KR20180121177A - Riser Capturing Device - Google Patents

Abstract

The present invention relates to a riser capturing device and comprises: a main frame; an auxiliary frame unit slidably installed at both ends of the main frame; a crane connection unit installed on the main frame at an upper portion thereof; a turning unit installed at a part of the crane connection unit and rotating the main frame; and a winding unit installed over the entire upper portion of the main frame and capable of adjusting a tilt or balance of a riser when the riser is transported.

Description

RISER CAPTURING DEVICE

The present invention relates to a riser capturing device.

In general, submarine drilling can be carried out only by other tugboats, and rig ships or fixed platforms mainly for underwater drilling, where underwater drilling is carried out with anchorage at a certain point in the sea using a mooring device, are mainly used However, in recent years, a so-called drill ship has been developed to be equipped with advanced drilling equipment and manufactured in the same form as a general ship so that it can be sailed by its own power, and is used for deep sea drilling.

In the center of the rig, rigged platform or drill rig (hereinafter referred to as drill rig) with various drilling equipment to drill oil and gas existing in the underground of the sea floor, A moonpool is formed so that a riser or a drill pipe for drilling can be moved up and down and an operator moves the riser and the drill pipe downward through a door formed at the center of the drill ship, Drill seabed resources stored in a well located in the rock bed below the sea bed.

The riser is a member that is advanced to the bottom before reaching the drilling pipe to the well and protects the drill pipe while preventing the drilling mud from being exposed to seawater. Once the riser is installed, the drill pipe into the riser is advanced down through the seafloor to the well.

In this way, when the riser is moved downward to the bottom of the sea, or when the drill pipe is advanced to the well, the short riser or drill pipe is moved forward by connecting the short riser or drill pipe instead of moving the riser or drill pipe downward. A BOP (blowout preventer) is installed on the bottom of the sea floor to prevent abnormal high pressure from rising on the drill pipe. In the seafloor, the casing is fixed by cement, and a drill pipe equipped with a drill bit is inserted into the casing to drill the seabed. The mud is inserted into the drill pipe to make it easier to drill by lubricating and preventing the drill bit from overheating by heat generated when the drill bit penetrates the ground. At the end of the drilling, the riser is transported to the drill floor through the portal, disassembled and transported to the loading site.

A conventional riser feeder is disclosed in Korean Patent Publication No. 10-1217902, and includes a gantry crane unit installed in a riser holder for lifting a riser and feeding the riser to a parking position for supplying risers, And an elevator which is installed at a vertical upper portion of the position and lifts the riser placed outside the riser holder to the outside of the riser holder, and a riser feeder which feeds the riser lifted by the elevator to the drill floor .

However, in the conventional riser conveying device, there is no back up solution when the elevator portion, which is the core equipment for handling the riser, is in trouble and maintenance / maintenance, so that the operation downtime becomes long. And the drilling operation is delayed.

In order to solve such a problem, it is possible to propose a temporary single point lifting using a knuckle boom crane provided in a drill ship, but it is possible to provide a riser damage possibility, in particular, a buoyancy module ) Part is large and the unstable movement path is an incomplete solution.

Korean Registered Patent No. 10-1217902 (Registered on December 26, 2012)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the conventional art as described above, and it is an object of the present invention to provide a system and a method for reducing redundancy and back-up when a failure occurs in an elevator for lifting a riser to the outside of a riser, -Up) function so as to solve the single-fail problem.

According to an aspect of the present invention, there is provided a riser capturing device comprising: a main frame; an auxiliary frame portion slidably installed at both ends of the main frame;

A crane connection portion installed on the main frame at an upper portion thereof; A turning part installed at a part of the crane connecting part, for rotating the main frame; And a hoisting portion installed over the entire upper portion of the main frame and capable of adjusting the tilt of the riser or maintaining a balance when the riser is transported.

Specifically, the auxiliary frame part may include a telescopic beam partly inserted into the main frame to be slidable; And a hydraulic cylinder connected to the telescopic beam and installed inside the main frame.

Specifically, the crane connecting portion includes: a first connecting member whose lower end is connected to an upper central portion of the main frame; And a second connecting member having a receptacle interface for connecting to a crane at an upper end thereof, wherein the lower surface is connected to the upper end of the first connecting member and the upper surface is connected to the lower end of the second connecting member , A rotational force is transmitted to the first linking member so that the main frame rotates left and right.

Specifically, the swivel joint includes: a rotary joint having a lower surface connected to the first connection member and an upper surface connected to the second connection member; And a rotating device for rotating the rotary joint left and right.

Specifically, the hoisting unit includes: a dual drum winch installed on the main frame; A turn-down sheave installed at an end of the auxiliary frame and guiding a wire connected to the dual drum winch; And a hook block connected to the wire and capturing one end of the riser.

Specifically, the dual drum winch includes a first driving unit installed at one side of the upper center portion of the main frame, for rotating the first drum for winding and storing the first wire; And a second driving unit that is installed on the other side of the upper center portion of the main frame and rotates a second drum for winding and storing the first wire, wherein the first driving unit and the second driving unit simultaneously or individually The first drum and the second drum are rotated simultaneously or only one of them may be rotated so that the riser can be transported in a horizontal state or a tilted state. When the shaking occurs in the process of transferring the riser, The first drum or the second drum is selectively rotated in accordance with the swing of the riser so that the first wire or the second wire is loosened or pulled so that the center of gravity of the riser, The stabilization can be suppressed and the balance of the riser can be maintained.

Specifically, the hook block can selectively apply a single belt type or a lifting lug type by fastening a lifting lug or a single belt as a grip member at the time of feeding the riser.

Specifically, a power supply unit, which is provided in the main frame, supplies electric power to each of the auxiliary frame unit, the turning unit, and the winding unit. And a controller provided in the main frame and controlling the power supply unit.

Specifically, the main frame may further include a plurality of pad eyes that can connect a grip member to a lower portion of the main frame.

The riser capturing device according to the present invention can be used for redundancy and backup (back-up) purposes when a failure occurs in an elevator for lifting the riser to the outside of the riser and maintenance / Operation downtime can be reduced while easily solving the single fail problem, and cost loss due to delay in drilling due to riser conveyance failure can be reduced.

Further, the riser capturing device according to the present invention can perform two-point lifting even if a general crane such as a knuckle boom crane or a deck crane provided on a drill rig is used to stably perform the riser handling .

Further, the riser capturing device according to the present invention has a swivel portion that enables rotation of the main frame and a lifting portion that enables the adjustment of the inclination of the riser, so that the rotation and inclination of the riser can be freely adjusted, . ≪ / RTI >

In addition, the riser capturing device according to the present invention may include a plurality of pad-eyes that can be connected to various grip members at a lower portion of the main frame, It is possible not only to cope with various lengths of the riser but also to hold the central part of the riser, thereby preventing deformation and deterioration of the function of the riser due to the load and prolonging the life of the riser.

1 is a front view of a riser capturing device in accordance with an embodiment of the present invention.
2 is a view showing a portion of a drill rig in which a riser capturing device according to an embodiment of the present invention is used.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

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

FIG. 1 is a front view of a riser capturing device according to an embodiment of the present invention, and FIG. 2 is a view of a portion of a rigging line in which a riser capturing device according to an embodiment of the present invention is used.

Prior to describing the riser capturing device 10 in accordance with an embodiment of the present invention, reference is first made to FIG. 2 to describe the rigging line 1 in which the riser capturing device 10 according to an embodiment of the present invention is used, Explain it.

Referring to FIG. 2, the drill rig 1 may be a rig, a fixed platform, or a drill rig with various drilling equipment to drill oil or gas existing in the basement of the seabed. The drill rig 1 is provided with a riser 2 or a drill pipe for drilling oil, gas and the like existing in the basement of the seabed.

The riser 2 is a member which protects the drill pipe while preventing the drilling mud from being exposed to the seawater and is connected to the riser holder 3 by a riser feeder 4, Lt; / RTI >

The riser transfer device 4 includes a gantry crane 5 installed inside the riser holder 3 to lift up the loaded riser 2 and transfer the loaded riser 2 to the parking position 8, An elevation portion 7 provided at the vertical upper portion and provided outside the riser holder 3 for lifting the riser 2 placed on the parking position 8 to the outside of the riser holder 3, And a riser conveying part 6 for conveying the drawn riser 2 to a floor to be received.

Among the above configurations, the elevation unit 7 is a core of riser handling. When the failure and maintenance / maintenance situation occurs, the drilling operation is interrupted. To solve this problem, the elevator unit 7, A crane 9 such as a boom crane or a deck crane can be used. However, there is a problem that the possibility of damage to the riser is high and the handling of the riser can not be performed stably because of the temporary single point lifting method.

The present embodiment provides a riser capturing device 10 that can be easily connected to a crane 9 to solve such a problem and can reliably perform riser handling, I will explain.

1, a riser capturing device 10 according to an exemplary embodiment of the present invention includes a main frame 100, a sub frame 200, a crane connecting portion 300, a pivot portion 400, A power supply unit 600, and a control unit 700. The power supply unit 600 includes a power supply unit 600,

The main frame 100 allows two-point lifting in the form of a spreader bar extending in the longitudinal direction of the riser 2 and is connected to the crane 9 by a crane connecting portion 300, And can be fastened so as to be rotated 360 degrees horizontally by the swivel unit 400 to be described later.

The main frame 100 may further include a plurality of pad eyes 110 to which various grip members 800 can be connected. Here, the grip member 800 may be a lifting lug 810, a single belt 820, or the like.

The main frame 100 may be provided at both ends with an auxiliary frame part 200 to be described later. A crane connecting part 300 to be described later may be installed at an upper central part of the main frame 100, 500 may be installed.

The main frame 100 may include a power supply unit 600 and a control unit 700, which will be described later.

The auxiliary frame unit 200 may be slidably mounted on both ends of the main frame 100 to correspond to various lengths of the riser 2. The auxiliary frame unit 200 may include a first sub frame 210, As shown in FIG.

The first auxiliary frame 210 may be slidably mounted on one end of the main frame 100 and may include a first telescopic beam 211 and a first hydraulic cylinder 212.

The second auxiliary frame 220 may be slidable on the other end of the main frame 100 and may include a second telescopic beam 221 and a second hydraulic cylinder 222.

Each of the first and second telescopic beams 211 and 221 may be installed such that a portion of the first and second telescopic beams 211 and 221 is inserted into the main frame 100 to be slidable. Turn Down Sheaves 521 and 522 may be respectively installed.

Each of the first and second hydraulic cylinders 212 and 222 may be installed inside the main frame 100 and may be connected to each of the first and second telescopic beams 211 and 221 to generate a power supply 600 And can be driven.

When the driver manipulates the sliding operation lever in the crane 9 and the sliding operation information is transmitted to the control unit 700 to be described later provided in the main frame 100 in a wireless communication manner, The first and second telescopic beams 211 and 221 are controlled to supply electric power to the first and second hydraulic cylinders 212 and 222 through the power supply unit 600 to be described later, And can be slid in the horizontal direction. Although the auxiliary frame unit 200 is driven by the wireless communication system in the present embodiment, it is needless to say that the auxiliary frame unit 200 can be driven in various ways such as a wired communication system .

The crane connecting part 300 may be installed at the upper central part of the main frame 100 so as to connect the main frame 100 to the crane 9 and may include a first connecting member 310, (320), and a receptacle interface (330).

The lower end of the first linking member 310 may be connected to the upper center portion of the main frame 100 and the upper end thereof may be connected to the swinging portion 400 described later. The first linking member 310 can transmit the rotational force of the swing unit 400, which will be described later, to the main frame 100.

The second linking member 320 may be provided with a receptacle interface 330 for connecting the lower end of the second linking member 320 to the swinging part 400 to be described later and the crane 9 at the upper end thereof.

The receptacle interface 330 may be provided at the upper end of the second connecting member 320 so as to be connected to the crane 9.

The swivel part 400 may be installed between the first connecting member 310 and the second connecting member 320 of the crane connecting part 300 to enable rotation of the main frame 100, And a rotating device 420. The rotating device 420 may be a rotating device.

The lower surface of the rotary joint 410 may be connected to the first connection member 310 and the upper surface thereof may be connected to the second connection member 320 and may be rotated to the left or to the right by a rotation device 420 to be described later.

The rotating device 420 can rotate the rotating joint 410 by receiving power from a power supply unit 600, which will be described later. The rotating device 420 may be a rotational speed reducing device that can prevent the rotating joint 410 from rotating the first connecting member 310 at an excessive speed relative to the second connecting member 320. [

When the rotation operation information is transmitted to the control unit 700, which will be described later, provided in the main frame 100 in accordance with the radio communication method as the driver operates the rotation operation lever in the crane 9, 700 may be controlled to supply electric power to the rotating device 420 through a power supply unit 600 to be described later so that the rotating joint 410 can be rotated at a certain angle. Although it has been described in the present embodiment that the swivel unit 400 is driven by the wireless communication system, it is needless to say that the swivel unit 400 can be driven by various methods such as a wired communication system, not limited to the wireless communication system.

The winding unit 500 can be used to lift the riser 2 and to adjust the tilt of the riser 2 when feeding the riser 2 and to maintain the balance of the riser 2, And may be installed over the entire upper portion and includes a dual drum winch 510, first and second turn down sheaves 521 and 522, first and second hook blocks 531 and 532, first and second wires 541, and 542, respectively.

The dual drum winch 510 can be installed at the upper center portion of the main frame 100 and includes a first drum 511, a first driving portion 512, a second drum 513, a second driving portion 514, As shown in FIG.

The first drum 511 and the first driving unit 512 may be installed on one side of the upper center portion of the main frame 100.

The first drum 511 can be wound around the first wire 541 in a cylindrical shape.

The first driving unit 512 includes a first hook block 531 connected to the first wire 541 by rotating the first drum 511 by receiving power from a power supply unit 600 to be described later And can be lifted up and down.

The second drum 513 and the second driving unit 514 may be installed on the other side of the upper center portion of the main frame 100.

The second drum 513 can be wound around the second wire 542 in a cylindrical shape.

The second driving unit 514 is connected to the second hook block 532 to be described later which is connected to the second wire 542 by receiving the electric power from a power supply unit 600 to be described later and rotating the second drum 513 And can be lifted up and down.

The first driving unit 512 and the second driving unit 514 can simultaneously or separately supply electric power from a power supply unit 600 to be described later so that the first drum 511 and the second drum 513 can be simultaneously or individually . Accordingly, the dual drum winch 510 enables the tilt adjustment of the riser 2.

That is, the dual drum winch 510 is used to simultaneously hold the first drum 511 and the second drum 513 at the same time in a state in which the riser 2 is captured by the first and second hook blocks 531 and 532 In the case where the riser 2 is normally transported in a horizontal state by rotation, and when it is required to have a slope as necessary, for example, to avoid obstacles in the transportation process, either the first drum or the second drum 513 So that the riser 2 can be transported in a tilted state by rotation.

The dual drum winch 510 selectively drives the first driving part 512 and the second driving part 514 in accordance with the swing of the riser 2 when shaking occurs in the process of conveying the riser 2 The first wire 541 or the second wire 542 is released or pulled by selectively rotating the first drum 511 and the second drum 513 so that the riser 2, The center of gravity of the riser 2 is stabilized and the shaking is suppressed so that the balance of the riser 2 can be maintained.

When the hoist operation information is transmitted to the control unit 700, which will be described later, provided in the main frame 100 in accordance with the wireless communication method, as the driver operates the hoisting operation lever in the crane 9, The dual drum winch 510 can be rotated at a constant speed by controlling the power supply unit 700 to supply power to the dual drum winch 510 through a power supply unit 600 to be described later. Although it has been described in the present embodiment that the swivel unit 400 is driven by the wireless communication system, it is needless to say that the dual drum winch 510 can be driven by various methods such as a wired communication system.

The first turn-down sheave 521 may be installed at the end of the first telescopic beam 211 constituting the first sub-frame 210 and may serve to guide the first wire 541 .

The second turn-down sheave 522 can be installed at the end of the second telescopic beam 221 constituting the second sub-frame 220 and can guide the second wire 542 .

The first hook block 531 may be connected to a first wire 541 connected to the first drum 511 and directly capture one end of the riser 2 when the riser 2 is fed, 512 to be lifted up and down.

The second hook block 532 may be connected to a second wire 542 connected to the second drum 513 and may directly capture the other end of the riser 2 when the riser 2 is fed, And can be lifted up and down by driving of the motor 514.

The first and second hook blocks 531 and 532 are connected to the lifting lug 810 or the single belt at the time of feeding the riser 2 to selectively apply a single belt method or a lifting lug method .

The electric power supply unit 600 may be provided in the main frame 100 and may control the electric power required for each of the auxiliary frame unit 200, the swivel unit 400 and the winding unit 500 under the control of the control unit 700 Can be supplied. The power supply unit 600 may be provided in the upper central portion or inside the main frame 100 so as to maintain the balance of the main frame 100 without interfering with the riser handling.

The power supply unit 600 may be configured to transmit power required to the sub frame unit 200, the swing unit 400, and the power supply unit 500 by receiving power from the outside. In this case, It may be preferable that the electric wire for interrupting the handling of the riser is constituted by a battery for storing electric power.

The control unit 700 may be provided in the main frame 100 and may control the power supply unit 600 to drive the auxiliary frame unit 200, the turning unit 400, and the winding unit 500, respectively . The control unit 700 may be provided in the upper central portion or the inside of the main frame 100 so as to maintain the balance of the main frame 100 without interfering with the handling of the riser.

As described above, the present embodiment can be used for redundancy and backup purposes at the time of occurrence of failure and maintenance / repair of the elevator unit 7 that raises the riser 2 to the outside of the riser 3, So that it is possible to reduce the operation downtime while easily solving the single-fail problem, and to reduce the cost loss caused by the delay of the drilling operation due to the riser conveyance disturbance.

In addition, the present embodiment can stably perform riser handling by configuring two-point lifting to be possible even when a general crane 9 such as a knuckle boom crane or a deck crane provided in the drill rig 1 is used.

The present embodiment is characterized in that the main body 100 is provided with the swivel portion 400 enabling the rotation of the main frame 100 and the winding portion 500 capable of adjusting the tilt of the riser, This freeing allows the riser handling to be performed more reliably.

The main frame 100 includes a main frame 100 and a main frame 100. The main frame 100 includes a main frame 100 and a main frame 100. The main frame 100 includes auxiliary frames 200, By providing the eye 110, not only the various lengths of the riser 2 can be accommodated, but also the central portion of the riser 2 can be held, so that the deformation and the function deterioration due to the load of the riser 2 can be prevented , The life of the riser 2 can be extended.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be apparent to those skilled in the art that various combinations and modifications may be made without departing from the scope of the present invention. Therefore, it should be understood that the technical contents related to the modifications and applications that can be easily derived from the embodiments of the present invention are included in the present invention.

1: Drill ship 2: riser
3: Riser Hold 4: Riser Feeding Device
5: gantry crane part 6: riser conveying part
7: elevation part 8: parking position
9: Crane
10: Riser capturing device 100: Main frame
110: pad eye 200: auxiliary frame part
210: first auxiliary frame 211: first telescopic beam
212: first hydraulic cylinder 220: second auxiliary frame
221: first telescopic beam 222: first hydraulic cylinder
300: crane connecting part 310: first connecting member
320: second connecting member 330: receptacle interface
400: Swivel part 410: Rotary joint
420: Rotating device 500:
510: dual drum winch 511: first drum
512: first driving part 513: second drum
514: second driving part 521: first turn-down sheave
522: second turn-down sheave 531: first hook block
532: second hook block 541: first wire
542: second wire 600: power supply
700: control unit 800: grip member
810: Lifting lug 820: Single belt

Claims (9)

Mainframe;
An auxiliary frame part slidably installed at both ends of the main frame;
A crane connection portion installed on the main frame at an upper portion thereof;
A turning part installed at a part of the crane connecting part, for rotating the main frame; And
And a wiper installed over the entire upper portion of the main frame and capable of adjusting the tilt or balance of the riser when the riser is transported. [2] The apparatus of claim 1,
A telescopic beam partly inserted into the main frame so as to be slidable; And
And a hydraulic cylinder connected to the telescopic beam and installed inside the main frame. The crane according to claim 1,
A first connecting member whose lower end is connected to an upper central portion of the main frame; And
And a second connecting member having a receptacle interface for connecting to a crane at an upper end thereof,
Wherein,
Wherein the lower surface of the main body is connected to the upper end of the first linking member and the upper surface is connected to the lower end of the second linking member to transmit rotational force to the first linking member, Capture device. The apparatus according to claim 3,
A lower surface connected to the first connection member and an upper surface connected to the second connection member; And
And a rotating device for rotating the rotary joint in the left and right direction. The apparatus according to claim 1,
A dual drum winch installed on the main frame;
A turn-down sheave installed at an end of the auxiliary frame and guiding a wire connected to the dual drum winch; And
And a hook block connected to the wire and capturing one end of the riser. 6. The dual drum winch according to claim 5,
A first driving unit installed at one side of the upper center portion of the main frame for rotating the first drum for winding and storing the first wire; And
And a second driving unit that is installed on the other side of the upper center portion of the main frame and rotates the second drum for winding and storing the first wire,
The first driving unit and the second driving unit,
Simultaneously or separately,
By rotating the first drum and the second drum either simultaneously or in any one direction, the riser can be conveyed in a horizontal state or an inclined state,
The first and second drums may be selectively rotated in accordance with the swing of the riser to cause the first wire or the second wire to be pulled or pulled out when the shake occurs in the process of feeding the riser, Wherein the center of gravity of the riser, which is changed by the swinging of the riser, is stabilized, so that the swinging of the riser can be suppressed and the balance of the riser can be maintained. 6. The hook block according to claim 5,
Wherein a lifting lug or a single belt is fastened as a grip member at the time of conveying the riser so that a single-belt type or a lifting lug type can be selectively applied. The method according to claim 1,
A power supply unit that is provided in the main frame and supplies electric power to the auxiliary frame unit, the pivot unit, and the winding unit; And
Further comprising a control unit provided in the main frame for controlling the power supply unit. The apparatus according to claim 1,
And a plurality of pad eyes capable of connecting a grip member to a lower portion thereof.

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