KR20150081130A - Topdrive system and drilling marine structure having the same - Google Patents

Abstract

A top drive system and a drilling marine structure having the same are disclosed. According to the present invention, the top drive system comprises: a top drive arranged in a derrick and rotating a drill pipe; three or more top drive moving units arranged on a base frame and providing power which transfers the top drive; and a top drive support unit connecting the top drive and the top drive moving units for power of the top drive moving units to be transmitted to the top drive and supporting the top drive. The top drive is moved to one direction selected in up and down, right and left, and front and rear directions by the top drive moving units in the derrick to pick up a drill pipe mounted on a pipe holder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a top drive system and a drilling marine structure having the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a top drive system and a drilled offshore structure having the same. More particularly, the present invention relates to a top drive system that allows a top drive to move up and down, To a top drive system configured to pick up a drill pipe from a direct pipe holder, and to a drilled offshore structure having the same.

In general, with rapid industrialization and industrial development, the use of earth resources such as petroleum is gradually increasing, and the stable production and supply of oil becomes very important.

For this reason, development of marginal marginal oil field or deep-sea oil field, which has been neglected due to lack of economic efficiency, has become economical. Therefore, along with the development of submarine mining technology, structures having drilling facilities suitable for the development of such oilfields have been developed.

Conventional subsea drilling has been mainly used for a rig ship or a rigid platform for submarine drilling, which can only be navigated by a tugboat and is used for submarine drilling under anchorage by using a mooring device. However, recently, So-called "drillship", which is built in the same form as a general ship, has been developed and installed in underwater drilling so that it can be equipped with equipment and can navigate with its own power.

At the center of the rig or line of drilling rig equipped with such drilling equipment, a moonpool is installed so that a riser or drilling pipe can be moved up and down to drill oil or gas existing under the sea floor. And the derrick, a large, complex structure of beams and various drilling rigs, is fastened to the main deck.

These derricks are installed in the vicinity of the moon pool and are a kind of tower in which all the drilling equipments are gathered. The wire rope connected to the drilling equipment is wound or unrolled by the operation of the winch, thereby lifting the drilling equipment such as the drill pipe.

Conventional derrick is installed on a drill floor located on the upper part of the main deck. It is a steel tower made of steel and has a height of about 100m although its height varies depending on the design.

In addition, the drill pipe is mounted horizontally in the pipe loading space, vertically erected and supported by a top drive and a rotary table, two or more of which are coupled to each other and vertically loaded at a predetermined position, Downward.

Conventionally, a Vertical Pipe Handler (VPH) picks up a stand pipe, which is a drill pipe, from a finger board and moves it to the center of the well to be held by the top drive .

However, the conventional Derrick system can not mount the standpipe to the top drive without VPH because the top drive relies on the VPH solely for the horizontal movement because the top drive is restricted to move up and down.

Therefore, the use of VPH increases the cost of installation, maintenance and management, and increases the working time due to simultaneous use with VPH.

Korean Patent Laid-Open Publication No. 1985-0002427 (Goethe Bergen Arendal Aktivolag) 1985.05.13.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a head pipe structure capable of mounting a drill pipe on a top drive without using a VHP (Vertical Pipe Handler) A drive system and a drilled offshore structure having the same.

According to an aspect of the present invention, there is provided a drilling machine, comprising: a top drive provided in a derrick to rotate a drill pipe; A top drive moving unit provided at three or more in the base frame to provide power for moving the top drive; And a top drive support unit connecting the top drive and the top drive moving unit to transmit the power of the top drive moving unit to the top drive and supporting the top drive, The top drive system can be provided which is capable of picking up the drill pipe which is moved in a selected one of vertical, horizontal, and forward and backward directions in the derrick to mount the drill pipe on the pipe cradle.

The top drive moving unit may include a drawwork, and the power source may be provided on the base frame at regular intervals.

The top drive support unit includes a connection line connected to the top drive unit, the other side unit connected to the top drive unit, And a pulley provided on the derrick to support the connection line.

The top drive support portions may be provided at equal intervals.

The upper end of the derrick may have a rectangular planar shape, and the pulleys may be respectively provided at corners of the upper end.

According to another aspect of the present invention, there is also provided a top drive provided in a derrick to rotate a drill pipe; A top drive moving unit provided at three or more in a drill floor to provide a power for moving the top drive; And a top drive support unit connecting the top drive and the top drive moving unit to transmit the power of the top drive moving unit to the top drive and supporting the top drive, The drill pipe can be picked up by being moved in a selected one of vertical, horizontal, and longitudinal directions in the derrick to pick up the drill pipe mounted on the drill pipe holder.

And a manual hive compensator provided in the derrick to compensate up and down movement of the hull.

The drilling structure may include a drilling rig.

Embodiments of the present invention enable the top drive to move back and forth and left and right along with vertical movement in the inner space of the derrick to shorten the operation time by picking up the drill pipe directly at the pipe end, Not only can the cost of management and management be reduced, but also the utilization of space can be increased, and various operations can be performed using the top drive.

1 is a view schematically showing a top drive system according to this embodiment.
FIG. 2 is a front view schematically showing a semi-submerged league to which the top drive system shown in FIG. 1 is applied.
3 is an operational state diagram of the top drive system shown in 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.

1 is a view schematically showing a top drive system according to this embodiment.

As shown in this figure, the top drive system 1 according to the present embodiment includes a top drive 10 provided in a derrick D for rotating a drill pipe, The top drive 10 and the top drive moving unit 20 are connected to each other to supply the power of the top drive moving unit 20 to the top drive 10 And a top drive support (30) for supporting the top drive (10).

As shown in FIG. 1, the top drive 10 is disposed inside the derrick D and grips a standpipe (SP) mounted on the pipe cradle FB, To the stand pipe (SP) fixed to the well center, or to transmit the rotational force to the drill pipe. For reference, one standpipe (SP) can be provided by connecting three drill pipes.

The top drive 10 in the present embodiment is constructed by the top drive moving portion 20 and the top drive supporting portion 30 which will be described later in the vertical direction as well as in the left and right direction, Lt; / RTI >

As a result, stand pipe (SP) mounted on a pipe holder (FB) can be picked up without a vertical pipe handler (VPH), which saves work time and eliminates the need to install an unnecessary VPH You can save money.

In this embodiment, the top drive 10 includes a gear box, a drive motor provided on the upper side of the gear box for rotating the stanchion pipe, and a pipe handler (not shown) provided on the lower side of the gearbox for holding the stand pipe SP And the gear box, the drive motor, and the pipe handler are well known in the art, and a detailed description thereof will be omitted.

The top drive moving part 20 provides power to move the top drive 10 in all directions inside the derrick D, and in this embodiment, the top drive moving part 20 has three or more As shown in FIG.

In this embodiment, the top drive moving unit 20 may include a drawwork, and the winch may be provided with four units, as shown in Fig. As in the present embodiment, by providing four winches as the top drive moving section 20, the movement of the top drive 10 can be precisely controlled with the minimum number of winches.

When the present embodiment is applied to a drilling structure, the top drive moving part 20 may be provided at regular intervals on the drill floor (DF, see FIG. 2, drill floor) Four units may be equally spaced in the base frame disposed around the derrick or derrick.

1, the top drive support unit 30 transmits power of the top drive moving unit 20 to the top drive 10 and at the same time, the top drive 10 stabilizes the inside of the derrick D As shown in FIG.

1, the lower portion of the top drive support portion 30 is connected to the top drive moving portion 20 and the upper portion of the top drive supporting portion 30 is connected to the top drive 10, A connecting line 31 for transmitting the power to the top drive 10 and for supporting the top drive 10 and a pulley 33 for rotatably supporting the connecting line 31 do.

In this embodiment, the top drive support portion 30 may be provided in a number corresponding to the top drive moving portion 20, as shown in FIG.

When the upper end of the derrick D is formed in a rectangular shape so as not to be interfered with by the top drive 10, the pulley 33 may be provided at each corner of the square as shown in Fig.

In this embodiment, the connection line 31 may be a wire.

Meanwhile, in the present embodiment, a plurality of passive heave compensators 40 may be provided on the upper side of the derrick D to compensate for up-and-down movement of the hull.

FIG. 2 is a front view schematically showing a semi-submerged league to which the top drive system shown in FIG. 1 is applied.

The top drive system according to the present embodiment can be applied not only to a rig ship or a fixed platform dedicated to seafloor drilling but also to a drill ship such as a drill ship or the like, It can be applied to both marine and offshore structures, and can also be applied to onshore drilling rigs.

3 is an operational state diagram of the top drive system shown in Fig. 3 (a) shows that the top drive 10 is moved to the pipe cradle FB for picking up the stand pipe SP stuck to the pipe cradle FB. Fig. 3 (b) And the drive 10 is moved to a well center.

Hereinafter, the operating state of the present embodiment will be briefly described.

3 (a), when the pipe placed on the pipe cradle FB is picked up, the top drive moving part 20 and the connection line 31 (FIG. 3 The top drive 10 can be moved to the starboard side in the direction of the pipe holder FB.

More specifically, the length of the connecting line 31 located at the port side of the hull is long, and the length of the connecting line 31 located at the starboard side of the hull is short. When the length is adjusted, the top drive 10 is moved in the direction of the pipe rest (FB) as shown in Fig. 3 (a).

When the top drive 10 moved in the direction of the pipe cradle FB picks up the stand pipe SP, the top drive moving part 20 positioned at the port side of the hull is connected to the connecting line 31 And the top drive 10 holding the stand pipe SP by releasing the connection line 31 connected to the top drive moving part 20 located on the starboard side of the hull is rotated in the direction indicated by As shown, it is moved to the well center, which is the center of the frame.

As described above, according to the present embodiment, the top drive can be moved back and forth and left and right along with vertical movement in the inner space of the derrick, so that the operation time can be shortened by picking up the drill pipe directly at the pipe- In addition to reducing the cost of installation, maintenance and management, the space can be utilized more efficiently, and various tasks can be performed using the top drive.

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.

1: Top Drive System 10: Top Drive
20: Top drive moving part 30: Top drive supporting part
31: connecting line 33: pulley
40: Manual Hive Compensator D: Derrick
DF: Drill Floor FB: Pipe Cradle
SP: Stand pipe

Claims (8)

A top drive on the derrick to rotate the drill pipe;
A top drive moving unit provided at three or more in the base frame to provide power for moving the top drive; And
And a top drive support unit connecting the top drive and the top drive moving unit to transmit the power of the top drive moving unit to the top drive and supporting the top drive,
Wherein the top drive is capable of picking up the drill pipe mounted on a pipe holder by being moved in a selected one of the up, down, left and right and forward and backward directions in the derrick by the top drive moving part. The method according to claim 1,
Wherein the top drive moving part includes drawwork,
Wherein the base unit is provided with four units at regular intervals in the base frame. The method according to claim 1,
The top drive support portion
And the other side connected to the top drive moving part is connected to the top drive; And
And a pulley provided in the derrick to support the connecting line. The method of claim 3,
Wherein the top drive support portions are provided at equal intervals. The method of claim 4,
The top end of the derrick has a rectangular planar shape,
And the pulleys are respectively provided at the corners of the uppermost portion. A top drive on the derrick to rotate the drill pipe;
A top drive moving unit provided at three or more in a drill floor to provide a power for moving the top drive; And
And a top drive support unit connecting the top drive and the top drive moving unit to transmit the power of the top drive moving unit to the top drive and supporting the top drive,
Wherein the top drive is capable of picking up the drill pipe mounted on the drill pipe holder by being moved in the selected one of the up, down, left, right and forward directions in the derrick by the top drive moving part. The method of claim 6,
Further comprising a passive hive compensator provided on the derrick to compensate for up-and-down motion of the hull. The method of claim 6,
Wherein the drilling structure includes a drilling rig or a drill ship.

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