U.S. patent application number 16/136865 was filed with the patent office on 2019-01-17 for modular adapter for tongs.
The applicant listed for this patent is Weatherford Technology Holdings, LLC. Invention is credited to Federico AMEZAGA, Martin HELMS, Martin LIESS.
Application Number | 20190017335 16/136865 |
Document ID | / |
Family ID | 55852105 |
Filed Date | 2019-01-17 |
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United States Patent
Application |
20190017335 |
Kind Code |
A1 |
AMEZAGA; Federico ; et
al. |
January 17, 2019 |
MODULAR ADAPTER FOR TONGS
Abstract
An adapter for supporting a tong includes a leveling frame and a
suspension for supporting the tong on the leveling frame. The
suspension includes an axially movable member mounted to an upper
surface of the leveling frame and a receptacle mounted to the tong
for receiving the movable member.
Inventors: |
AMEZAGA; Federico; (Cypress,
TX) ; HELMS; Martin; (Burgdorf, DE) ; LIESS;
Martin; (Seelze, DE) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Weatherford Technology Holdings, LLC |
Houston |
TX |
US |
|
|
Family ID: |
55852105 |
Appl. No.: |
16/136865 |
Filed: |
September 20, 2018 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
14683391 |
Apr 10, 2015 |
10081991 |
|
|
16136865 |
|
|
|
|
62075461 |
Nov 5, 2014 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
E21B 19/165 20130101;
E21B 19/161 20130101 |
International
Class: |
E21B 19/16 20060101
E21B019/16 |
Claims
1. An adapter for supporting a tong, comprising: a leveling frame;
a suspension for supporting the tong on the leveling frame, the
suspension having: an axially movable member mounted to an upper
surface of the leveling frame; and a receptacle mounted to the tong
for receiving the movable member.
2. The adapter of claim 1, wherein the axially movable member
comprises: a cylindrical housing mounted to the leveling frame; and
a mandrel disposed in the housing and axially movable relative to
the housing.
3. The adapter of claim 2, wherein the axially movable member
further comprises: a compression spring disposed between the
mandrel and the leveling frame; and a ball stud disposed on the
mandrel.
4. The adapter of claim 3, wherein the receptacle comprises: a
cylindrical shroud having an inner diameter greater than an outer
diameter of the respective housings, thereby forming an outer
clearance therebetween; and a ball socket disposed in the shroud
and having a seat diameter greater than a ball diameter of the ball
stud.
5. The adapter of claim 1, wherein a travel range of the suspension
in each of the vertical directions is greater than or equal to ten
millimeters.
6. The adapter of claim 1, wherein the leveling frame is connected
to a main frame.
7. The adapter of claim 6, further comprising a torsional arrestor
torsionally connecting the leveling frame to the main frame.
8. The adapter of claim 7, wherein: the torsional arrestor
comprises a pair of rails extending upwardly from the base, and the
main frame further having a girder connected to the rails and
disposed between the leveling frame and the base.
9. The adapter of claim 8, wherein: the torsional arrestor further
comprises a linear bearing disposed in each rail, and each linear
bearing is fastened to the leveling frame.
10. The adapter of claim 9, wherein each linear bearing comprises:
a body; an outer roller disposed around the body and free to rotate
relative thereto about a first horizontal axis; and an inner roller
disposed in the body and free to rotate relative thereto about a
second horizontal axis perpendicular to the first horizontal
axis.
11. The adapter of claim 6, further comprising an actuator for
raising and lowering the leveling frame relative to the main
frame.
12. The adapter of claim 11, wherein a stroke length of the linear
actuator corresponds to a makeup length of casing joints.
13. The adapter of claim 12, wherein: the linear actuator comprises
a pair of piston and cylinder assemblies disposed in the rails, and
upper ends of the piston and cylinder assemblies are pivotally
connected to the rails, and lower ends of the piston and cylinder
assemblies are pivotally connected to the leveling frame.
14. The adapter of claim 6, further comprising a base attached to
the main frame, the base supporting a second tong.
15. The adapter of claim 1, further comprising: a torsion tube
extending underneath a body of the tong and having arms attached to
ends of the tong body; wherein: each arm is pivotally connected to
a respective side of the tong body, and the leveling frame has lugs
connectable to the arms.
16. The adapter of claim 1, further comprising: a control system
mounted to the tong, wherein the leveling frame further has a
bracket for receiving an electrical power cable for connecting the
control system to an electrical power source.
17. The adapter of claim 1, wherein a travel range of the
suspension in each of the horizontal directions is greater than or
equal to ten millimeters.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This Application is a continuation of U.S. patent
application Ser. No. 14/683,391 filed on Apr. 10, 2015; which
claims benefit of U.S. Provisional Patent Application No.
62/075,461, filed on Nov. 5, 2014. Each of the above referenced
applications is incorporated herein by reference in its
entirety.
BACKGROUND OF THE DISCLOSURE
Field of the Disclosure
[0002] The present disclosure generally relates to a modular
adapter for tongs.
Description of the Related Art
[0003] A wellbore is formed to access hydrocarbon-bearing
formations (e.g., crude oil and/or natural gas) or for geothermal
power generation by the use of drilling. Drilling is accomplished
by utilizing a drill bit that is mounted on the end of a drill
string. To drill within the wellbore to a predetermined depth, the
drill string is often rotated by a top drive on a drilling rig.
After drilling to a predetermined depth, the drill string and drill
bit are removed and a string of casing is lowered into the
wellbore. An annulus is thus formed between the casing string and
the wellbore. The casing string is hung from the wellhead. A
cementing operation is then conducted in order to fill the annulus
with cement. The casing string is cemented into the wellbore by
circulating cement into the annulus defined between the outer wall
of the casing and the borehole. The combination of cement and
casing strengthens the wellbore and facilitates the isolation of
certain areas of the formation behind the casing for the production
of hydrocarbons.
[0004] A tong set is used to tighten threaded connections between a
stand of drill pipe and the drill string or between a joint of
casing and the casing string. The tong set includes a power tong
and a backup tong. The wrenching tong supplies torque to and
rotates the stand or joint being added to the drill or casing
string while a backup tong torsionally arrests the string, thereby
tightening the threaded connection. The tong set may also be used
to assemble production tubing and riser strings.
[0005] Due to different rig floor sizes (compact style),
configurations and limited availability of positioning systems for
tongs to make up and break out pipe joints, it is not always
possible to accommodate equipment on the rig floor. This is
especially true for deep water wells where heavier and longer
strings are run, such as twenty-inch or greater casing sizes. These
heavier and longer pipe strings require heavy duty equipment which
tends to be bulky. Also, compatibility issues arise between tongs
and positioning systems built by different manufacturers due to
their limited weight/moment capacity and space to accommodate heavy
weight tongs.
SUMMARY OF THE DISCLOSURE
[0006] The present disclosure generally relates to a modular
adapter for tongs. In one embodiment, a portable tong system
includes: a power tong; a backup tong; and an adapter. The adapter
includes: a main frame having a base for mounting the backup tong;
a mount for mounting the main frame to a positioning system; a
leveling frame for torsional connection to the power tong; a
suspension mounted to the leveling frame for supporting the power
tong; a linear actuator for raising and lowering the leveling frame
relative to the main frame; and a torsional arrestor torsionally
connecting the leveling frame to the main frame.
[0007] In another embodiment, an adapter for supporting a tong
includes a leveling frame and a suspension for supporting the tong
on the leveling frame. The suspension includes an axially movable
member mounted to an upper surface of the leveling frame and a
receptacle mounted to the tong for receiving the movable
member.
[0008] In another embodiment, a portable tong system includes: a
power tong; a backup tong; and an adapter. The adapter includes: a
main frame having a base for mounting the backup tong; a mount for
mounting the main frame to a positioning system; and a leveling
frame for receiving the power tong and linked to the main frame.
The system further includes: a skid; and the positioning system for
horizontally moving the tongs and the adapter along the skid.
[0009] In another embodiment, a method of adapting tongs to a
positioning system includes: mounting a backup tong to an adapter;
suspending a power tong from the adapter; torsionally connecting
the power tong to the adapter; hoisting the adapter and the tongs
adjacent to a positioning system located on a floor of a drilling
rig; and fastening the adapter to the positioning system.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] So that the manner in which the above recited features of
the present disclosure can be understood in detail, a more
particular description of the disclosure, briefly summarized above,
may be had by reference to embodiments, some of which are
illustrated in the appended drawings. It is to be noted, however,
that the appended drawings illustrate only typical embodiments of
this disclosure and are therefore not to be considered limiting of
its scope, for the disclosure may admit to other equally effective
embodiments.
[0011] FIG. 1 illustrates a portable tong system in a standby mode,
according to one embodiment of the present disclosure.
[0012] FIGS. 2, 3A, and 3B illustrate a tong set and an adapter of
the portable tong system.
[0013] FIGS. 4-6 illustrate the adapter of the portable tong
system.
[0014] FIG. 7 illustrates operation of a positioning system of the
portable tong system to engage the tong set with a casing string
and a casing joint stabbed therein.
[0015] FIG. 8 illustrates operation of a power tong of the tong set
to screw the casing joint into the casing string.
[0016] FIG. 9 illustrates running of the extended casing
string.
DETAILED DESCRIPTION
[0017] FIG. 1 illustrates a portable tong system 1 in a standby
mode, according to one embodiment of the present disclosure. The
portable tong system 1 may be delivered to a floor 2 of a drilling
rig 3 when needed, such as by a forklift (not shown), crane (not
shown), or pallet jack (not shown), and removed from the rig floor
and stowed when not needed so as to not clutter the rig floor. The
drilling rig 1 may be part of an offshore drilling system further
including a fluid handling system (not shown), marine riser (not
shown), a blowout preventer stack (BOP not shown), and a drill
string (not shown). The drilling rig 3 may further include a
derrick 4 extending upward from the rig floor 2, a top drive (not
shown), and a hoist (not shown). The rig floor 2 may have an
opening through which the drill string or casing string 5 extends
downwardly through the marine riser and BOP and into a subsea
wellbore (not shown).
[0018] The drilling rig 3 may further include a rail (not shown)
extending from the rig floor 2 or lower portion of the derrick 4
toward a crown block (not shown) of the hoist. The top drive may
include a becket, a frame, a motor, an inlet, a gear box, a swivel,
a quill, a trolley, a pipe handler 6, and a backup wrench. The top
drive motor may be electric or hydraulic and have a rotor and a
stator. The top drive motor may be operable to rotate the rotor
relative to the stator which may also torsionally drive the quill
via one or more gears (not shown) of the gear box. The quill may
have a coupling (not shown), such as splines, formed at an upper
end thereof and torsionally connecting the quill to a mating
coupling of one of the gears. Housings of the motor, swivel, gear
box, and backup wrench may be connected to the frame and the
trolley may connect the frame to the rail. The top drive may
further include an interface (not shown) for receiving power and/or
control lines.
[0019] The trolley may ride along the rail, thereby torsionally
restraining the frame while allowing vertical movement of the top
drive with a travelling block of the rig hoist. The traveling block
may be supported by wire rope connected at its upper end to the
crown block. The wire rope may be woven through sheaves of the
travelling and crown blocks and extend to drawworks (not shown) for
reeling thereof, thereby raising or lowering the traveling block
relative to the derrick 4. The becket may connect the traveling
block to the frame to suspend the top drive from the crown block.
The swivel may include one or more bearings (not shown) for
longitudinally and radially supporting rotation of the quill
relative to the frame. The inlet may have a coupling for connection
to a mud hose (not shown) and provide fluid communication between
the mud hose and a bore of the quill. The quill may have a
coupling, such as a threaded pin, formed at a lower end thereof for
connection to a mating coupling, such as a threaded box, of the
drill string.
[0020] The pipe handler 6 may include an elevator 6e, a pair (only
one shown) of bails 6b, and a link tilt (not shown). Each bail 6b
may have an eyelet formed at each longitudinal end thereof. An
upper eyelet of each bail 6b may be received by a respective
lifting lug of the top drive frame, thereby pivotally connecting
the bails to the top drive. A lower eyelet of each bail 6b may be
received by a respective lifting lug of the elevator 6e, thereby
pivotally connecting the bails to the elevator. The link tilt may
include a pair of piston and cylinder assemblies for swinging the
elevator 6e relative to the top drive frame. An upper hinge knuckle
of each piston and cylinder assembly may be received by a
respective mating hinge knuckle of the top drive frame, thereby
pivotally connecting the piston and cylinder assemblies to the top
drive. A lower hinge knuckle of each piston and cylinder assembly
may be received by a mating hinge knuckle of the respective bail
6b, thereby pivotally connecting the piston and cylinder assemblies
to the bails.
[0021] The elevator 6e may be a casing elevator for running the
casing string 5 into the subsea wellbore. When drilling the subsea
wellbore or running a work string of drill pipe, a drill pipe
elevator (not shown) may be connected to the bails 6b instead of
the casing elevator 6e. The drilling rig 3 may further include a
rotary table 7 and a spider 8. The spider 8 may be installed into
the rotary table 7 to longitudinally support the casing string 5
from the rig floor 2.
[0022] The portable tong system 1 may include a skid 9, a
counterweight 10, a positioning system 11, a tong set 12, an
adapter 13, and a control system (not shown). The control system
may include a hydraulic power unit (HPU, not shown) and a control
console (not shown) for operation of the positioning system 11 by a
technician. The control system may be mounted to the skid 9. The
counterweight 10 may be received by one or more posts (not shown)
mounted to the skid 9. The positioning system 11 may include a base
11b, a tool frame 11f, a boom 11m, and a boom actuator 11a. The
positioning system 11 may be capable of supporting a weight of the
tong set 12 without additional external assistance, such as a winch
connected to the derrick 4.
[0023] The base 11b may be supported by and longitudinally movable
relative to the skid 9, by having sliders (not shown) engaged with
rails (not shown) of the skid. The positioning system 11 may
further include a base actuator (not shown), such as a piston and
cylinder assembly, pivotally connected to the skid 9 and the base
11b for moving the base along the skid between a stowed position
(shown) and a ready position (FIG. 7). The boom 11m may be
pivotally connected to the base 11b, such as by hinges (only one
shown). The boom 11m may include a pair of A-frames and one or more
girders connecting the A-frames. The boom actuator 11a may include
one or more, such as a pair, of piston and cylinder assemblies
(only one shown). The boom actuator 11a may have a first end
pivotally connected to the base 11b, such as by a hinge, and a
second end pivotally connected to the boom 11m, such as by a hinge.
The boom actuator 11a may be operated to pivot the boom 11m about
the base 11b between a retracted position (shown) and an extended
position (FIG. 7). The tool frame 11f may be pivotally connected to
the boom 11m, such as by a hinge. The tool frame 11f may also be
pivotally connected to the base 11b by a stabilizer (not shown)
such that a longitudinal axis of the tool frame remains vertically
oriented as the boom 11m moves between the extended and retracted
positions.
[0024] Alternatively, the base 11b may include a turntable and
turntable actuator such that the boom 11m may slew relative to the
skid 9. Alternatively, the tool frame 11f may include a dolly and a
dolly actuator to raise and lower the tong set 12 and adapter 13
relative to the boom 11m. Alternatively, the skid 9 may be secured
to the rig floor 2 or derrick 4 to obviate the need for a
counterweight 10.
[0025] FIGS. 2, 3A, and 3B illustrate the tong set 12 and the
adapter 13. The tong set 12 may include a power tong 12p, a backup
tong 12b, a torsion tube 12t, and a control system 12c. The control
system 12c may include an HPU and a control console for operation
of the tong set 12 by a technician. The control system 12c may be
mounted to the power tong 12p.
[0026] Each tong 12b,p may include a body and a pair of segments
pivotally connected to the body. The segments and body may define a
cylindrical opening. The segments may be pivoted about the body
between an open position (not shown) and a closed position (shown).
In the open position, the segments may be pivoted outward to create
a passage for receiving the respective casing joint 5j and casing
string 5 into the respective openings. Once received, the tongs
12b,p may be moved to the closed position for screwing the casing
joint 5j into the casing string 5. Each tong 12b,p may include a
segment actuator, such as a piston and cylinder assembly, pivotally
connected to the respective body and the respective segment. Each
segment may include a portion of a gate having a male member and a
female member and the gate may be formed when the segments are in
the closed position.
[0027] The power tong 12p may include a pinion motor, a segmented
rotary gear, two or more, such as three, jaws, a jaw actuator for
each jaw, and support members disposed between the jaws. The
support members may be fixed within the inner diameter of the
rotary gear such that the jaws and the support members rotate with
the rotary gear. The jaws may be radially movable relative to the
rotary gear between a gripping position and a released position. A
spring may bias each jaw toward the released position. Each jaw
actuator may include one or more, such as a pair, of pistons
operable to push the respective jaw to the gripping position in
engagement with an outer surface of the casing joint 5j. A rotor of
the pinion motor may be meshed with the rotary gear for torsionally
driving the jaws. The backup tong 12p may have jaws, jaw springs,
and jaw actuators similar to the power tong except that the jaw
assemblies may be torsionally connected to the body thereof.
[0028] Alternatively, the power tong 12p may include a plurality,
such as three, pinion motors.
[0029] The torsion tube 12t may extend underneath the body of the
power tong 12p and have arms attached to ends thereof. Each arm may
be pivotally connected to a respective side of the power tong body
for receiving reaction torque from the power tong 12p. The torsion
tube 12t may also have an ear attached thereto at a center thereof.
The arms and ear of the torsion tube 12t may torsionally connect
the power tong 12p to the adapter 13.
[0030] FIGS. 4-6 illustrate the adapter 13. The adapter 13 may
include a main frame 14, a leveling frame 15, a suspension 16, 20,
a linear actuator 17, a torsional arrestor 18, and a mount 19. The
main frame 14 may include a base 14b, a girder 14d, one or more
(pair shown) posts 14p, a peg 14e, one or more (pair shown) gusset
plates 14g. The posts 14p and pegs 14e may extend upward from the
base 14b, be attached thereto, such as by welds, and may be
received into sockets (not shown) of the backup tong 12b, thereby
torsionally and horizontally connecting the backup tong to the main
frame 14 and vertically supporting the backup tong therefrom.
[0031] The mount 19 may include one or more (pair shown) bodies
19y, one or more (pair shown) upper hangers 19u, and one or more
(pair shown) lower plates 19d. The torsional arrestor 18 may
include a pair of rails 18r and one or more (pair shown) linear
bearings 18b disposed in each rail 18r. The rails 18r may extend
upward from the base 14b and be attached thereto, such as by welds.
The gusset plates 14g may be attached to the base 14b and the rails
18r, such as by welds. The rails 18r may also extend through the
girder 14d and be attached thereto, such as by welds. The girder
14d may be attached to the mount bodies 19y, such as by welds. The
girder 14d may be centrally disposed along the rails 18r and be
disposed between the leveling frame 15 and the base 14b which may
also be between the power tong 12p and the backup tong 12b.
[0032] The mount bodies 19y may also serve as gusset plates and may
be attached to the base 14b and the rails 18r, such as by welds.
The upper hangers 19u may be hooks formed in the mount bodies 19y
and lined with plate attached thereto, such as by welds, and the
lower plates 19d may be attached to the bodies 19y, such as by
welds. The upper hangers 19u may engage a crossbar of the tool
frame 11f and the lower plates 19d may have holes for aligning with
holes of the tool frame to receive fasteners therethrough, thereby
mounting the main frame 14 to the tool frame.
[0033] The linear actuator 17 may vertically link the leveling
frame 15 to the main frame 14. The linear actuator 17 may include
one or more (one fully shown and one partially shown) piston and
cylinder assemblies disposed in the rails 18r. An upper hinge
knuckle of each piston and cylinder assembly may be received by a
mating hinge knuckle of the respective rail 18r, thereby pivotally
connecting the piston and cylinder assemblies to the rails. A lower
hinge knuckle of each piston and cylinder assembly may be received
by a respective mating hinge knuckle of the leveling frame 15,
thereby pivotally connecting the piston and cylinder assemblies to
the leveling frame. A stroke length of the linear actuator 17 may
correspond to, such as being equal to or slightly greater than, a
makeup length of the threaded connection between the casing joint
5j and the casing string 5 or the stroke length may be
significantly greater the makeup length. In numerical terms, the
stroke length of the linear actuator 17 may be greater than or
equal to thirty centimeters, sixty centimeters, ninety centimeters,
or one meter.
[0034] The torsional arrestor 18 may torsionally and horizontally
connect the leveling frame 15 to the main frame 14 while allowing
vertical movement of the leveling frame relative to the main frame.
Each linear bearing 18b may include a body fastened to the leveling
frame 15 and one or more (pair shown) rollers linearly connected to
the body while being free to rotate about a horizontal axis. Each
body may include a mounting plate and a bearing stem. One of the
rollers may be an outer roller disposed around the bearing stem and
free to rotate relative thereto about a first horizontal axis. The
other roller may be an inner roller disposed in the bearing stem
and free to rotate relative thereto about a second horizontal axis
perpendicular to the first horizontal axis. The outer rollers may
be fit to a depth of the rails 18r such that the outer rollers may
engage one flange of the rails when the power tong 12p is operated.
The inner rollers may engage webs of the rails 18r.
[0035] The suspension 16, 20 may include two or more (four shown)
sliding pillars 16 and a receptacle 20 for each pillar. Each
sliding pillar 16 may include a housing 16h, a ball stud 16b, a
compression spring 16s, a mandrel 16m, an adjustment disk 16d, and
an adjustment screw 16w. The housings 16h may be cylindrical and
each may have a flange for mounting to the leveling frame 15, such
as by threaded fasteners. The mandrels 16m may be disposed in the
housings 16h and may each be longitudinally movable relative
thereto. The mandrels 16m may each have an upper tube, a lower
tube, and a washer connecting the tubes. The adjustment disks 16d
may each be disposed in a respective housing 16h and linked to the
leveling frame 15 by the respective adjustment screw 16w. The
springs 16s may each be disposed in the lower tube of the
respective mandrel 16m and have an upper end pressing against the
washer thereof and a lower end pressing against the respective
adjustment disk 16d, thereby biasing the respective mandrel
vertically away from the leveling frame 15. The springs 16s may
have sufficient stiffness to support weight of the power tong 12p
and control system 12c. The ball studs 16b may each have a
hemi-spherical upper portion and a cylindrical lower portion
disposed in the upper tube of the respective mandrel 16m.
[0036] Two of the receptacles 20 may be mounted to a bottom of the
power tong 12p and two of the receptacles may be mounted to a side
of the power tong, such as by threaded fasteners. Each receptacle
20 may include a cylindrical shroud 20s and a ball socket 20k. Each
ball socket 20k may be disposed in the respective shroud 20s. Each
ball socket 20k may have a hem i-spherical inner seat and an outer
flange for receiving the threaded fasteners. Each shroud 20s may
have an upper lip received in a groove of the respective flange of
the ball socket 20k, thereby trapping the shrouds between the ball
sockets and the power tong 12p. Each seat of the ball socket 20k
may engage the hemi-spherical upper portion of the respective ball
stud 16b and each shroud 20s may receive an upper portion of the
respective housing 16h. The shrouds 20s may have inner diameters
greater than outer diameters of the housings 16h, thereby forming
outer clearances between the shrouds and the housings. The seats of
the ball sockets 20k may have diameters greater than diameters of
the hemi-spherical upper portions of the ball studs 16b, thereby
forming inner clearances between the ball sockets and the ball
studs.
[0037] The suspension 16, 20 may vertically support the power tong
12p from the leveling frame 15 in a floating fashion while also
horizontally linking the power tong to the leveling frame in an
articulating fashion. Engagement of tops of the housings 16h with
the flanges of the ball sockets 20k may serve as a limit to the
floating of the power tong 12p on the leveling frame 15 and the
inner and outer clearances may serve as limits to articulation of
the power tong 12p relative to the leveling frame 15. A travel
range of the suspension in each of the vertical and horizontal
directions may be greater than or equal to ten millimeters, twenty
millimeters, thirty millimeters, or forty millimeters.
[0038] Alternatively, the sliding pillars 16 may be mounted to the
power tong 12p and the receptacles 20 may be mounted to the
leveling frame 15.
[0039] The leveling frame 15 may have one or more (pair shown)
peripheral lugs 15p and a central lug 15c. The peripheral lugs 15p
may be connected to the arms of the torsion bar 12t and the central
lug 15c may be connected to the ear of the torsion bar, such as by
link arms and threaded fasteners, thereby torsionally connecting
the power tong 12p to the leveling frame 15. The leveling frame 15
may also have a bracket 15b for receiving an electrical power cable
for connecting the control system 12c to an electrical power source
of the drilling rig 3.
[0040] FIG. 7 illustrates operation of the positioning system 11 to
engage the tong set 12 with the casing string 5 and the casing
joint 5j stabbed therein. After the casing joint 5j is swung into
position over the casing string 5 using the pipe handler 6, a
bottom coupling of the casing joint may be stabbed into a top
coupling of the casing string by operation of the rig hoist. The
base actuator of the positioning system 11 may be operated to move
the base 11b along the skid 9 to the ready position, thereby
horizontally transporting the tong set 12 from a position adjacent
to the derrick 4 to a position adjacent to the casing string 5. The
tong control system 12c may then be operated to open the tongs
12b,p. The boom actuator 11a may then be operated to pivot the boom
11b to the extended position so that the top coupling of the casing
string 5 is received into the opening of the backup tong 12b and a
lower portion of the casing joint 5j is received into the opening
of the power tong 12p. The tong control system 12c may then be
operated to close the tongs 12b,p and operate the jaw actuators to
move the jaws into gripping engagement with the outer surfaces of
the respective casing string 5 and casing joint 5j.
[0041] FIG. 8 illustrates operation of the power tong 12p to screw
the casing joint 5j into the casing string 5. A pressure regulator
of the tong control system 12c may be operated to maintain pressure
in the linear actuator 17 for exerting an upward force on the
leveling frame 15 corresponding to a weight thereof and a weight of
the power tong 12p and control system 12c such that little or no
downward force is exerted on the casing joint 5j during makeup with
the casing string 5 (aka a neutral condition). A thread compensator
of the top drive or pipe handler 6 may also be operated to support
a weight of the casing joint 5j during makeup to also maintain the
neutral condition. The linear actuator 17 may be operated with
hydraulic fluid, such as refined and/or synthetic oil.
[0042] The pinion motor may then be operated to drive the power
tong 12p to spin and tighten the threaded connection between the
casing joint 5j and the casing string 5. The pressure regulator may
relieve fluid pressure from the linear actuator 17 as the casing
joint 5j is screwed into the casing string 5 while the linear
actuator strokes downward to accommodate longitudinal displacement
of the threaded connection. The thread compensator of the top drive
or pipe handler 6 may also stroke downward in a similar
fashion.
[0043] Alternatively, the linear actuator 17 may be pneumatically
operated. Alternatively, instead of the top drive or pipe handler 6
having a thread compensator, weight of the casing joint 5j may be
set onto the power tong 12p and the linear actuator 17 operated to
support the weight of the casing joint.
[0044] FIG. 9 illustrates running of an extended casing string 5e.
Once the threaded connection has been madeup, the jaws of the tongs
12b,p may be disengaged from the extended casing string 5e, the
power tong 12p raised back to an upper position, the tongs opened,
the boom pivoted back to the retracted position, and the base moved
back to the stowed position. The rig hoist may be operated to lift
the extended casing string 5e and the spider 8 may then be
disengaged from the extended casing string. The extended casing
string 5e may then be lowered through the rig floor 2 until the top
coupling of the casing joint 5j is adjacent thereto and the acts
repeated to add another casing joint to the extended casing
string.
[0045] Alternatively, a seal head of a circulation or flowback tool
connected to the quill of the top drive may be stabbed into the
casing joint 5j before disengaging the spider 8 from the extended
casing string 5e and/or before lowering the extended casing string
through the rig floor 2. Alternatively, a liner string, riser
string, conductor string, production tubing string, wellscreen
string, work string, or drill string may be assembled or
disassembled using the portable tong system 1.
[0046] In another embodiment (not shown), but illustrated in the
priority U.S. Prov. App. No. 62/075,461 (Atty. Dkt. No.
WEAT/1250USL), which is herein incorporated by reference in its
entirety, at FIGS. 1A-1C, a tong adapter for connecting a heavy
weight power tong assembly to an existing tong positioning system
of a drilling rig includes vertical displacement capability
provided by hydraulic cylinders. The tong adapter has hook
connections on top to support the weight of the power tong assembly
hung therefrom. Horizontal displacement is provided by the tong
positioning system. The tong adapter includes removable support
brackets for installation of the power tong assembly. The power
tong assembly is installed in the tong adapter before it is placed
in the tong positioning system to save time and ease the
installation process.
[0047] In another embodiment (not shown), but illustrated in FIGS.
2A and 2B of the '461 provisional, a second tong adapter for
connecting a heavy weight power tong assembly to an existing tong
positioning system of a drilling rig includes a lifting fork for
holding the power tong assembly. The second tong adapter includes
vertical displacement capability provided by hydraulic cylinders.
The second tong adapter includes a rolling frame for transferring
the weight of the power tong assembly to the rig floor instead of
the tong positioning system to reduce moment exerted thereon.
Horizontal displacement is provided by the tong positioning
system.
[0048] In another embodiment (not shown), but illustrated in FIGS.
3A and 3B of the '461 provisional, a third tong adapter for
connecting a heavy weight power tong assembly to an existing tong
positioning system of a drilling rig has hook connections on top to
support the weight of the power tong assembly hung therefrom. The
third tong adapter includes vertical displacement capability
provided by hydraulic cylinders. A swing arm connects the hanger to
a standing frame and the third tong adapter has horizontal
displacement capability provided by hydraulic cylinders. The
standing frame has supporting studs for transferring the weight of
the power tong assembly to the rig floor instead of the tong
positioning system to reduce moment exerted thereon.
[0049] The first, second, and third tong adapter embodiments of the
'461 provisional have the capability to horizontally and vertically
displace heavy weight tong assemblies while utilizing existing tong
positioning systems. The modular design allows using the same
adapter for different positioning systems with only minor
modifications to the connection members.
[0050] In another embodiment (not shown), but illustrated in FIGS.
4A-4H of the '461 provisional, a portable heavy weight power tong
system is movable between an extended position (FIGS. 4A, 4C, and
4E) and a retracted position (FIGS. 4B, 4D, and 4F). The portable
heavy weight power tong system has illustrates support legs
extendable (FIG. 4G) and locked in place with locking pins. The
support legs are also retractable (FIG. 4H). The portable power
tong system does not require an existing tong positioning system of
the drilling rig. An adapter of the portable power tong system has
vertical and horizontal displacement capability of the power tong
assembly provided by hydraulic cylinders. A standing frame of the
adapter has supporting studs for transferring the weight of the
power tong assembly to the rig floor and has the supporting legs
for engaging the rig floor to handle overturning moment. The
support legs are extended and retracted using hydraulic or
pneumatic cylinders. Counterweight may also be added to the
standing frame to handle the overturning moment.
[0051] In another embodiment (not shown), but illustrated in FIGS.
5A-5F of the '461 provisional, a second portable heavy weight power
tong system is movable between an extended position (FIGS. 5A, 5C,
and 5E) and a retracted position (FIGS. 5B, 5D, and 5F). The second
portable power tong system does not require an existing tong
positioning system of the drilling rig. An adapter of the second
portable power tong system includes a standing frame to distribute
weight of the power tong assembly to the rig floor. The adapter
also includes pivoting bars connected to the power tong assembly
driven by hydraulic cylinders to provide horizontal displacement
thereof. The adapter also includes a scissor mechanism driven by
hydraulic cylinders to provide vertical displacement of the power
tong assembly.
[0052] In another embodiment (not shown), but illustrated in FIGS.
6A-6C of the '461 provisional, a third portable heavy weight power
tong system is movable between an extended position (FIG. 6A) and a
retracted position (FIG. 6B). The third portable heavy weight power
tong system is also vertically displaceable (FIG. 6C). The third
portable power tong system does not require an existing tong
positioning system of the drilling rig. An adapter of the third
portable power tong system includes a standing frame to distribute
weight of the power tong assembly to the rig floor. The adapter
also includes a geared racks connected to the power tong assembly
driven by pinion motors to provide horizontal displacement thereof.
The adapter also includes pivoting cylinders connected to the
geared rack to provide vertical displacement of the power tong
assembly.
[0053] The adapters of the first, second, and third portable power
tong systems of the '461 provisional have the ability to vertically
and horizontally displace the power tong assemblies in any area
close to the well center for pipe make up and break down
operations. These adapters eliminate the need to adapt to an
existing rig positioning system which could limit the use of heavy
weight power tong assemblies.
[0054] While the foregoing is directed to embodiments of the
present disclosure, other and further embodiments of the disclosure
may be devised without departing from the basic scope thereof, and
the scope of the invention is determined by the claims that
follow.
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