GB2356591A

GB2356591A - Apparatus suitable for use as a wrenching tool

Info

Publication number: GB2356591A
Application number: GB9927825A
Authority: GB
Inventors: Bernd-Georg Pietras
Original assignee: Weatherford Lamb Inc
Current assignee: Weatherford Lamb Inc
Priority date: 1999-11-26
Filing date: 1999-11-26
Publication date: 2001-05-30
Anticipated expiration: 2019-11-26
Also published as: DE60014955D1; NO336474B1; WO2001038688A1; GB9927825D0; AU772533B2; NO20021924D0; EP1232323B1; NO20150916A1; NO20021924L; EP1475513A1; CA2389449A1; EP1232323A1; EP1475513B1; CA2389449C; GB2356591B; AU1404801A

Description

P50938GB 2356591 Wrenching Tong This invention relates to wrenching tongs.

In the construction of oil or gas wells it is usually necessary to line the borehole with a string of tubulars known as casing. Due to the length of casing required, sections or stands of casing are progressively added to the string as it is lowered into the well from a drilling platform. In particular, when it is desired to add a section or stand of casing the string is usually restrained from falling into the well by applying the slips of a spider located in the floor of the drilling platform. The new section or stand of casing is then moved from a rack to the well centre above the spider. The threaded pin of the section or stand of casing to be connected is then located over the threaded box of the casing in the well and the connection is made up by rotation therebetween. An elevator is connected to the top of the new section or stand and the whole casing string lifted slightly to enable the slips of the spider to be released. The whole casing string is then lowered until the top of the section is adjacent the spider whereupon the slips of the spider are re-applied, the elevator disconnected and the process repeated.

It is common practice to use a power tong to torque the connection up to a predetennined torque in order to make this connection. The power tong is located on the platform, either on rails, or hung from a derrick on a chain. In order to make up or break out a threaded connection, a two tong arrangement is necessary. An active (or wrenching) tong supplies torque to the section of tubular above the threaded connection, while a passive (or back up) tong supplies a reaction torque below the threaded connection. The back up tong clamps the tubular below the threaded connection, and prevents it from rotating. This clamping can be performed mechanically, hydraulically or pneumatically. The wrenching tong clamps the upper part of the connection and is driven so that it supplies torque for a limited angle.

This power tong arrangement is also used to torque up connections between other tubulars, for example sections of the drill pipe string.

P50938GB 2 Nonnally, in order to supply high torque, the wrenching tong is driven hydraulically. One or two hydraulic cylinders drive the tong through a small angle, typically in the region of 25', depending on the tong design. Due to the geometric configuration normally used, the torque output of the tong changes as a sine function of the angle driven, which results in a reduction of torque output across the drive angle of up to 15%.

In order to make up or break out a connection of modem drill pipe or casing, high torque must be supplied over a large angle. This angle is sometimes six times higher than a conventional wrenching tong can supply. In order to overcome this, the wrenching tong must grip and wrench the tubular several times to tighten or break the threaded connection fully. This has a number of disadvantages. The action of gripping and releasing the pipe repeatedly can damage the pipe surface. Due to the high costs associated with the construction of oil and gas wells, time is critical, and the repeated clamping and unclamping of the wrenching tong greatly increases the time taken to attach each new section or stand of tubulars. It also has the effect that the torque provided is discontinuous, increasing the difficulty of accurately controlling the torque with respect to the angle turned.

To overcome or at least alleviate these disadvantages, according to a first aspect the present invention provides apparatus for applying torque to a first tubular relative to a second tubular, the apparatus comprising a first tong for gripping the first tubular and a second tong for gripping the second tubular, wherein the first tong is provided with teeth around a peripheral surface thereof, the second tong is provided with at least one pinion, and the pinion meshes with the teeth in such a way that the first tong and the second tong can be rotated relative to one another when the pinion is rotated.

Preferably the first tong is a back-up tong and the second tong is a wrenching tong. Both tongs are preferably substantially cylindrical, and an axial passage is preferably provided therethrough for receiving tubulars. A passage is preferably provided from a peripheral edge to the axial passage of each tong to allow the introduction of tubulars

P50938GB 3 into the axial passage. The pinion is preferably located at or near the periphery of the second tong. A motor may be provided on the second tong and coupled to the or each pinion.

The second tong is preferably provided with two pinions, although in another embodiment it may be provided with only one. The pinions are preferably located at or near the periphery of the second tong spaced by substantially 180' about the longitudinal axis of the tong. In another embodiment they may be spaced by substantially 120' about the longitudinal axis of the tong.

Preferably, the first tong comprises a plurality of hydraulically driven clamping jaws for gripping the first tubular and the second tong comprises a plurality of hydraulically driven clamping jaws for gripping the second tubular. Eachjawmaybe equipped with two or more dies, and is preferably attached to hydraulic driving means via a spherical bearing, although the jaw may be an integral part of the hydraulic driving means.

Bearings supported on resilient means are preferably provided between the first tong and the second tong to facilitate relative axial movement of the first and second tongs.

According to a second aspect, the present invention provides apparatus for applying torque to a first tubular relative to a second tubular, the apparatus comprising a gear and at least one pinion, and first clamping means for clamping the first tubular within the gear, the pinion being attached to second clamping means for clamping the second tubular, and the pinion meshing with the gear in such a way that the first clamping means and the second clamping means can be rotated relative to one another by rotating the pinion.

The first clamping means preferably comprise jaws mounted within the gear about an axial passage extending through the gear. The second clamping means preferably comprises jaws mounted within a clamping housing about an axial passage extending P50938GB 4 therethrough. A motor is preferably fixed to the clamping housing and coupled to the or each pinion.

According to a third aspect, the present invention provides a method of applying torque to a first tubular relative to a second tubular, the method comprising: clamping the first tubular in a first tong; clamping the second tubular in a second tong; and rotating a pinion connected to the second tong and which meshes with teeth provided around a peripheral surface of the first tong so as to rotate the first tong relative to the second tong.

Some preferred embodiments of the invention will now be described by way of example only and with reference to the accompanying drawings, in which:

Figure I is a view of an arrangement of a wrenching tong and a back-up tong; Figure 2 is a side view of the wrenching tong and back-up tong of Figure 1; Figure 3 is a view of the back-up tong of Figure 1; Figure 4 is a cutaway view of the back-up tong of Figure 1; Figure 5 is a cutaway view of the wrenching tong of Figure 1; Figure 6 is a view of the wrenching tong and back-up tong of Figure I supported by a C-frame and fixed in a frame for handling equipment on tracks at a rig floor; Figure 7 is a view of the wrenching tong and back-up tong of Figure 1 in use, with a tubular clamped in the wrenching tong; Figure 8 is a view of an arrangement of an alternative wrenching tong and back-up tong;and P50938GB Figure 9 is a view of an arrangement of a further alternative wrenching tong and backup tong.

Figures I and 2 show an arrangement of a composite wrenching tong and back-up tong. A wrenching tong I is generally in the form of a disc with an opening 2 through the centre thereof for receiving a stand of drill pipe (not shown), and a recess 3 cut from the edge to the opening 2 at the centre. The wrenching tong 1 is provided with two pinion drives 4 arranged opposite each other at the periphery of the disc, equally spaced either side of the recess 3. Each pinion drive comprises a drive motor 5, drive shaft 6, and pinion 7 attached to the drive shaft 6.

A back-up tong I I is located beneath the wrenching tong 1. The back-up tong is generally in the form of a disc with similar dimensions to the wrenching tong 1. The back-up tong is also provided with an opening 12 through the centre and a recess 13 from the edge to the opening at the centre. The opening 12 and recess 13 correspond to the opening 2 and recess 3 of the wrenching tong when the back-up tong I I and the wrenching tong 1 are correctly aligned.

A plurality of guide rollers 10 or other guide elements are spaced around the edge of the wrenching tong I in order to maintain the alignment of the wrenching tong I with the back-up tong 11.

A gear 14 is provided around the periphery of the back-up tong 11, broken by the recess 13. The gear 14 meshes with the pinions 7 attached to the motors 5 on the wrenching tong, so that when the drive motors 5 drive the drive shafts 6 and gears 7, the wrenching tong I rotates relative to the back-up tong 11. The angle of rotation is limited by the recess 13 of the back up tong.

Figure 3 shows a back-up tong 11 before the wrenching tong is placed on top of it. The back-up tong 11 has a plurality of roller bearings 2 1, upon which the wrenching tong I is designed to be placed. The roller bearings 21 are supported by resilient means such as springs, elastic material or hydraulic/pneumatic cylinders, in P50938GB 6 order to support the wrenching tong during wrenching. During one wrenching cycle, the stands will move axially relative to one another as the connection is tightened. The wrenching tong must follow the axial movement of the top stand during one wrenching cycle. This axial travel length depends on the pitch of the thread.

Three clamping jaws 8 equipped with dies 9 are located inside each of the wrenching tong 1 and back-up tong 11. These are hydraulically driven for clamping the drill pipe stand in place in the centre of the wrenching tong. The hydraulic power supply may be provided by hoses (not shown).

Figure 4 shows the clamping mechanism of the back-up tong 11. Three hydraulic pistons 16, comprising piston rods 17 and chambers 18, are located inside the casing of the back-up tong 11. Each piston rod 17 has an end 19 which is secured to the outside edge of the back-up tong 11. At the other end of the piston, the jaw 8 containing two dies 9 with teeth (not shown) is fixed to the chamber 18 by a spherical bearing 20. With the arrangement shown, each drill pipe stand is clamped by three jaws and six dies at the joint. The spherical bearings 20 enable the jaws and dies to match the pipe surfaces closely, resulting in a low penetration depth of the teeth of the dies into the pipe surface, and thus prolonging the life of the drill pipe. The wrenching tong has a similar clamping jaw design, as shown in Figure 5.

Figure 6 shows the wrenching tong I and back-up tong I I supported by a Cframe 22 for handling at the rig. The C-frame 22 is in turn fixed in a frame 23 for handling the equipment on tracks at the rig floor. A drill pipe spinner 24 is mounted on the C-frame above the tongs for rotating a drill pipe stand at high speed.

In order to make a connection between two stands of drill pipe, the recesses 3 and 13 in the wrenching 1 and back-up 11 tongs are aligned (the tongs may already be in this configuration following the removal of the tongs from a previous section of tubing). Two stands of drill pipe 25,26 are then introduced into the openings 2,12 in the wrenching and back-up tongs 1,11, respectively, through the recesses 3,13, and the lower stand 26 is clamped in position in the back-up tong 11. The upper stand 25 is P50938GB 7 introduced into the drill pipe spinner 24, and rotated at high speed in order to pretighten the threaded connection. The final high torque will be applied by the wrenching tong 1.

The upper stand 25 is now clamped in position in the opening 2 through the wrenching tong 1. The pinion drives 4 are then driven to torque the connection between the stands 25,26 until the connection is fully tightened or until one of the pinion drives 4 is at the edge of the recess 13, at which stage the wrenching tong 1 is at one end of its possible arc of travel relative to the back-up tong 11. The maximum wrenching angle which can be reached in one cycle in the embodiment shown is +/75'. If necessary, the upper stand 25 can then be released from the wrenching tong 1, the tong returned to its original position, and the torquing process repeated.

To break a connection, the above operation is reversed.

An even larger wrenching angle can also be simply achieved with this arrangement, as shown in Figure 7. The stands of drill pipe 25,26 are introduced to the tongs 1, 11 through the recesses 3,13 and pretightened using the drill pipe spinner 24 as described above. However, before the top stand 25 is clamped in place in the opening 2, the wrenching tong drive is reversed, and the wrenching tong 1 is driven to its end position relative to the back-up tong, as shown in Figure 7. The top stand 25 is now clamped with the tongs in this position, so that with the embodiment shown a wrenching angle of 150' is achievable.

Figure 8 shows a similar arrangement of a composite wrenching tong and back-up tong to that described above. However, in this case only one pinion drive 4 is used, which increases the possible wrenching angle to 300'.

Figure 9 shows another similar arrangement, with two pinion drives 4 being used as in Figures I to 7. This time the pinion drives 4 are not opposite each other, but spaced 120' each side of the recess 3. This gives the advantage of the torque and control provided by two drives, but allows a higher wrenching angle than the P50938GB 8 arrangement of Figure 1. The maximum wrenching angle in this embodiment will be in the region of 210'.

The torque can be monitored by measuring the reaction torque at each drive by means of a load cell, or by measuring the pressure of the drive motor.

It is to be understood that other variations are possible while still falling within the scope of the invention. For example, the preferred embodiments show an arrangement whereby the pinion drives are mounted on the wrenching tong and the gear is mounted on the back-up tong. However, the arrangement could be the other way round with the pinion drives mounted to the back-up tong and the large gear mounted on the wrenching tong.

Alternatively, the wrenching tong could be provided with a gear, and the pinion drives mounted on the frame 24.

Hydraulic clamping cylinders are shown, but the tong could clamp the drill pipe stands by any known means.

The preferred embodiments show one or two pinion drives, but more could be used if arranged in a suitable configuration.

Although the preferred embodiments have been described in relation to tightening stands of drill pipe, it is to be understood that the arrangements decribed are suitable for applying torque to any tubular sections.

P50938GB 9

Claims

CLAIMS:

1. Apparatus for applying torque to a first tubular relative to a second tubular, the apparatus comprising a first tong for gripping the first tubular and a second tong for gripping the second tubular, wherein the first tong is provided with teeth around a peripheral surface thereof, the second tong is provided with at least one pinion, and the pinion meshes with the teeth in such a way that the first tong and the second tong can be rotated relative to one another when the pinion is rotated.

2. Apparatus as claimed in claim 1, wherein the first tong is a back-up tong and the second tong is a wrenching tong.

3. Apparatus as claimed in claim 1 or 2, wherein the or each pinion is located at or near the periphery of the second tong.

4. Apparatus as claimed in claim 1, 2 or 3, wherein the first tong is substantially cylindrical.

5. Apparatus as claimed in any preceding claim, wherein the second tong is substantially cylindrical.

6. Apparatus as claimed in any preceding claim, wherein each of the first and second tongs have an axial passage extending therethrough for receiving a tubular.

7. Apparatus as claimed in claim 6, wherein a passage is provided from the edge to the axial passage of each of the first and second tongs to allow the introduction of a tubular into the axial passage of each of the first and second tongs.

8. Apparatus as claimed in any preceding claim, wherein a motor is provided on the second tong and coupled to the or each pinion.

P50938GB

9. Apparatus as claimed in any preceding claim, wherein the second tong is provided with two pinions.

10. Apparatus as claimed in claim 9, wherein the pinions are located at or near the periphery of the second tong spaced by substantially 180' about the longitudinal axis of the tong.

11. Apparatus as claimed in claim 9, wherein the pinions are located at or near the periphery of the second tong spaced by substantially 120' about the longitudinal axis of the tong.

12. Apparatus as claimed in any of claims I to 8, wherein the second tong is provided with only one pinion.

13. Apparatus as claimed in any preceding claim, wherein the first tong comprises a plurality of hydraulically driven clamping jaws for gripping the first tubular.

14. Apparatus as claimed in any preceding claim, wherein the second tong comprises a plurality of hydraulically driven clamping jaws for gripping the second tubular.

15. Apparatus as claimed in claim 13 or 14, wherein each jaw is equipped with two or more dies.

16. Apparatus as claimed in claim 13, 14 or 15, wherein each jaw is attached to hydraulic driving means via a spherical bearing.

17. Apparatus as claimed in claim 13, 14 or 15, wherein the first tong and second tong each comprise a plurality of hydraulic driving means, each hydraulic driving means comprising a piston rod and a piston chamber, and the jaw is an integral part of the hydraulic driving means, the dies being placed in pockets in the piston chamber.

P50938GB

18. Apparatus as claimed in any preceding claim, wherein bearings supported on resilient means are provided between the first tong and the second tong to support one tong on top of the other tong.

19. Apparatus for applying torque to a first tubular relative to a second tubular, the apparatus comprising a gear and at least one pinion, and first clamping means for clamping the first tubular within the gear, the pinion being attached to second clamping means for clamping the second tubular, and the pinion meshing with the gear in such a way that the first clamping means and the second clamping means can be rotated relative to one another by rotating the pinion.

20. Apparatus as claimed in claim 19, wherein the first clamping means comprises jaws mounted within the gear about an axial passage extending through the gear.

21. Apparatus as claimed in claim 19 or 20, wherein the second clamping means comprises jaws mounted within a clamping housing about an axial passage extending therethrough..

22. Apparatus as claimed in claim 21, further comprising a motor fixed to the clamping housing and coupled to the or each pinion.

23. Apparatus as claimed in any preceding claim for assembling downhole tubing.

24. A method of applying torque to a first tubular relative to a second tubular, the method comprising:

clamping the first tubular in a first tong; clamping the second tubular in a second tong; and rotating a pinion connected to the second tong and which meshes with teeth provided around a peripheral surface of the first tong so as to rotate the first tong relative to the second tong.