Embodiments of the invention generally relate to wellbore operations. More particularly, embodiments of the invention relate to a tubular handling tool.
In order to access hydrocarbons from a wellhead on the seafloor, it is necessary to have a riser string that extends from a floating vessel to the wellhead. The riser string is formed by connecting several tubulars together. Therefore, a need exists for an apparatus and a method to position tubulars on the floating vessel in order to form the riser string.
Embodiments of the invention generally relate to a tubular handling tool. In one aspect, a tool for use with a tubular is provided. The tool includes a base and a ring member. The tool further includes an actuation member configured to move the ring member relative to the base. Additionally, the tool includes a clamp member rotationally attached to the base. The clamp member is configured to move between a radially retracted position and a radially extended position as the ring member moves relative to the base.
In one embodiment, a method of gripping a tubular is provided. The method includes the step of positioning a tool adjacent the tubular. The tool includes a base, a ring member and a clamp member. The method further includes the step of moving the ring member relative to the base. Additionally, the method includes the step of gripping the tubular by moving the clamp member into engagement with the tubular as a result of the movement of the ring member relative to the base.
In one embodiment, a tool for use with a tubular is provided. The tool includes a base, a sleeve member, and an actuation member configured to move the sleeve member relative to the base. The tool further includes a dog member coupled to the base, the dog member configured to move between a radially retracted position and a radially extended position as the sleeve member rotates relative to the base.
The patent or application file contains at least one drawing executed in color. Copies of this patent or patent application publication with color drawing(s) will be provided by the Office upon request and payment of the necessary fee.
So that the manner in which the above recited features of the invention can be understood in detail, a more particular description of the invention, 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 invention and are therefore not to be considered limiting of its scope, for the invention may admit to other equally effective embodiments.
Embodiments of the invention generally relate to a tubular handling tool. The tubular handling tool will be described herein in relation to a tubular that is used in a riser string. It is to be understood, however, that the tubular handling tool may also be used with other tubulars, such as a tubular with flanged tubular connections or tapered tubular (threads) connections. To better understand the novelty of the tubular handling tool and the methods of use thereof, reference is hereafter made to the accompanying drawings.
As shown in
An actuation member 150 is disposed between the base 135 and the ring 110. The ring 110 is movable relative to the base 135 as the actuation member 150 moves between an extended position and a retracted position. The actuation member 150 (as well as the other actuation members described herein) may be a hydraulic cylinder, a pneumatic cylinder, a motor or another actuation device known in the art. In one embodiment, the actuation member 150 may include a spring that biases the actuation member 150 in the retracted position to prevent accidental opening of the tool 100 in case of loss of power. As shown in
The tool 100 includes clamp members 125. Each clamp member 125 is pivotally connected to the base 135. In one embodiment, each clamp member is connected to the base 135 via a support member 140 and a pin 130. Each clamp member 125 is also attached to the coupler 145 of the ring 110 via a connection member 120. The clamp member 125 is configured to rotate around the pin 130 as the ring 110 moves relative to the base 135.
The clamp members 125 are movable between a radially retracted position (
The tool 100 may be part of a pipe handling system that is used to pick up the tubular 225 from a V-door or a pipe ramp on a rig floor. The system may include a link-tilt device. The link-tilt device may be used to pivot the link arms out and back as required e.g. by use of an appropriate piston-cylinder arrangement. The tool 100 is connected to the link-tilt device. The system may include a support 205 (e.g., neck) that is attached to a sliding table 200. The support 205 is configured to hold the tubular 225.
In one embodiment, an Integrated Safety Interlock System (ISIS) connected with the sliding table 200 may be included in the tool 100 to prevent accidental opening. More specifically, the interlock system can be installed on the sliding table 200 and the tool 100 to prevent dropped pipe string situations. Sensors may be added to the tool 100 to determine the position of the clamp members 125. The sensors may be attached to actuation member 150 and/or the clamp members 125. The sensors on the actuation member 150 may be used to determine if the actuation member 150 is in the extended position or the retracted position. The sensors on the clamp members 125 may be used to determine if the clamp members 125 are in the radially retracted position or the radially extended position. Also, positional interlocks could be in place to prevent unwanted motion between the top drive and other components in the pipe handling system. A control system could be incorporated into a panel which is operated by a single person. Additionally, communication may be maintained with other people at the well site either through an indicator box, mechanical and/or electrical interlocks, verbal/visual cues, or the entire system could be operated from a console, if desired.
In the operation of the pipe handling system, the tool 100 is lowered toward the rig floor and positioned adjacent a tubular by operating the link-tilt device. The tool 100 is moved to the open position (
The tool 250 includes clamp members 260. Each clamp member 260 is connected to the base 135 via the support member 140 and the pin 130. Each clamp member 260 includes an end 255 that is configured to interact with a coupler 280 of the ring 275. The clamp member 260 is configured to rotate around the pin 130 as the ring 265 moves relative to the base 135. The clamp member 260 also includes a grip portion 265 that is configured to engage a portion of the tubular. The grip portion 265 of the clamp member 260 may be selected based upon the type of tubular handled by the tool 250. Specifically, the grip portion 265 shown in
The tool 250 is shown in
The tool 300 includes ears 305, a guide member 355, a base 335, a leveling ring 310, and an actuation member 350 that is configured to move the ring 310 relative to the base 335. The base 335 (and any other base members described herein) may include any type of frame or structure configured to support one or more components of the tool 300. The actuation member 350 (and any other actuation members described herein) may include one or more hydraulic, pneumatic, and/or electric motors, valves, and/or piston-cylinders known in the art for moving the ring 310. The actuation member 350 (and any other actuation members described herein) may be spring loaded or otherwise biased into a failsafe close position, in the event of a loss of power to prevent inadvertent opening of the tool 300 when supporting a tubular. Secondary automated or manual locking mechanisms, such as locking pins, tabs, fingers, rings, valves, etc. may be used to lock the tool 300 (and any other tools described herein) in the open and/or closed position.
The tool 300 further includes a plurality of guide pins 317 supported by the base 335 and coupled to the ring 310. The pins 317 are configured to guide and maintain the ring 310 in a substantially level position as the ring 310 is moved upward and downward relative to the base 335. The pins 317 may extend out of and retract into cylinder housings as the ring 310 is raised and lowered relative to the base 335.
The tool 300 further includes a plurality of clamp members 325. The ring 310 includes a plurality of couplers 345 for connection to the clamp members 325, the couplers 345 each having a slot 315 that includes a vertical slot section and an angled slot section. Each clamp member 325 is connected to the base 335 via a support member 340 and a pin 330. Each clamp member 325 is connected to the coupler 345 by a connection member 320 that is moveable within the slot 315 formed in the coupler 345. The clamp member 325 is configured to rotate around the pin 330 as the ring 310 moves relative to the base 335. The clamp member 325 also includes a grip portion 365 that is configured to engage a portion of a tubular, such as a riser string flange.
The clamp members 325 are movable between a radially retracted position and a radially extended position. The clamp members 325 are in the radially extended position when the tool 300 is in the open position. The clamp members 325 are in the radially retracted position when the tool 300 is in closed position. The tool 300 may have any number of clamp members 325.
The tool 300 is shown in
To move the tool 300 to the open position, the actuation member 350 is moved to the extended position, which moves the ring 310 away from the base 335. As the ring 310 moves away from the base 335, the connection member 320 moves along the angled section of the slot 315 in the coupler 345, thereby rotating the clamp member 325 around the pin 330 to the radially extended position. To move the tool 300 back to the closed position, the actuation member 350 is moved to the retracted position, which moves the ring 310 toward the base 335. As the ring 310 moves toward the base 335, the connection member 320 moves along angled section of the slot 315 (and then into the vertical section of the slot 315) in the coupler 345, thereby rotating the clamp member 325 around the pin 330 to the radially retracted position.
The tool 400 is shown in
To move the tool 400 back to the closed position, the actuation member 450 is moved to the retracted position, which forces the arms 415, 420 to pivot toward each other about the connection member 440, thereby causing the upper ends of the arms 430, 435 of the clamp members 425 (via connection members 445, 460) to pivot toward each other about the connection member 465. As the upper ends of the arms 430, 435 pivot toward each other about the connection member 465, the clamp members 425 at the opposite ends also move toward each other into the radially retracted position.
The support member 410 may be used to connect the tool 400 to a top drive system or other tubular handling system, such as by bails. The tool 400 may include a rotary actuator, such as rotary actuator 185, to tilt and pivot the tool 400 to engage a tubular that is positioned at an angle, such as a tubular positioned in a V-door. When supporting a load, the clamp members 425 are drawn toward each other about the connection member 465 into the closed position as a failsafe mechanism. Thus, in the event of a loss of power, the tool 400 is configured to remain in the closed position to prevent inadvertent release of a tubular that is being supported by the clamp members 425.
The tool 500 includes ears 505, a guide member 555, a base 535, a leveling ring 510, and an actuation member 550 that is configured to move the ring 510 relative to the base 535. The tool 500 includes a plurality of guide pins 517 supported by the base 535 and coupled to the ring 510. The pins 517 are configured to guide and maintain the ring 510 in a substantially level position as the ring 510 is moved upward and downward relative to the base 535. The ring 510 includes a plurality of couplers 545.
The tool 500 further includes a sleeve member 570 that is connected to the couplers 545 of the ring 510 via a support member 515 and a connection member 520. The sleeve member 570 may be disposed entirely or partially about the circumference of the base 535. The tool 500 further includes a plurality of dogs 575 that are supported within one or more openings 572 formed in the sleeve member 570 by backing members 573. The dogs 575 are also supported within one or more openings 537 formed in the base 535. The dogs 575 are movable radially inward by the sleeve member 570, and are biased radially outward by one or more biasing members, such as springs, disposed between the base 535 and the dogs 575.
The dogs 575 are movable between a radially retracted (inward) position and a radially extended (outward) position. The dogs 575 are in the radially extended position when the tool 500 is in the open position, and the dogs 575 are in the radially retracted position when the tool 500 is in closed position. The tool 500 may have any number of dogs 575 that are configured to engage a portion of the tubular 225, such as a riser string flange.
The tool 500 is shown in
To move the tool 500 back to the open position, the actuation member 550 is moved to the extended position, which moves the ring 510 away from the base 535. As the ring 510 moves away from the base 535, the sleeve member 570 is raised such that the openings 572 of the sleeve member 575 are brought back into position behind the dogs 575. The dogs 575 are biased radially outward into the openings 572 and into the radially extended position. In the event of a loss of power, the tool 500 is configured to remain in the closed position to prevent inadvertent release of the tubular 225 when supported by the dogs 575.
The tool 600 includes a support member 610 and a guide member 655, each coupled to a base 635. The guide member 655 may be coupled to the base 635 for guiding and centering the tool 600 onto a tubular, such as a riser string. The tool 600 further includes a sleeve member 670 and actuation members 650 that are configured to rotate the sleeve member 670 relative to the base 635. The sleeve member 670 may be disposed entirely or partially about the circumference of the base 635.
The actuation members 650 are pivotably coupled to the base 635 at one end, and are pivotably coupled to couplers 645 via connection members 620 at the opposite end. The couplers 645 are coupled to the sleeve member 670. When extended and retracted, the actuation members 650 may pivot about the connection member 620 to rotate the sleeve member 670 about the base 635. A guide block 680 may be coupled to the base 635 to guide the travel of the sleeve member 670 about the base 635, and to prevent removal of the sleeve member 670 from the base 635.
The support member 610 may include a solid pipe having an upper shoulder portion for engagement by any conventional elevator known in the art. The support member 610 provides the ability to handle the tool 600 (and thus make up a riser string) using any conventional elevator, such as a drill pipe elevator, which may be supported by a top drive system or other tubular handling system. The support member 610 eliminates the need to completely remove and then replace the conventional (e.g. drill pipe) elevator to make up a riser string and then switch to a drilling operation.
The tool 600 further includes a plurality of dogs 675 that are supported within one or more openings 672 formed in the sleeve member 670 by backing members 673. The dogs 675 are also supported within one or more openings 637 formed in the base 635. The dogs 675 are movable radially inward by the sleeve member 670, and are biased radially outward by one or more biasing members, such as springs, disposed between the base 635 and the dogs 675.
The dogs 675 are movable between a radially retracted (inward) position and a radially extended (outward) position. The dogs 675 are in the radially extended position when the tool 600 is in the open position, and the dogs 675 are in the radially retracted position when the tool 600 is in closed position. The tool 600 may have any number of dogs 675 that are configured to engage a portion of the tubular 225, such as a riser string flange.
The tool 600 is shown in
To move the tool 600 back to the open position, the actuation member 650 is moved to the retracted position, which rotates the sleeve member 670 about the base 635 in an opposite direction, such as a counterclockwise direction. The sleeve member 670 is moved such that the openings 672 of the sleeve member 675 are brought back into position behind the dogs 675. The dogs 675 are biased radially outward into the openings 672 and into the radially extended position.
In one embodiment, the sleeve member 670 may include an angled slot (such as slot 115), and the dogs 675 may include a connection member (such as connection member 120) that is movable within the angled slot. Rotation of the sleeve member 670 in one direction may force the connection member along the angled slot to move the dogs 675 radially inward into engagement with the tubular 225. Rotation of the sleeve member 670 in the opposite direction may force the connection member back along the angled slot to move the dogs 675 radially outward away from engagement with the tubular 225.
The components of the tool 700 that are similar to the tool 600 include a base 735, openings 737 in the base 735, a guide member 755, actuation members 750, couplers 745, dogs 775, backing members 773, a sleeve member 770, and openings 772 in the sleeve member 770. A full description of these components will not be repeated herein for brevity. A difference between the tool 700 and the tool 600 is a pair of ears 705 coupled to the base 735 to support the tool 700 instead of the support member 610. Another difference is the sleeve member 770 being formed from two partially circular sections that are coupled together using connection members 771 to accommodate for the ears 705 being coupled to the outer circumference of the base 735.
The tool 800 has a sleeve member 870 that rotates about a base 835 to move one or more dogs 875 radially inward into a closed position to support the tubular member 225. The sleeve member 870 includes an upper gear track 871 disposed on top of the sleeve member 870, and a lower gear track 872 disposed on the bottom of the sleeve member 870. One or more actuation members 850, such as a motor, is coupled to the base 835 and includes a pinion 881 in engagement with the upper gear track 871 of the sleeve member 870. The actuation member 850 may rotate the sleeve member 870 about the circumference of the base 835.
The lower gear track 872 of the sleeve member 870 engages a pinion 891 of a drive member 890. The drive member 890 is coupled to the base 835 by a threaded engagement 892. Rotation of the sleeve member 870 (by the actuation member 850) rotates the pinion 891 and thus the drive member 890. Rotation of the drive member 890 moves the drive member 890 through the threaded engagement 892 to move the dogs 875 radially inward into engagement with the tubular 225. The drive member 890 may be coupled to the dogs 875 such that rotation of the sleeve member 870 in the clockwise and counterclockwise directions radially pushes and pulls the dogs 875 radially inward and outward. In one embodiment, the drive member 890 may be configured to move the dogs 875 in one radial direction, while one or more biasing members, such as springs, may be used to move the dogs 875 in the opposite radial direction.
The tool 900 includes support members 910A, 910B for supporting upper plate members 920A, 920B and lower plate members 930A, 930B. The tool 900 may be supported by bails via the eyelets in the support members 910A, 910B. The plate members 920A, 930A may be coupled together by connection members 940, such as bolts. The plate members 920A, 930A may be disposed through slots formed in the support member 910A, and may be spaced apart such that the flange of the tubular 225 may be positioned between the upper plate member 920A and the lower plate member 930A. The plate members 920B, 930B and the support member 910B may be arranged in a similar manner.
An actuation member 950, such as a piston/cylinder, may be coupled at opposite ends to the support members 910A, 910B. The actuation member 950 may pull and push the support members 910A, 910B and thus the plate members 920A, 930A and 920B, 930B toward and away from each other. To engage the flange of the tubular 225, the actuation member 950 may move to an extended position to move the support members 910A, 910B away from each other a sufficient distance to position the flange of the tubular 225 between the lower plate members 930A, 930B. When in position, the actuation member 950 may move to a retracted position to draw the support members 910A, 910B toward each other, such that the lower plate members 930A, 930B engage the bottom side of the flange of the tubular 225. The upper plate members 920A, 920B also may be drawn into engagement with each other above the flange of the tubular 225, such that connection members 925 may be inserted through aligned openings in the upper plate members 920A, 920B to secure the tool 900 in the closed position.
The components of the tool 1100 that are similar to the tools 600, 700 include ears 1105, a base 1135, openings 1137 in the base 1135, a guide member 1155, actuation members 1150, couplers 1145, dogs 1175, a sleeve member 1170, and a guide block 1180. A full description of these components will not be repeated herein for brevity. A difference between the tool 1100 and the tools 600, 700 is the sleeve member 1170 having one or more support members 1171 disposed about the circumference of the sleeve member 1170. The support members 1171 may be coupled to or formed integral with the sleeve member 1170. Each support member 1171 includes an angled slot 1115 formed along its length. The dogs 1175 are connected to the support members 1171 by a connection member 1120, such as a pin, that is movable within the slot 1115 to move the dogs 1175 radially inward and outward relative to the base 1135.
In
Rotation of the sleeve member 1170 in one direction (via retraction or extension of the actuation members 1150) moves the support members 1171 about the base 1135 and laterally relative to the dogs 1175. The support members 1171 move the connection members 1120 along the angled slots 1115 to move the dogs 1175 radially inward into engagement with the tubular 225. The dogs 1175 are supported by and move radially within the openings 1137 of the base 1135. Rotation of the sleeve member 1170 in the opposite direction (via retraction or extension of the actuation members 1150) moves the support members 1171 about the base 1135 and laterally relative to the dogs 1175. The support member 1171 moves the connection member 1120 back along the angled slot 1115 to move the dogs 1175 radially outward away from engagement with the tubular 225.
In one embodiment, a tool for use with a tubular comprises a base, a ring member, an actuation member configured to move the ring member relative to the base, and a clamp member rotationally attached to the base. The clamp member is configured to move between a radially retracted position and a radially extended position as the ring member moves relative to the base. The clamp member is coupled to the ring member by a pin that is movable within a slot formed in a coupling member. The pin is movable within the slot to move the clamp member between the radially retracted position and the radially extended position. The slot includes a substantially vertical section and a substantially angled section.
The clamp member is pivotally coupled to the base by a pin disposed through a support member that is coupled to the base. The ring member engages an end of the clamp member to move the clamp member between the radially retracted position and the radially extended position.
In one embodiment, a method of gripping a tubular comprises positioning a tool adjacent the tubular, the tool having a base, a ring member and a clamp member; moving the ring member relative to the base; and gripping the tubular by moving the clamp member into engagement with the tubular as a result of the movement of the ring member relative to the base.
The method further comprises moving the clamp member between a radially retracted position and a radially extended position as the ring member moves relative to the base. The clamp member is coupled to the ring member by a pin that is movable within a slot formed in a coupling member. The method further comprises moving the pin within the slot to move the clamp member between the radially retracted position and the radially extended position. The slot includes a substantially vertical section and a substantially angled section.
In one embodiment, a tool for use with a tubular comprises a base, a sleeve member, an actuation member configured to move the sleeve member relative to the base, and a dog member coupled to the base. The dog member is configured to move between a radially retracted position and a radially extended position as the sleeve member moves relative to the base. The sleeve member may be raised and lowered relative to the base by the actuation member to move the dog member between the radially extended position and the radially retracted position. The sleeve member may be rotated relative to the base by the actuation member to move the dog member between the radially retracted position and the radially extended position.
The dog member is disposed in an opening formed in the base. The dog member is movable into an opening formed in the sleeve member to the radially extended position. The dog member is moveable out of the opening formed in the sleeve member to the radially retracted position.
The sleeve member includes a support member coupled to or integral with the sleeve member, the support member having an angled slot formed therein. The dog member is coupled to the support member by a connection member that is movable within the angled slot. Rotation of the sleeve member relative to the base in one direction moves the connection member along the angled slot to move the dog member to the radially retracted position. Rotation of the sleeve member relative to the base in an opposite direction moves the connection member along the angled slot to move the dog member to the radially extended position. The actuation member engages a gear track of the sleeve member to rotate the sleeve member relative to the base. A drive member engages another gear track of the sleeve member to move the dog member between the radially extended position and the radially retracted position.
In one embodiment, a tool for use with a tubular comprises a pair of arms pivotably connected to each other, a pair of clamp members pivotably connected to the pair of arms, and an actuation member configured to force ends of the arms away from each other to move the pair of clamp members from a radially retracted position to a radially extended position.
In one embodiment, a tool for use with a tubular comprises a pair of support members, a pair of upper plate members coupled to the support members, a pair of lower plate members coupled to the support members, and an actuation member configured to force the support members toward and away from each other to move the pair of upper plate members into and out of engagement with each other, and to move the pair of lower plate members into and out of engagement with the tubular.
While the foregoing is directed to embodiments of the invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
This application is a divisional application of U.S. patent application Ser. No. 14/268,764, filed May 2, 2014 and entitled “TUBULAR HANDLING TOOL,” which claims benefit of U.S. Provisional Patent Application Ser. No. 61/818,871, filed May 2, 2013, and U.S. Provisional Patent Application Ser. No. 61/867,924, filed Aug. 20, 2013, which applications are herein incorporated by reference in their entirety.
Number | Date | Country | |
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61867924 | Aug 2013 | US | |
61818871 | May 2013 | US |
Number | Date | Country | |
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Parent | 14268764 | May 2014 | US |
Child | 15674848 | US |