Robotic manipulators for subsea, topside, and onshore operations
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-033/035
E21B-041/04
E21B-033/076
출원번호
US-0190172
(2016-06-22)
등록번호
US-9840886
(2017-12-12)
발명자
/ 주소
Gable, Brent David
Rubio, Andrea Paulina
Grauer, Diana Kathryn
출원인 / 주소
ONESUBSEA IP UK LIMITED
대리인 / 주소
Eubanks PLLC
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
An apparatus including a robotic manipulator coupled to an oilfield device to facilitate support operations. The robotic manipulator can include a tool for interacting with components of the oilfield device, and the robotic manipulator can provide three translational degrees of freedom of the tool w
An apparatus including a robotic manipulator coupled to an oilfield device to facilitate support operations. The robotic manipulator can include a tool for interacting with components of the oilfield device, and the robotic manipulator can provide three translational degrees of freedom of the tool with respect to the oilfield device. Additional systems, devices, and methods are also disclosed.
대표청구항▼
1. An apparatus comprising: an oilfield device configured to be installed at a fixed location as part of a subsea production system;a robotic manipulator fixedly mounted on the oilfield device, the robotic manipulator having a tool for interacting with components of the oilfield device, wherein the
1. An apparatus comprising: an oilfield device configured to be installed at a fixed location as part of a subsea production system;a robotic manipulator fixedly mounted on the oilfield device, the robotic manipulator having a tool for interacting with components of the oilfield device, wherein the robotic manipulator provides three translational degrees of freedom of the tool with respect to the oilfield device, the tool is a removable tool configured to be detached from the robotic manipulator, and the tool is one of a plurality of interchangeable tools configured to be installed on the robotic manipulator; anda tool box for holding multiple tools of the plurality of interchangeable tools, wherein the tool box is mounted at a location accessible by the robotic manipulator so as to facilitate interchanging of the tool on the robotic manipulator with one of the multiple tools that is held by the tool box, the tool box includes individual slots for holding the multiple tools of the plurality of interchangeable tools, and the individual slots include an empty individual slot for receiving the tool on the robotic manipulator to facilitate interchanging of the tool on the robotic manipulator with one of the multiple tools that is held by the tool box. 2. The apparatus of claim 1, wherein the robotic manipulator includes an articulated arm mounted on the oilfield device. 3. The apparatus of claim 2, wherein the articulated arm includes a proximal end mounted on the oilfield device and a distal end having the tool. 4. The apparatus of claim 1, wherein the tool box is provided on the robotic manipulator. 5. The apparatus of claim 1, wherein the tool box is provided on the oilfield device. 6. The apparatus of claim 1, wherein the tool includes a gripping tool or a torque tool. 7. The apparatus of claim 1, wherein the oilfield device includes a subsea manifold, a tree, a blowout preventer, or a pump. 8. An apparatus comprising: a subsea manifold configured to be installed as part of a subsea production system; anda robotic arm fixedly mounted on the subsea manifold, wherein the robotic arm includes an articulated arm having a head with one or more tools for interacting with components of the subsea manifold, wherein the robotic arm is coupled to the subsea manifold via a mounting base of the robotic arm that enables electrical power and data to be provided to the robotic arm from the subsea manifold through the mounting base. 9. The apparatus of claim 8, wherein the robotic arm is a retrievable arm that can be disconnected and separately retrieved from the subsea manifold while the subsea manifold is installed on a seabed. 10. The apparatus of claim 8, wherein the robotic arm includes a camera that enables visual inspection of the subsea manifold via the robotic arm. 11. A method comprising: moving a robotic arm that includes a tool and is fixedly mounted on an installed oilfield device of a subsea production system so as to move the tool with respect to the installed oilfield device; andoperating the robotic arm to perform a support operation for the installed oilfield device;wherein operating the robotic arm to perform a support operation for the installed oilfield device includes operating the robotic arm to actuate a valve of the installed oilfield device, moving the robotic arm so as to move the tool with respect to the installed oilfield device includes moving the robotic arm to position the tool alongside an actuator of the valve, and operating the robotic arm to actuate the valve of the installed oilfield device includes operating the tool to actuate the valve via the actuator;the method further comprising: using the robotic arm to remove a debris cover, with an additional tool of the robotic arm, from the installed oilfield device to expose the actuator of the valve; andusing the robotic arm to replace the debris cover, with the additional tool of the robotic arm, following actuation of the valve by the robotic arm. 12. The method of claim 11, wherein operating the robotic arm to perform a support operation for the installed oilfield device includes operating the robotic arm to facilitate installation of a component in the installed oilfield device or retrieval of the component from the installed oilfield device. 13. The method of claim 12, wherein operating the robotic arm to facilitate installation or retrieval of the component includes operating the robotic arm to align the component with the installed oilfield device, to move the component into engagement with the installed oilfield device, and to connect one or more leads between the component and the installed oilfield device. 14. The method of claim 11, comprising disconnecting the tool from the robotic arm and replacing the tool with the additional tool. 15. The method of claim 14, wherein disconnecting the tool from the robotic arm and replacing the tool with the additional tool includes: moving the robotic arm so as to insert the tool into a tool box having the additional tool;disconnecting the tool from the robotic arm while the tool is received in the tool box; andmoving the robotic arm away from the tool and into engagement with the additional tool so as to receive the additional tool on the robotic arm in place of the tool disconnected from the robotic arm and received in the tool box. 16. An apparatus comprising: a subsea production system including oilfield devices installed along a seabed, the oilfield devices including: a plurality of trees coupled to subsea wellheads;a subsea manifold connected in fluid communication with the plurality of trees, the subsea manifold including valves to control flow of produced hydrocarbons or other fluids from the plurality of trees through the subsea manifold; anda pumping station connected in fluid communication with the subsea manifold;wherein the subsea production system also includes a robotic arm fixedly mounted on the subsea manifold, the robotic arm includes an articulated arm having a head with a tool for actuating the valves of the subsea manifold to control flow of the produced hydrocarbons or the other fluids from the plurality of trees through the subsea manifold, the robotic arm is coupled to the subsea manifold via a mounting base of the robotic arm that enables electrical power and data to be provided to the robotic arm from the subsea manifold through the mounting base, the tool is one of a plurality of interchangeable tools, and an additional tool of the plurality of interchangeable tools is held by a tool box mounted at a location accessible by the robotic arm so as to facilitate interchanging of the tool and the additional tool on the robotic arm. 17. The apparatus of claim 16, wherein an additional robotic arm is installed on the pumping station or on a tree of the plurality of trees to enable the additional robotic arm to perform support operations for the pumping station or the tree.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (16)
Svenning Bjornar (Trondheim NOX), Apparatus for carrying out operations under water.
Davis, Donald R.; Radford, Nicolaus A.; Permenter, Frank Noble; Valvo, Michael C.; Askew, R. Scott, Integrated high-speed torque control system for a robotic joint.
Pogonowski Ivo C. (Blacksburg VA) Carmichael Paul D. (Houston TX), Method and subsurface work chamber for making transparent an underwater cloudy work area.
Vielmo Paolo (Padova ITX) Brighenti Attilio (Venice ITX), Process and device for the precision positioning of bodies on fixed structures under high depth waters.
Innes, Ronald W.; Teeuwsen, Daniel P.; Elford, Dustyn J. L.; Hackett, John T.; Gurnett, Mark; Nguyen, Tan N.; Grass, Donald B., Remotely operable underwater drilling system and drilling method.
Ihrke, Chris A.; Mehling, Joshua S.; Parsons, Adam H.; Griffith, Bryan Kristian; Radford, Nicolaus A.; Permenter, Frank Noble; Davis, Donald R.; Ambrose, Robert O.; Junkin, Lucien Q., Rotary series elastic actuator.
Provencher, Luc; Gendron, Stéphan; Morin, René; Blain, Michel, Submersible robot for operating a tool relative to a surface of an underwater structure.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.