A gripper mechanism for downhole tool is disclosed that includes a linkage mechanism and a flexible toe disposed over the linkage mechanism. In operation, an axial force generated by a power section of the gripper expands the linkage mechanism, which applies a radial expansion force to the flexible
A gripper mechanism for downhole tool is disclosed that includes a linkage mechanism and a flexible toe disposed over the linkage mechanism. In operation, an axial force generated by a power section of the gripper expands the linkage mechanism, which applies a radial expansion force to the flexible toe. For certain expansion diameters, the expansion force can be primarily transmitted to the toe from a roller-ramp interface expanding the linkage. For other expansion diameters, the expansion force can be primarily transmitted to the toe by expansion of the linkage in a three-bar linkage configuration. For other expansion diameters, the expansion force can be primarily transmitted to the toe by expansion of the linkage in a four-bar linkage configuration. Thus, the gripper can provide a desired expansion force over a large range of expansion diameters.
대표청구항▼
What is claimed is: 1. A gripper assembly comprising an elongate body having a length along a first axis; a linkage configured to be radially expanded between a retracted position and an expanded position relative to the elongate body, the linkage comprising a first link having a first end and a se
What is claimed is: 1. A gripper assembly comprising an elongate body having a length along a first axis; a linkage configured to be radially expanded between a retracted position and an expanded position relative to the elongate body, the linkage comprising a first link having a first end and a second end, and a second link having a first end and a second end, said second end of the first link coupled to the first end of the second link, the first end of the first link slidable with respect to the elongate body, one of the first end of the first link and the second end of the second link forming a base angle relative to the first axis; and an expansion surface slidable with respect to the elongate body; wherein for a first expansion range from a first position to a second position, movement of the first end of the first link relative to the second end of the second link radially expands the linkage, and for a second expansion range a rate of change in the base angle is reduced as the linkage radially expands; and wherein for a third expansion range between the retracted position and the first position, the expansion surface bears on the linkage to radially expand the linkage. 2. The gripper assembly of claim 1, wherein the rate of change in the base angle is reduced through outward radial movement of the second end of the second link. 3. The gripper assembly of claim 1, further comprising a gripper, the gripper defined by a flexible continuous beam coupled to the elongate body; the continuous beam being disposed over the linkage such that expansion of the linkage bows the continuous beam radially outward from the elongate body. 4. The gripper assembly of claim 1, further comprising a power section configured to generate a force generally aligned with a length of the gripper assembly to radially expand the linkage. 5. The gripper assembly of claim 1, wherein the linkage further comprises a third link rotatably connected in series with the first link and the second link. 6. A gripper assembly comprising an elongate body having a length along a first axis; a power section configured to exert a force along the first axis, the power section having a stroke length; an expansion surface slidably with respect to the elongate body; a linkage configured to be radially expanded between a retracted position and an expanded position relative to the elongate body, the linkage comprising a first link having a first end and a second end, and a second link coupled to the second end of the first link, the first end of the first link slidably mounted to the elongate body and movable responsive to application of the force by the power section; wherein for a first expansion range from a first position to a second position, movement of the first end of the first link relative to the second link of the linkage radially expands the linkage, and for a second expansion range, the expansion surface bears on the linkage to radially expand the linkage; and wherein the linkage has a diametric expansion defined by a difference between a diameter of the gripper assembly with the linkage in the expanded position and the diameter of the gripper assembly with the linkage in the retracted position, and wherein a ratio of the stroke length to the diametric expansion of the linkage is approximately 3.1/5. 7. The gripper assembly of claim 6, further comprising a gripper, the gripper defined by a flexible continuous beam coupled to the elongate body; the continuous beam being disposed over the linkage such that expansion of the linkage bows the continuous beam radially outward from the elongate body. 8. The gripper assembly of claim 6, wherein for a third expansion range between the retracted position and the first position, the expansion surface bears on the linkage to radially expand the linkage. 9. The gripper assembly of claim 6, wherein the power section comprises a first interfering surface and a second interfering surface, wherein interference of the first interfering surface with the second interfering surface defines a stroke limit of the power section. 10. A gripper assembly comprising an elongate body having a length; a linkage configured to be radially expanded, the linkage acting as a three-bar linkage over a first radial expansion range and as a four-bar linkage over a second radial expansion range; and a power section configured to generate a force generally aligned with a length of the gripper assembly to radially expand the linkage wherein the linkage has an amount of greatest radial expansion over the first expansion range and the linkage has an amount of greatest radial expansion over the second expansion range and wherein the amount of greatest radial expansion over the second expansion range is greater than the amount of greatest radial expansion over the first expansion range. 11. The gripper assembly of claim 10, wherein the power section comprises a first interfering surface and a second interfering surface, wherein interference of the first interfering surface with the second interfering surface defines a stroke limit of the power section. 12. The gripper assembly of claim 10, wherein the power section has a stroke length, wherein the linkage is expandable between a retracted position and an expanded position, the linkage has a diametric expansion defined by a difference between a diameter of the gripper assembly with the linkage in the expanded position and the diameter of the gripper assembly with the linkage in the retracted position, and wherein a ratio of the stroke length to the diametric expansion of the linkage is approximately 3.1/5. 13. A gripper assembly comprising an elongate body having a length; a linkage configured to be radially expanded, the linkage acting as a three-bar linkage over a first radial expansion range and as a four-bar linkage over a second radial expansion range, the linkage comprising a push link, a toe link, and a support link rotatably connected in series; a first roller assembly near the coupling of the push link to the toe link; a second roller assembly near the coupling of the toe link to the support link; an operating sleeve configured to be advanced axially along the length of the assembly, the operating sleeve comprising a ramp configured to contact at least one of the first roller assembly and the second roller assembly. 14. The gripper assembly of claim 13, further comprising a gripper, the gripper defined by a flexible continuous beam coupled to the elongate body; the continuous beam being disposed over the linkage such that expansion of the linkage bows the continuous beam radially outward from the elongate body. 15. The gripper assembly of claim 13, wherein the operating sleeve further comprises a retention member configured to substantially prevent movement of the support link radially away from the elongate body for a portion of an expansion cycle of the link mechanism. 16. A gripper assembly comprising an elongate body having a length along a first axis; an expansion surface slidably mounted on the elongate body; a linkage configured to be radially expanded between a retracted position and an expanded position relative to the elongate body, the linkage having a first end and a second end, the first end of the linkage slidably mounted to the elongate body and movable responsive to application of a longitudinal force; wherein for a first expansion range from a first position to a second position, movement of the first end of the linkage relative to the second end of the linkage radially expands the linkage, and for a second expansion range, the expansion surface bears on the linkage to radially expand the linkage. 17. The gripper assembly of claim 16, wherein for a third expansion range from the retracted position to the first position, the expansion surface bears on the linkage to radially expand the linkage. 18. The gripper assembly of claim 16, further comprising a power section configured to generate a force generally along the first axis to expand the linkage. 19. The gripper assembly of claim 16, further comprising a continuous beam connected to the elongate body, the continuous beam defining a gripping surface. 20. The gripper assembly of claim 16, wherein the expansion surface comprises a ramp. 21. The gripper assembly of claim 20, wherein the linkage comprises at least one roller configured to interface with the ramp. 22. The gripper assembly of claim 21, wherein the linkage comprises: a first link, a second link, and a third link rotatably connected in series, a first roller at the connection of the first link to the second link and configured to bear on the ramp for the third expansion range; and a second roller at the connection of the second link to the third link and configured to bear on the ramp for the second expansion range. 23. A gripper assembly comprising an elongate body having a length along a first axis; a linkage comprising a first link and a second link pivotably interconnected in series and expandable relative to the elongate body from a retracted position to an expanded position; wherein the first link has a first end coupled to the elongate body and a second end pivotally coupled to the second link; wherein the second link has a first end pivotally coupled to the first link and a second end that is radially extendable from the elongate body; and wherein for a first expansion range of the linkage, rotation of the first and second link relative to one another radially expands the linkage, and for a second expansion range of the linkage mechanism outward radial movement of the second end of the second link radially expands the linkage; and a flexible continuous beam connected to the elongate body and configured to be radially expanded with respect to the body by expansion of the linkage. 24. A gripper assembly comprising an elongate body having a length along a first axis; a linkage comprising a first link and a second link pivotably interconnected in series and expandable relative to the elongate body from a retracted position to an expanded position; wherein the first link has a first end coupled to the elongate body and a second end pivotally coupled to the second link; wherein the second link has a first end pivotally coupled to the first link and a second end that is radially extendable from the elongate body; and wherein for a first expansion range of the linkage, rotation of the first and second link relative to one another radially expands the linkage, and for a second expansion range of the linkage mechanism outward radial movement of the second end of the second link radially expands the linkage; and wherein longitudinal movement of an expansion surface with respect to the elongate body moves the second end of the second link radially outward. 25. The gripper assembly of claim 24, further comprising a power section configured to generate a force generally along the first axis. 26. The gripper assembly of claim 24, wherein the linkage further comprises a third link rotatably coupled to the second end of the second link, and wherein the expansion surface bears on the coupling of the second link to the third link. 27. The gripper assembly of claim 26, wherein the expansion surface comprises a ramp and the coupling of the second link to the third link comprises a roller. 28. The gripper assembly of claim 27, further comprising a roller restraint configured to substantially prevent movement of the roller coupling the second link and the third link radially away from the elongate body for a portion of an expansion cycle of the linkage. 29. The gripper assembly of claim 26, further comprising a third link restraint configured to substantially prevent movement of the third link radially away from the elongate body for a portion of an expansion cycle of the linkage. 30. A method for imparting a force to a passage, comprising: positioning a force applicator in the passage, the force applicator comprising an expandable assembly comprising an elongate body and a first link having a first end coupled to the elongate body and a second end opposite the first end, and a second link having a first end coupled to the second end of the first link and a second end coupled to the elongate body; generating a radial expansion force over a first expansion range by buckling the first and second links with respect to the elongate body; generating a radial expansion force over a second expansion range by moving the second end of the second link radially outward with respect to the elongate body; wherein the force applicator comprises an expansion surface longitudinally slidable with respect to the body and wherein generating a radial expansion force over a second expansion range comprises sliding the expansion surface along the body to move the second end of the second link radially outward. 31. The method of claim 30, wherein the force applicator further comprises a flexible continuous beam coupled to the body and configured to be radially expanded relative to the body and generating a radial expansion force over a first expansion range further comprises radially expanding the continuous beam and generating a radial expansion force over a second expansion range further comprises radially expanding the continuous beam.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (104)
Cendre Andr (Cosne sur Loire FRX) Fay Jean-Baptiste (Paris FRX) Amaudric du Chaffaut Benoit (Voisins le Bretonneux FRX), Actuating device associated with a drill string and comprising a hydrostatic drilling fluid circuit, actuation method an.
de Guzman,Neil; Lafferty,Lawrence; Lafferty,Chad; Steinman,Donald K., Apparatus and method for an autonomous robotic system for performing activities in a well.
Chevallier Sebastien Arnaud,NLX ; Faure Alban Michel,NLX ; Oosterling Peter,NLX, Apparatus for providing a thrust force to an elongate body in a borehole.
Landsberger Samuel E. (Ithaca NY) Sundra Raj (Bedford MA) Short David B. (Fair Oaks CA) Martin Benjamin F. (Ithaca NY), Cable crawling underwater inspection and cleaning robot.
Williams Jerry G. (Ponca City OK) Monib Monib M. (Newark DE) Salama Mamdouh M. (Ponca City OK) Schwartz David H. (Katy TX) Dew Edward G. (The Woodlands TX), Downhole fluid motor composite torque shaft.
de Buda Eric G. (55 Humberview Rd. Toronto ; Ontario CAX M6S 1W7) Boon John R. (431 Satok Crescent Milton ; Ontario CAX L9T 3P2) Dolbey Michael P. (5 Glen Robert Dr. Toronto ; Ontario CAX M4B 1J4), Pneumatically operated pipe crawler.
Graham Gordon A. (28 Tuscan Street Rossmoyne W.A. 6155 AUX) Pasznicki William V. (5 Pavetta Crescent Forrestfield W.A. 6058 AUX) Connell William F. (Lot 186 Old Northam Road Chidlow W.A. 6556 AUX) Pr, Self-propelled apparatus.
Baiden Gregory R.,CAX ; Young Donald D.,CAX ; Delabbio Fredric C.,CAX ; Pascoli Jean P.,CAX ; de Vlugt Paul,CAX, Tractor for remote movement and pressurization of a rock drill.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.