KR20120129091A - iron roughtneck torque test jig - Google Patents

Abstract

PURPOSE: A jig for testing iron roughneck torque is provided to simply grasp the torque of a torque wrench of an iron roughneck mounted in a drillship and to correct a torque value measured by a jig for testing iron roughneck torque by comparing the same with a torque value of the iron roughneck. CONSTITUTION: A jig for testing iron roughneck torque comprises a sample pipe(1), a torque bar(2), a towing rope(3), a tension meter(4), and a standing rope(5). The sample pipe has diameter same with the diameter of a drilling pipe and is interlocked with a torque wrench of an iron roughneck. The torque bar is projected from one spot of the circumference of the sample pipe, thereby being fixed. One end of the towing rope is joined to the torque bar. One end of the tension meter is connected to the other end of the towing rope. One end of the standing rope is connected to the other end of the tension meter and the other end of the standing rope is fixed to an arbitrary fixing member(6) of a drillship hull. [Reference numerals] (AA) Torque wrench

Description

Iron roughtneck torque test jig

The present invention relates to a jig for iron rough neck torque test, and more particularly, to a jig used to perform a stable drilling operation by measuring the torque of an iron rough neck that is loaded on a drillship and connects upper and lower pipes in advance. .

As industrial and industrial developments worldwide, the use of petroleum, natural gas, etc. increases, and as a result, there is a growing interest in the development of marginal or deep sea oil fields, which have been ignored because of lack of economic feasibility. In addition to the development of seabed mining technology for this purpose, drillships equipped with drilling facilities for developing such oil fields are being developed in various forms.

In general, as a method for drilling oil at sea, a rig ship or a fixed platform exclusively used for subsea drilling, in which a subsea drilling is carried out while anchored at one point of the sea, has been mainly used. In order to be able to sail on its own power, a navigable drillship (drill ship) manufactured in the same form as a general ship has been developed and used for subsea drilling.

Looking at the basic configuration of such a drillship, the center of the drillship has a moonpool to move the riser (drill) or drill pipe (drill pipe) for drilling oil or gas existing in the basement of the seabed up and down Formed so that the operator can advance the riser and drill pipe downward through the door pool formed in the center of the drilling rig to drill undersea resources stored in a well located in a reservoir under the sea bed. do.

The riser is a member that is advanced to the bottom of the sea floor before advancing the drill pipe to the well and prevents the drill pipe from being exposed to seawater. When the riser is installed, the drill pipe is advanced downwards through the seabed to the well into the riser.

As such, when the riser is advanced downward to the bottom of the seabed or the drill pipe is advanced to the oil well, the riser or the drill pipe of the short length is connected downward and forward instead of downwardly moving the long riser or the drill pipe. At the bottom of the seabed a blowout preventer (BOP) is installed to prevent abnormally high pressure from rising up the drill pipe. In the seabed, the casing is fixed by cement, and the bottom of the casing is drilled by inserting a drill pipe equipped with a drill bit.

The device used to join or disconnect the drill pipe is an iron roughtneck. The shape of the iron rough neck is as shown in FIG. The iron roughneck structure consists of a spinning wrench on the top and a torque wrench on the bottom. The iron roughneck configured as described above is installed in the form of moving backwards after moving forward along the rail installed at the bottom when joining and separating pipes.

Spinning wrench (Spinning wrench) is a wrench that rotates the drill pipe quickly until the torque wrench is tightened to finally tighten the drill pipe with a strong force at the time of coupling, Torque wrench (Torque wrech) is the last step difficult to tighten by the force of the spinning wrench The upper and lower wrenches are rotated in opposite directions to each other to join the drill pipes with a strong force for coupling the drill pipes.

In the opposite case, that is, when the drill pipe is separated, the torque wrench first releases the coupling force between the upper and lower drill pipes, and then a spinning wrench on the upper part releases the screw coupling between the upper and lower pipes at high speed to separate the two pipes.

It can be seen that the torque wrench of the iron rough neck provides the actual coupling force of the upper and lower drill pipes in the drillship.

However, conventionally, it was not possible to know how much actual torque the torque wrench of the iron roughneck tightens. The iron roughneck only uses a measuring controller with a built-in tension meter to check the torque caused by the fluctuation of the current value when operating the torque wrench, but this is an indirect method that does not directly measure the torque of the actual torque wrench. It is necessary to confirm whether the torque value is the torque value of the actual torque wrench.

Furthermore, in order to know the torque of the torque wrench of the conventional iron rough neck, the actual drill pipe should be used.

An object of the present invention for solving the above problems is provided with a means for measuring the torque of the torque wrench of the iron roughneck mounted on the drillship more easily and reliably, the torque value measured therefrom It is to provide a torque test jig that allows the iron roughneck to tighten the drill pipe with reliable torque to ensure stable drilling operation compared to the torque value.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional defects, and the sample pipe having the same diameter as the drilling pipe to the torque wrench of the iron roughneck; A torque bar protruding from and fixed to a circumferential point of the sample pipe; A tow line having one end coupled to the torque bar; A tension meter whose one end is connected to the other end of the tow line; One end is connected to the other end of the tension meter, the other end is achieved by providing a jig for iron rough neck torque test, characterized in that it comprises a; fixed rope fixed to any fixed member of the drillship hull. .

The present invention is a preferred embodiment, the coupling between the torque bar and the string can be fastened with a shackle.

By using the iron rough neck torque test jig according to the present invention as described above, it is possible to simply know the actual torque of the torque wrench of the iron rough neck mounted on the drillship,

In addition, the torque value measured by the jig for iron roughneck torque test can be compared with the torque value of the iron roughneck, and it can be calibrated.

In addition, it is a useful invention which has the advantage of stable drilling operation by tightening the drill pipe with reliable torque when the torque wrench of the iron roughneck is operated by the corrected torque compared to the torque value measured in the iron roughneck torque test jig. It is an invention that is expected to use greatly.

1 is an exemplary view showing a jig for iron rough neck torque test according to an embodiment of the present invention,
Figure 2 is an exemplary view showing the operation of the jig for iron iron neck torque test of the present invention,
Figure 3 is an exemplary view showing a conventional iron rough neck.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments 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 an exemplary view showing a jig for iron rough neck torque test according to an embodiment of the present invention. As shown, the iron rough neck torque test jig according to the present invention comprises a sample pipe (1) having the same diameter as the drilling pipe and bites the torque wrench of the iron rough neck; A torque bar 2 protruding from and fixed to a circumferential point of the sample pipe; A tow line 3 having one end coupled to the torque bar; A tension meter having one end connected to the other end of the tow line; One end is connected to the other end of the tension meter, the other end comprises a fixing line 5 fixed to any fixing member 6 of the drillship hull.

Coupling between the torque bar and the string is easy to combine using a fastening member such as the shackle 21 formed at one end of the torque bar and the shackle 31 formed at one end of the towing. Of course, this does not matter any fastening device that can only be fixed without being released by the torque.

The tow line 3 or the fixed line 5 is used having a strength enough to handle the torque of the torque wrench of the iron rough neck. It doesn't matter if the string is a chain or a rope.

The fixing member 6 may be a member that does not move. Such a member may use a fixed pipe, a frame, or the like constituting the drillship hull. You only have to move by the other force.

The tension meter 4 may use a commercially available tension meter for measuring torque. The only unit here is a tension meter, which measures tons. In other words, it is sufficient that the torque from 1 to 20 tons can be measured. Of course, the tension meter used in the present invention is not limited to this specific numerical value, and of course, a tension meter having a smaller or higher measurement unit may be used if necessary. However, the above number is enough because it is possible to measure the torque applied to the weight of a commercial drill pipe. The unit of torque is generally kgf.cm or kgf.m in the gravity unit system and cN.m or Mm in the SI unit system.

Figure 2 is an exemplary view showing the operation of the jig for iron roughneck torque test of the present invention. According to one embodiment, the sample pipe 1 has a height of 3 m and the torque bar 2 has a length of about 1 m around the sample pipe. In this way, after the iron rough neck torque test jig is bitten by the torque wrench of the iron rough neck and the torque wrench is rotated, the sample pipe 1 rotates to one side away from the tension meter, and the torque bar 2 rotates. do.

Accordingly, the tension meter 4, the other side of which is fixed to the fixing member 6 by the fixing line 5, is applied with force to one side by the rotation of the torque bar, thereby measuring the torque applied to the sample pipe. At this time, the position of the lifting line wound on the tension meter is also moved. The principle that the position of the lifting line is changed is that the drawing line seems to be stretched for convenience in the drawing, but the lifting line is not actually stretched but the elastic spring installed in the tension meter is increased.

At this time, the measured torque value compares the information of the tension meter installed in the iron rough neck with the output value, and if the value is the same, it does not matter, but if there is a difference, the value of the tension meter installed in the iron rough neck is corrected.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
(1): sample pipe (2): torque bar
(21, 31): Shackle (3): tow line
(4): tension meter (5): fixed string
(6): fixing member

Claims (2)

A sample pipe (1) having the same diameter as the drilling pipe and snapped into the torque wrench of the iron roughneck;
A torque bar 2 protruding from and fixed to a circumferential point of the sample pipe;
A tow line 3 having one end coupled to the torque bar;
A tension meter 4 having one end connected to the other end of the tow line;
One end is connected to the other end of the tension meter, the other end is fixed rope (5) is fixed to any fixed member 6 of the drillship hull; Iron rough neck torque test for comprising a Jig.
The method according to claim 1,
The jig for iron rough neck torque test, characterized in that the coupling between the torque bar and the shoulder string is fastened with a shackle.

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