[특허]Spring load seal assembly and well drilling equipment comprising same

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	E21B-003/02 E21B-003/00 E21B-033/02
출원번호	UP-0069130 (2008-02-07)
등록번호	US-7635034 (2010-01-08)
발명자 / 주소	Williams, John R. Williams, legal representative, Theresa J.
대리인 / 주소	Simmons, David O.
인용정보	피인용 횟수 : 32 인용 특허 : 36

초록 ▼

A top drive apparatus for a well drilling head comprises a top drive structure, a seal body and a plurality of resilient members. The top drive structure is configured for being fixedly attached to an upper end portion of a bearing assembly and having a seal-carrying portion. The seal body has a mou

A top drive apparatus for a well drilling head comprises a top drive structure, a seal body and a plurality of resilient members. The top drive structure is configured for being fixedly attached to an upper end portion of a bearing assembly and having a seal-carrying portion. The seal body has a mounting portion and a wiper portion extending from the mounting portion. The mounting portion is slideably disposed within a groove of the seal-carrying portion of the top drive structure. The plurality of resilient members are disposed within the groove between the mounting portion of the seal body and the top drive structure such that the entire seal body is resiliently displaceable with respect to the top drive structure.

대표청구항 ▼

What is claimed is: 1. A top drive apparatus for a rotating control device, comprising: a seal carrying structure configured for being fixedly attached to an upper end portion of an inner barrel of a bearing assembly, wherein the seal carrying structure includes a seal-carrying portion having a gro

What is claimed is: 1. A top drive apparatus for a rotating control device, comprising: a seal carrying structure configured for being fixedly attached to an upper end portion of an inner barrel of a bearing assembly, wherein the seal carrying structure includes a seal-carrying portion having a groove therein and wherein the groove extends through a bottom surface of the seal carrying structure; a seal body having a mounting portion and a wiper portion extending from the mounting portion, wherein the mounting portion is slideably disposed within the groove of the seal-carrying portion, wherein a stiffness characteristic of the seal body is such that application of force on the wiper portion thereof results in negligible deformation of the wiper portion and displacement of the entire seal body with respect to the groove; a plurality of resilient members within the groove between the mounting portion of the seal body and the seal carrying structure such that the entire seal body is resiliently displaceable with respect to the seal carrying structure with said resilient members biasing the seal body toward an at-rest position; a fastener extending through the mounting portion of the seal body and each one of the resilient members; and a sealing device provided between at least one side face of the groove and the mounting portion of the seal body for providing a sealing interface therebetween that is resistant to fluid, dirt, debris, contaminants, and the like, wherein a stiffness characteristic of the seal body is such that application of force on the wiper portion thereof results in negligible deformation of the wiper portion and displacement of the entire seal body with respect to the groove. 2. The top drive apparatus of claim 1 wherein each one of said resilient members is disposed between a floor of the groove and the mounting portion of the seal body in a partially compressed state. 3. The top drive apparatus of claim 1 wherein: each one of said resilient members is a helically-wound compression spring; and each one of said resilient members is disposed between a floor of the groove and the mounting portion of the seal body in a partially compressed state. 4. The top drive apparatus of claim 1 wherein: each one of said resilient members is a helically-wound compression spring; and each one of said resilient members is disposed between a floor of the groove and the mounting portion of the seal body in a partially compressed state. 5. The top drive apparatus of claim 4 wherein said resilient members are uniformly spaced around a centerline axis of the seal carrying structure. 6. The top drive apparatus of claim 1 wherein each one of said resilient members is disposed between a floor of the groove and the mounting portion of the seal body in a partially compressed state. 7. A seal apparatus for a rotating control device, comprising: a bearing assembly including an outer barrel configured for being removably seated within a central bore of a rotating control device housing, an inner barrel rotatably disposed within a central bore of the outer barrel, a top cover fixedly attached to an upper end portion of the outer barrel and a seal carrying structure fixedly attached to an upper end portion of the inner barrel, wherein a seal-carrying portion of the seal carrying structure overhangs a seal-engaging portion of the top cover and wherein the seal carrying structure is configured for being engaged by a kelly driver; a seal assembly disposed between the top cover and the seal carrying structure, wherein a seal body of the seal assembly is coupled to the seal-carrying portion of the seal carrying structure through a plurality of springs such that the entire seal body is resiliently displaceable with respect to the seal carrying structure, wherein the springs bias the seal body toward the top cover such that a wiper portion of the seal body is engaged with the seal-engaging portion of the top cover, wherein a stiffness characteristic of the seal body is such that application of force on the wiper portion thereof results in negligible deformation of the wiper portion and displacement of the entire seal body with respect to the seal carrying structure, wherein each one of said springs is disposed between the seal carrying structure and a mounting portion of the seal body in a partially compressed state; a sealing device provided between the seal carrying structure and the mounting portion of the seal body for providing a sealing interface therebetween that is resistant to fluid, dirt, debris, contaminants, and the like; and a fastener extending through the mounting portion of the seal body and each one of the springs. 8. A rotating control device configured for receiving a downhole drillstring during drilling of a well, comprising: a rotating control device housing having a sidewall structure defining a central bore; a bearing assembly removably seated within the central bore of the rotating control device housing, wherein the bearing assembly includes an outer barrel, an inner barrel rotatably disposed within a central bore of the outer barrel, a top cover fixedly attached to an upper end portion of the outer barrel and a seal carrying structure fixedly attached to an upper end portion of the inner barrel, wherein a seal-carrying portion of the seal carrying structure overhangs a seal-engaging portion of the top cover; a seal assembly disposed between the top cover and the seal carrying structure, wherein a seal body of the seal assembly is coupled to the seal-carrying portion of the seal carrying structure through a plurality of springs such that the entire seal body is resiliently displaceable with respect to the seal carrying structure, wherein the springs bias the seal body toward the top cover such that a wiper portion of the seal body is engaged with the seal-engaging portion of the top cover, wherein a stiffness characteristic of the seal body is such that application of force on the wiper portion thereof results in negligible deformation of the wiper portion and displacement of the entire seal body with respect to the seal carrying structure, and wherein each one of said springs is disposed between the seal carrying structure and a mounting portion of the seal body in a partially compressed state; a sealing device provided between the seal carrying structure and the mounting portion of the seal body for providing a sealing interface therebetween that is resistant to fluid, dirt, debris, contaminants, and the like; and a fastener extending through the mounting portion of the seal body and each one of the springs.

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이 특허에 인용된 특허 (36) 인용/피인용 타임라인 분석

Bloch Joseph T. (Seattle WA), Clamping device utilizing a shape memory alloy.
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Garrett William R. (Conroe TX), Drilling head.
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Garrett William R. (Conroe TX), Drilling head.
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Garrett William R. (Conroe TX), Drilling head.
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Young David E. (Friendswood TX), Drilling head.
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Young David E. (Houston TX), Drilling head.
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Barton Sterling C. (Scotia NY), Dynamoelectric machine shaft seal.
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Looper, Patrick M., Erosion resistent drilling head assembly.
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Roche Joseph R. (Humble TX) Clark William L. (Houston TX), Flow diverter seal with respective oblong and circular openings.
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Hailey Charles D. (11628 Burning Oaks Rd. Oklahoma City OK 73150), Fluid injection apparatus and method used between a blowout preventer and a choke manifold.
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Biffle Morris S. (2609 Country Club Dr. Midland TX 79701), Head for a rotating blowout preventor.
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Murray Edwin G. (4208 Waverly Odessa TX 79762) Murray Donnie L. (4207 Lynnbrook Odessa TX 79762), Heavy duty rotating blowout preventor.
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Bailey Thomas F. (Houston TX) Campbell John E. (Houston TX), Hydraulic clamp for rotary drilling head.
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Bourgoyne,Darryl A.; Hannegan,Don M.; Bailey,Thomas F.; Chambers,James W.; Wilson,Timothy L., Internal riser rotating control head.
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Smith ; III Robert E., Locking device for undersea hydraulic coupling.
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Bunting Alison R. (Houston TX), Lubricant cooled rotary drill head seal.
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Mosing,Donald E.; Hawkins, III,Samuel P.; Sipos,David L.; Lutgring,Keith T.; Latiolais, Jr.,Burney J., Method and multi-purpose apparatus for dispensing and circulating fluid in wellbore casing.
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Bailey Thomas F. (Houston TX) Moeller Larry F. (Houston TX) Campbell John E. (Houston TX), Pressure balanced inner chamber of a drilling head.
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Bailey Edmond I. (Houston TX), Rotary drilling head.
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Hunter Joseph M. (25 Mobile Manor ; Getty Ave. Indiana PA 15701), Rotary drilling head.
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Morrow John T. (Spring TX), Rotating blowout preventer.
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Williams John R. (3816 Spring Mountain Rd. Ft. Smith AK 72901) Williams Vinson D. (Rte. 4 box 391 Muldrow OK 74948), Rotating blowout preventer.
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Lewis ; George E., Rotating blowout preventer apparatus.
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Jones Marvin R. (Houston TX), Rotating blowout preventers.
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Davis Kenneth (P.O. Box 1277 Ruidoso NM 88345), Rotating blowout preventor for drilling rig.
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Murray Edwin G. (Odessa TX), Rotating blowout preventor with adaptor.
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Biffle Morris S. (800 W. Front Midland TX 79701), Rotating blowout preventor with index kelly drive bushing and stripper rubber.
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Martin Marshall,Peter Stewart, Rotating diverter head.
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Klee Gerhard (Fuchshohl 102 D6000 Frankfurt/Main DEX) Gerk Wilfried (Amselstr. 10 D6074 Roedermark DEX) Jeschke Norbert (Breslauerstr 3 D6057 Dietzenbach-Hexenberg DEX), Rotating drilling head.
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Hall Douglas D. ; Helfer Paul E., Rotating drilling head with spaced apart seals.
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Pruitt, Alfred B., Rotating head for air, gas and mud drilling.
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Peterman Charles P. ; Pelata Kenneth L. ; Colvin Kenneth W. ; Tangedahl Michael J. ; Bailey Andyle G., Rotating subsea diverter.
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Johnston Vaughn R. (Washington PA), Stripper packer.
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West,Neil Edward; de Jong,Bastiaan, Top drive oil flow path seals.
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Kurita Seiichi (Takahagi JA) Nakayama Toru (Hitachi JA) Okano Kinpei (Hitachi JA) Watahiki Seishi (Hitachi JA), Vertical type antifriction bearing device.
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Folk,Robert Alden; Folk,Steven Lorne, Wellbore top drive systems.
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Wenzel, Kenneth H., Bearing assembly.
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Wenzel, Kenneth H., Bearing assembly for use in earth drilling.
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Williams, John R.; Williams, legal representative, Theresa J., Bearing assembly inner barrel and well drilling equipment comprising same.
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Williams, John R., Bearing assembly system with integral lubricant distribution and well drilling equipment comprising same.
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Shaw, Edward E., Devices and methods for in situ fenestration of a stent-graft at the site of a branch vessel.
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Hoyer, Carel W.; Hannegan, Don M.; Bailey, Thomas F.; Jacobs, Melvin T.; White, Nicky A., Drilling with a high pressure rotating control device.
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Sokol, Jonathan P.; Wagoner, Danny W.; Bailey, Thomas F.; Rios, III, Aristeo; Chambers, James W.; Hannegan, Don M., Interlocking low profile rotating control device.
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Gray, Kevin L.; Bailey, Thomas F.; Chambers, James W.; Sokol, Jonathan P.; White, Nicky A., Latch position indicator system and method.
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Gray, Kevin L.; Bailey, Thomas F.; Chambers, James W.; Sokol, Jonathan P.; White, Nicky A., Latch position indicator system and method.
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Bailey, Thomas F.; Chambers, James W., Leak detection method for a rotating control head bearing assembly and its latch assembly using a comparator.
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Bailey, Thomas F; Chambers, James W.; Hannegan, Don M.; Woodruff, David R., Low profile rotating control device.
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Bailey, Thomas F.; Chambers, James W.; Hannegan, Don M.; Gravouia, Mark F., Method for cooling a rotating control device.
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[미국특허] Spring load seal assembly and well drilling equipment comprising same 원문보기

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