KR20170039406A - Hoisting Apparatus and drilling marine structure having the same - Google Patents

Abstract

The present invention relates to a hoisting apparatus for drilling and a marine structure having the same and, more specifically, to a hoisting apparatus for drilling and a marine structure having the same which provide a hoisting apparatus of a new form to control hoisting by a plurality of wires. According to the present invention, the hoisting apparatus for drilling comprises: a drilling tower; a hoisting winch arranged behind the drilling tower; a top sieve assembly arranged on an upper portion of the drilling tower; a traveling block connected to a support means to support a drilling pipe; a heave compensator which is arranged behind the drilling tower and compensates a vertical motion of the drilling pipe; and a tension equalizer which is arranged behind the drilling tower and compensates a length change between one or more wires repeatedly wound by the hoisting winch. The top sieve assembly includes a first front unit, a first rear unit, a second front unit, and a second rear unit. One ends of the wires are fixed on the tension equalizer, and the other ends pass through the heave compensator, the first rear unit, the first front unit, the traveling block, the second front unit, and the second rear unit in the order listed to be wound on the hoisting winch.

Description

Field of the Invention [0001] The present invention relates to a hoisting apparatus and a marine structure having the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drilling hoisting device and an offshore structure having the same, and more particularly, to a drilling hoisting device for providing a new type of hoisting device for controlling hoisting by a plurality of wires, .

With the rapid development of international industrialization and industry, the use of earth resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, various marine structures suitable for economical development of marginal oil fields and deep sea oil fields which have been neglected due to economic reasons have been developed recently.

Such marine structures include various forms such as floating marine equipment, semi-submersible marine equipment, stationary marine equipment, lifting marine equipment, drilling rigs and the like.

In order to drill oil and gas existing in the basement of the sea floor, a riser or drill pipe for drilling oil and gas existing under the sea floor is fixed in an offshore structure equipped with various drilling equipments And the drilling operation is carried out.

Hoisting System is used to safely lift and lower drill pipe, casing, and riser in heavy drilling.

The conventional hoisting apparatus has the following disadvantages.

First, a drilling operation is performed inside a closed space called a derrick, and a small space called a V-door on both sides of the derrick moves the drill bit, the drill pipe, the casing, the riser, Work is inconvenient.

Second, the wire rope is wound several times (n times, usually 6 to 8 times) in the crown block and the traveling block to reduce the load acting on the drawworks, and then the deadline anchor (Deadline Anchor). Therefore, the speed of the wire line on the side of the drawworks moves at a very high speed n times the hoisting speed. In addition, the wire rope is wound on the drums of Drawworks in several layers (multi-layer), which causes friction and pressing between the interlayer wire ropes. As a result, there is a drawback that the wire rope is worn so much that the life of the wire rope is short and a slip and cut operation is required. In addition, since the wire rope is subjected to high speed noise and only one wire rope is used, a very dangerous situation occurs when the wire rope breaks.

Third, floating drilling rig is not fixed to the sea floor, so it makes vertical movement (Heave Motion) by the wave during drilling. To compensate for this vertical motion, a Heave Compensator is installed on top of the derrick. Conventional hoisting devices have a problem that the height of the rotating device is high and the center of mass (CoG) is high due to the provision of a large and heavy hibcompenser on the derrick, which lowers the stability of motion of the entire drilling rig.

Korean Patent Laid-Open Publication No. 10-2012-0035432 (Apr. 16, 2012)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a drilling tower capable of providing a wide and open drill floor and to improve the redundancy and safety of the hoisting apparatus and to provide a load acting on the hoisting winch And to provide a hoisting device for reducing the load.

It is another object of the present invention to provide a hoisting device that automatically and uniformly operates the tension of a plurality of wire ropes.

Another object of the present invention is to provide a hoisting apparatus for lowering the height and mass center of a hoisting system to improve the stability of motion of a drilling rig.

According to one aspect of the present invention, a drilling tower; A hoisting winch provided behind the drilling tower; A top sheave assembly provided on top of the drilling tower; A traveling block connected to a supporting means for supporting the drilling pipe; A hive compensator provided behind the drilling tower for compensating vertical motion of the drilling pipe; And a tension equalizer provided behind the drilling tower to compensate for a change in length between one or more wires repeatedly wound by the hoisting winch, wherein the tower sieve assembly comprises a first front unit, Wherein one end of the wire is fixed to the tension equalizer and the other end is connected to the hive compensator, the first rear unit, the first front unit, the travel unit, the second front unit, and the second rear unit, The ring block, the second front unit, and the second rear unit in order to wind the hoisting winch on the hoisting winch.

The hoisting winch includes a winch drum to which a wire is wound; A driving device for rotating the winch drum; And a brake for controlling winding and unwinding of the wire, wherein a plurality of wires are wound independently on the winch drum, and a separation frame is provided between the plurality of wires.

Preferably, the first front unit and the second front unit include at least one sheave, and the diameter of each sheave of the first front unit and the second front unit is different from each other.

Preferably, the traveling block includes at least one sheave, and the diameter of the traveling block sheave is formed differently.

The hybrid compasser includes: a compressor sheave through which a wire passes; A compressor sheave holder for supporting the compressor sheave; A guide rail for guiding the compressor sheave; A compensator cylinder device for compensating the vertical motion of the compressor sheave; And an accumulator for supplying hydraulic pressure to the compressor cylinder device.

The tension equalizer comprising: a main body; A plurality of cylinders provided inside the main body; A rod coupled to the plurality of cylinders; A fluid chamber provided in the main body and closed by the cylinder; And a fluid pipe connecting the plurality of fluid chambers to each other to allow movement of the fluid, wherein one end of the rod is fixed to an upper portion of the cylinder and the other end is connected to a plurality of wires, And the fluid in each of the fluid chambers moves through the fluid pipe in accordance with the applied tension so that the pressure of each fluid chamber maintains an equilibrium.

A well center is preferably disposed in front of the drilling tower.

According to another aspect of the present invention, there is provided a drilling structure having a plurality of drilling hoisting devices.

The present invention relates to a drilling tower capable of providing a wide open drill floor and a plurality of wire ropes as a single layer to improve the redundancy and safety of the hoisting device A hoisting winch is provided to reduce the load acting on the hoisting winch.

In addition, since the wire is wound on the traveling block once (1 / 2fall) by a plurality of wires mounted on the winch drum as a single layer, the number of hoisting winches The rotation speed can be maintained at a low speed so that the life of the wire is extended, the noise is reduced, and even if one wire is broken, the wire can be operated safely.

Further, since the drilling work is performed in front of the drilling tower, the deck crane is easily accessible to the drill floor, and there is no obstacle when the drilling pipe or the riser is handled. There is an effect that the convenience is increased.

Further, since the present invention is installed below the drilling tower, the height of the hoisting system and the center of gravity (CoG) of the hoisting system are lowered, thereby improving the stability of the drilling rig.

1 is a schematic view of a drilling hoisting apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic view of a drilling hoisting apparatus according to an embodiment of the present invention, except for a drilling tower.
Fig. 3 is a view schematically showing the hoisting winch shown in Fig. 1. Fig.
Fig. 4 is a view schematically showing the top sheave shown in Fig. 1. Fig.
Fig. 5 is a view schematically showing the traveling block shown in Fig. 1. Fig.
FIG. 6 is a schematic view of the hybrid compass shown in FIG. 1. FIG.
FIG. 7 is a view schematically showing the tension equalizer shown in FIG. 1. FIG.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 is a schematic view of a drilling hoisting apparatus according to an embodiment of the present invention. FIG. 2 is a view schematically showing an apparatus except for a drilling tower in a drilling hoisting apparatus according to an embodiment of the present invention. Fig. 3 is a view schematically showing the hoisting winch shown in Fig. 1, Fig. 4 is a view schematically showing the top sheave shown in Fig. 1, Fig. 5 is a view showing the traveling block shown in Fig. Fig. 6 is a schematic view of the hive compensator shown in Fig. 1, and Fig. 7 is a view schematically showing the tension equalizer shown in Fig.

As shown in these drawings, the drilling hoisting apparatus according to the present embodiment includes a drilling tower 100, a hoisting winch 200 provided behind the drilling tower 100, A top sieve assembly 300, a traveling block 400 connected to support means (not shown) for supporting a drilling pipe (not shown); A hive compensator (500) provided behind the drilling tower (100) for compensating vertical motion of the drilling pipe; And a tension equalizer 600 provided behind the drilling tower 100 to compensate for a change in length between one or more wires that are repeatedly wound by the hoisting winch 200, Includes a first front unit 320, a first rear unit 330, a second front unit 360 and a second rear unit 370. One end of the wire is fixed to the tension equalizer 600 The first front unit 320, the traveling block 400, the second front unit 360, and the second rear unit 370. The first rear unit 330, the second front unit 360, Through the hoisting winch 200 in order.

As shown in FIG. 2, when the wire is wound on the hoisting winch 200 (indicated by a solid line), the traveling block 400 is hoisting, and when the wire is loosened from the hoisting winch 200 And the traveling block 400 is lowered.

Here, the side facing the well center 30 of the drill floor 20 in the drilling tower 100 is referred to as the front (direction A in FIG. 1) of the drilling tower 100, (The direction B in Fig. 1) of the tower. Further, when the drilling tower 100 looks toward the well center 30, the left side is described as the left side of the drilling tower, and the right side thereof is described as the right side of the drilling tower.

Conventionally, the drilling pipe is handled within the drilling tower and the work for hoisting is performed. Inside the drilling tower, the space is limited due to the v-door shape. However, as shown in FIG. 1, The drilling tower 100 is provided with a well center 30 in front of the drilling tower 100 to simplify the structure of the drilling tower because the pipe is hoisted or handled outside the drilling tower 100.

In addition, since the drilling operation is performed in front of the drilling tower, the deck crane is easily accessible to the drill floor, and there is no obstacle in handling of the drill pipe or riser, thereby securing the visibility of the operator. can do.

In addition, since most of the main equipment is installed outside the drilling tower, it can be easily installed, dismantled and maintained.

The hoisting winch 200 includes a winch drum 220 wound with a wire, a driving device (not shown) for rotating the winch drum 220, and a brake (not shown) for controlling winding and unwinding of the wire And a plurality of wires 10, 10 ', 10 " can be independently wound on the winch drum 220. Separate frames (not shown) can be wound between the plurality of wires, May be provided around the drum 220.

The driving device may include a plurality of hydraulic or electric motors and a speed reducer.

Since a plurality of wires are mounted on the winch drum 220 in a single layer as described above, the wires are once wound on the traveling block 400 (once / two falls), so that the conventional drawrows The rotation speed of the hoisting winch 200 can be maintained at a lower speed, so that the life of the wire is extended and the noise is reduced.

The top sieve assembly 300 includes a first front unit 320, a first rear unit 330, a second front unit 360 and a second rear unit 370. The first front unit 320, And the first rear unit 330 are supported by the first top sieve supporting portion 390 and the second front unit 360 and the second rear unit 370 are supported by the second top sieve supporting portion 380 .

The first front sheave 321, the second front sheave 322 and the third front sheave 323 included in the first front unit and the fourth front sheave 361 included in the second front unit, The front sheave 362 and the sixth front sheave 363 are connected to the first block sheave 430, the second block sheave 420 and the third block sheave 410 of the traveling block 400, The diameter of each sheave can be made different from each other.

The diameter of the second front sheave 322 is formed larger than the diameter of the first front sheave 321 and the diameter of the third front sheave 323 is formed to be larger than the diameter of the second front sheave 322 . The diameter of the fifth front sheave 362 is larger than the diameter of the fourth front sheave 361 and the diameter of the sixth front sheave 363 is larger than the diameter of the fifth front sheave 362 . The sheaves of the first front unit 320 and the second front unit 360 are formed to be smaller toward the right side of the drilling tower 100, It may be formed in a shape in which the diameter is reduced.

The traveling block 400 is connected to a supporting means for supporting the drilling pipe and includes a plurality of sheaves such as a first block sheave 430, a second block sheave 420 and a third block sheave 410 And the first, second, and third block sheaves 430, 420, and 410 may be supported by the block sheave supports 440.

4, the wire that has passed through the first rear unit 330 sequentially passes through the first front sheave 321, the first block sheave 430, and the fourth front sheave 361 The wire that has passed through the second forward sheave 322 may pass through the fifth forward sheave 362 through the second block sheave 420 and may move to the third forward sheave 322 May pass through the sixth front sheave 363 via the third block sheave 410. [

With this configuration, when the plurality of wires 10, 10 ', 10 " passing through the top sieve assembly 300 pass through the sheaves of the traveling block 400, no interference occurs between the wires.

The Hivecompensator (500) serves to offset the upward and downward movements of the offshore structure caused by waves during drilling in the ocean, thereby enabling the drilling device to perform drilling operations with a certain force.

The hybrid compiler 500 includes a plurality of compressor sheaves 510 through which wires are passed, a compressor sheave holder 520 for supporting the compressor sheave 510, a compressor sheave 510 for supporting the compressor sheave 510, A guide rail 530; A compensator cylinder device 540 that compensates for the vertical motion of the compressor sheave 510; And an accumulator 550 for supplying hydraulic pressure to the compressor cylinder device 540.

When the marine structure having the drilling tower 100 moves up and down by a wave, the hivecompensator 500 senses the movement of the marine structure, and the compressor unit 500 is operated by the fluid supplied through the accumulator 550, The drilling equipment connected to the plurality of wires passing through the compressor sheave 510 moves up and down along the guide rail 530 while the compressor sheave 510 moves up and down, .

The tension equalizer 600 includes a body 610, a plurality of cylinders 620 provided inside the body 610, a rod 625 coupled with the plurality of cylinders 620, A fluid chamber 650 that is closed by the cylinder 620, and a fluid line 655 that connects the plurality of fluid chambers to each other to allow movement of the fluid.

One end of the rod 625 is fixed by the fixed portion 640 of the cylinder 620 and the other end is connected to the plurality of wires and the fluid of each fluid chamber 650 is connected to the fluid pipe (655) so that the pressure of each fluid chamber (650) can be maintained in equilibrium.

That is, a plurality of wires are repeatedly wound and unwound by the hoisting winch, resulting in an imbalance in tension due to a change in length between the wires. At this time, the pressure of the fluid in the fluid chamber is made different through the same configuration as the tension equalizer, the fluid in the fluid chamber having a large hydraulic pressure moves to the fluid chamber having a small hydraulic pressure, the pressure of each fluid chamber is uniformly maintained, It is possible to always maintain a uniform tension.

As shown in FIG. 1, a plurality of drilling hoisting apparatuses according to the present invention are provided in an offshore structure, and can simultaneously drill in parallel.

As described above, the drilling hoisting apparatus according to the present embodiment can improve the redundancy and safety of the drilling tower and the hoisting apparatus that can provide a wide and open drill floor. It is advantageous that the load acting on the hoisting winch and the hoisting winch with a plurality of wire ropes as a single layer can be dispersed and distributed with the hive compensator.

Further, the present invention is characterized in that a plurality of wires are mounted on a winch drum in a single layer so that a wire is once wound on a traveling block (1 / 2fall), so that compared to conventional drawworks, The rotation speed of the wire can be maintained at a low speed, so that the life of the wire is extended, the noise is reduced, and even if one wire is broken, the wire can be operated safely.

Further, since the drilling work is performed in front of the drilling tower, the deck crane is easily accessible to the drill floor, and there is no obstacle when the drilling pipe or the riser is handled. There is an effect that the convenience is increased.

Further, since the present invention is installed below the drilling tower, the height of the hoisting system and the center of gravity (CoG) of the hoisting system are lowered, thereby improving the stability of the drilling rig.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: Drilling tower 200: Hoisting winch
300: Top sieve assembly 400: Traveling block
500: Hive Contender 600: Tension Equalizer

Claims (8)

Drilling tower;
A hoisting winch provided behind the drilling tower;
A top sheave assembly provided on top of the drilling tower;
A traveling block connected to a supporting means for supporting the drilling pipe;
A hive compensator provided behind the drilling tower for compensating vertical motion of the drilling pipe; And
And a tension equalizer provided behind the drilling tower for compensating for a change in length between one or more wires repeatedly wound by the hoisting winch,
Wherein the top sieve assembly includes a first front unit, a first rear unit, a second front unit, and a second rear unit,
One end of the wire is fixed to the tension equalizer, and the other end is connected to the first rear unit, the first front unit, the traveling block, the second front unit, Wherein said hoisting winch is wound on said hoisting winch. The method according to claim 1,
The hoisting winch comprises:
Winch drums with wire winding;
A driving device for rotating the winch drum; And
And a brake for controlling winding and unwinding of the wire,
Wherein a plurality of wires are independently wound on the winch drum, and a separation frame is provided between the plurality of wires. The method according to claim 1,
Wherein the first front unit and the second front unit include at least one sheave,
Wherein the diameter of each sheave of the first front unit and the second front unit is formed differently from each other. The method according to claim 1,
Wherein the traveling block comprises at least one sheave, the diameters of the traveling block sheaves being formed differently. The method according to claim 1,
The above-
A compressor sheave through which the wire passes;
A compressor sheave holder for supporting the compressor sheave;
A guide rail for guiding the compressor sheave;
A compensator cylinder device for compensating the vertical motion of the compressor sheave; And
And an accumulator for supplying hydraulic pressure to the compressor cylinder device. The method according to claim 1,
In the tension equalizer,
main body;
A plurality of cylinders provided inside the main body;
A rod coupled to the plurality of cylinders;
A fluid chamber provided in the main body and closed by the cylinder; And
And a fluid pipe connecting the plurality of fluid chambers to each other to allow movement of the fluid,
One end of the rod is fixed to an upper portion of the cylinder and the other end is connected to a plurality of wires,
Wherein the fluid in each of the fluid chambers moves through the fluid pipe in accordance with the tension applied to the plurality of wires to maintain the equilibrium pressure in each of the fluid chambers. The method according to claim 1,
Wherein a well center is disposed in front of the drilling tower. A drilling marine structure having a plurality of drilling hoisting devices as claimed in any one of claims 1 to 7.

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