310, a lifting block 320, a moving block 330, and a support 340.

The lifting rail 310 is disposed in parallel with the longitudinal direction thereof, the lower end is fixed to the hull deck (20). Two lifting rails 310 are provided and arranged side by side spaced apart from each other along the longitudinal direction of the passage (21). The lifting rails 310 are located at one side of the passage 21.

The lifting block 320 is installed on each of the lifting rails 310. The lifting block 320 is installed to be movable up and down along the lifting rail 310. The lifting block 320 may move along the guide rail 311 formed on one side of the lifting rail 310.

The moving block 330 is installed in each of the lifting blocks 320. The moving block 330 is installed to be movable relative to the lifting block 320. The moving block 330 may move in a direction perpendicular to the moving direction of the lifting block 320 when viewed from the top. The moving block 330 may move, and the front end thereof may be positioned on the same line as the passage 21 in the vertical direction.

Supports 340 are respectively provided at the front ends of the moving blocks 330. The supporting part 340 is installed to be relatively movable in the vertical direction with respect to the moving block 330. Upper ends of the supporting parts 340 support the risers P, respectively. The upper surface 341 of the base portion may have a shape corresponding to the outer surface of the riser P. The top surface 341 of the base portion may be provided as a rounded curved surface.

5 is a perspective view illustrating the cat walk unit of FIG. 1.

1 and 5, the cat walk unit 400 is located at the second transfer point. The cat walk unit 400 receives the riser P from the second lifting unit 300 at the second transfer point and transfers it. The catwalk unit 400 conveys the riser P in a direction different from the conveying direction of the second lifting unit 300. The cat walk unit 400 is supported by a plurality of support frames F. The supporting frames F are arranged side by side in the longitudinal direction thereof. The support frames F are fixedly installed at the lower end of the deck 20, and the upper end is positioned at a height corresponding to the second transfer point. The dog work unit 400 is supported on the top of the support frames (F). The cat walk unit 400 includes a transfer rail 410, a cat walk 420, a first support part 430, and a second support part 440.

The transfer rail 410 is disposed in parallel with the longitudinal direction of the passage 21 at the upper portion of the passage 21. The transfer rails 410 are provided in pairs and are arranged side by side apart from each other.

The cat walk 420 is placed on the transfer rail 410. Cloud wheels 423 are installed on the bottom surface of the cat walk 420. The rolling wheels 423 are located in the groove 411 formed on the upper surface of the transfer rail 410, and roll along the transfer rail 410. As a result, the cat walk 420 moves. The opening 421 is formed in the cat walk 420. The opening 421 includes an open space provided from the upper surface of the catwalk 420 to the lower surface. The opening 421 is formed along the longitudinal direction of the passage 21. The opening 421 corresponds to the passage 21 or is formed to have a longer length. The opening 421 provides a passage through which the riser P passes. The riser P moves from the lower portion of the cat work 420 to the upper portion through the opening 421.

The first support part 430 and the second support part 440 are respectively installed on the upper surface of the cat work 420. The first and second support parts 430 and 440 support both ends of the riser P carried by the cat walk 420. The first support part 430 is positioned adjacent to one end of the cat walk 420, and the second support part 440 is positioned adjacent to the other end of the cat walk 420. At least one of the first and second support parts 430 and 440 may be provided to be movable along the longitudinal direction of the cat walk 420. The distance between the first and second support parts 430 and 440 may be changed by the movement of the first support part 430 and the second support part 440. According to an embodiment, the first support part 430 is fixedly installed on the cat work 420, and the second support part 440 is movable along the guide rail 422 formed on the upper surface of the cat work 420. Is installed. The guide rail 422 is formed along the longitudinal direction of the cat walk 420. When the second support part 440 moves to be adjacent to the first support part 430, the distance between the first support part 430 and the second support part 440 is smaller than the length of the riser P. In addition, when the second support part 440 moves away from the first support part 430, the distance between the first support part 430 and the second support part 440 is greater than the length of the riser P. Upper surfaces of the first support part 430 and the second support part 440 may have shapes corresponding to the outer surface of the riser P, respectively. Top surfaces of the supporting parts 430 and 440 may be provided as rounded curved surfaces.

Hereinafter, a process of transferring a riser using the above-described marine transport system will be described.

6 to 12 are views sequentially showing a process of transferring the riser using the vessel transport system.

First, referring to FIG. 6, the horizontal moving block 130 moves along the guide block 120 and is positioned above the riser P to be transferred. The vertical driver 160 unwinds the wire 170 and lowers the vertical moving block 140. When the vertical movement block 140 is positioned adjacent to the riser P to be transferred, the support pins 150 protrude from both ends of the vertical movement block 140. Support pins 150 are inserted at both ends of the riser (P). The vertical driver 160 winds the wire 170 to move the vertical movement block 140 upward. The riser P is caught by the support pins 150 inserted at both ends thereof and moves upward with the vertical movement block 140. When the vertical movement block 140 is located in the accommodation space 131 of the horizontal movement block 130, as shown in FIG. 7, the horizontal movement block 130 moves toward the first lifting unit 200 and the first lifting unit Located at the top of 200. The vertical movement block 140 is lowered again to seat the riser P on the supporting portion 223 of the elevating block. The vertical movement block 140 which transfers the riser P to the support part 223 of the lifting block moves toward another riser P1 to be conveyed.

The lifting rods 221 and 222 on which the riser P rests, as shown in FIG. The first lifting rod 221 and the second lifting rod 222 rise simultaneously or sequentially. The riser P is positioned above the deck 20 through the passage 21 formed in the deck 20.

The elevating block 320 descends along the elevating rail 310 and is located at a lower level than the riser P. At this time, the tip of the moving block 330 is not located on the same line as the passage 21. As a result, a collision between the moving block 330 and the riser P may be prevented while the lifting block 320 or the riser P is moved.

When the lifting block 320 is located at a height lower than the riser P, the moving block 330 moves as shown in FIG. 9. The moving block 330 is moved so that its front end is located on the same line as the passage 21 in the vertical direction. When the supporting part 340 is positioned below the riser P, the lifting rods 221 and 222 descend. In the process of lifting the lifting rods 221 and 222, the riser P is seated on the support 340 at the first transfer point L1.

When the riser P is seated on the supporting part 340, as shown in FIG. 10, the lifting block 320 moves upward along the lifting rail 310. The elevating block 320 moves to a height adjacent to the cat walk 420. The supporting part 340 relatively moves upward with respect to the moving block 330. The supporting part 340 moves so that the riser P may be located above the cat walk 420. In the process of moving the support 340, the riser P passes through the opening 421 of the cat walk 420.

When the riser P is positioned above the cat walk 420 as shown in FIG. 11, the cat walk 420 moves along the transfer rail 410. The cat walk 420 moves so that the first support part 430 is located below one end of the riser P. In addition, the second support part 440 moves along the guide rail 442 formed on the upper surface of the cat walk 420 and is located below the other end of the riser P. When the first and second support parts 430 and 440 are located below the riser P, respectively, as shown in FIG. 12, the support part 340 of the second lifting unit is lowered. The riser P is seated on the first and second support parts 430 and 440 at the second transfer point L2 while the support part 340 descends. Cat walk 420 moves along the transfer rail 410 to move the riser (P).

By the above-described transfer process, the riser P located in the hull block interior 11 may be transferred to the upper portion of the deck 20 and transferred to the work area.

According to the above-described marine transport system, the horizontal transport unit 100, the first lifting unit 200, the second lifting unit 300, and the cat work unit 400 move the riser P along a straight path. By moving, the transfer distance of the riser P can be minimized. In addition, since the first transfer point L1 and the second transfer point L2 are located on the same line in the vertical direction, the movement path of the riser P can be simplified, and the transfer of the riser P occurs continuously. Can be. In addition, since the riser (P) is transferred by an automated system, it is possible to perform the riser (P) transfer operation without being affected by weather, work history, and the surrounding environment. This factor shortens the transfer time of the riser P to improve the transfer efficiency.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1000: ship transport system 100: horizontal transport unit
200: first lifting unit 300: second lifting unit
310: lifting rail 320: lifting block
330: moving block 340: support portion
400: cat work unit 410: feed rail
420: cat walk 430: first support portion
440: second support

Claims (7)

A first lifting unit for transferring an object located inside the hull through a passage formed in the deck to a first transfer point on the deck;
A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point;
A cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit; And
And a horizontal transfer unit configured to transfer the object to the first lifting unit.
The cat walk is formed with an opening,
The object passes through the opening in the process of moving to the second transfer point,
The horizontal conveying unit
A support block having a lower end fixed to the bottom surface of the hull in a vertical direction;
A guide block fixedly coupled to an upper end of the support block;
A horizontal moving block coupled to the guide block and movable along a length direction of the guide block; And
And a vertical moving block coupled to a lower portion of the horizontal moving block and movable in an up and down direction. A first lifting unit for transferring an object located inside the hull through a passage formed in the deck to a first transfer point on the deck;
A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point;
And a cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit.
The cat walk is formed with an opening,
The object passes through the opening in the process of moving to the second transfer point,
The first lifting unit
A fixing block fixedly installed on the bottom surface of the hull in the vertical direction;
A lifting block installed in the fixed block and movable to the first transmission point from the inside of the hull; And
Ship transport system is provided at the tip of the lifting block, and including a support for supporting the object. A first lifting unit for transferring an object located inside the hull through a passage formed in the deck to a first transfer point on the deck;
A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point;
And a cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit.
The cat walk is formed with an opening,
The object passes through the opening in the process of moving to the second transfer point,
The second lifting unit
An elevating rail installed on the deck and disposed up and down;
An elevating block installed on the elevating rail and movable up and down along the elevating rail;
A moving block installed in the lifting block and movable in a direction perpendicular to the longitudinal direction of the lifting rail; And
The ship transport system is installed at the tip of the moving block, and movable relative to the moving block in the vertical direction, and a support for supporting the object. A first lifting unit for transferring an object located inside the hull through a passage formed in the deck to a first transfer point on the deck;
A second lifting unit which receives the object from the first lifting unit at the first transfer point and transfers the object to a second transfer point located above the first transfer point;
And a cat walk receiving the object from the second lifting unit at the second transfer point and transferring the object in a direction different from a conveying direction of the second lifting unit.
The cat walk is formed with an opening,
The object passes through the opening in the process of moving to the second transfer point,
A conveying rail disposed perpendicular to a conveying direction of the second lifting unit and guiding a movement of the cat work;
A first support part installed on an upper surface of the cat walk and supporting one end of the object; And
Is installed on the upper surface of the cat walk, including a second support for supporting the other end of the object,
At least one of the first and the second support portion, the ship transport system for the ship is movable along the longitudinal direction of the cat walk so that the distance between the first support portion and the second support portion is changed. 5. The method according to any one of claims 1 to 4,
The first transfer point and the second transfer point is a ship transport system located on the same line in the vertical direction. 5. The method according to any one of claims 1 to 4,
And the first lifting unit and the second lifting unit move vertically to the first transfer point and the second transfer point, respectively.
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