RF antenna assembly with dielectric isolator and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-043/00
E21B-036/00
E21B-043/24
E21B-047/12
E21B-036/04
출원번호
US-0804119
(2013-03-14)
등록번호
US-9322256
(2016-04-26)
발명자
/ 주소
Wright, Brian
Hann, Murray
Hewit, Raymond
Hibner, Verlin
출원인 / 주소
HARRIS CORPORATION
대리인 / 주소
Allen, Dyer, Doppelt, Milbrath & Gilchrist, P.A. Attorneys at Law
인용정보
피인용 횟수 :
1인용 특허 :
36
초록▼
An RF antenna assembly is positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery. The RF antenna assembly includes first and second tubular conductors and a dielectric isolator therebetween. The dielectric isolator includes a dielectric tube having opposing first
An RF antenna assembly is positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery. The RF antenna assembly includes first and second tubular conductors and a dielectric isolator therebetween. The dielectric isolator includes a dielectric tube having opposing first and second open ends, a first tubular connector having a first slotted recess receiving therein the first open end of the dielectric tube, and a second tubular connector having a second slotted recess receiving therein the second open end of the dielectric tube.
대표청구항▼
1. A radio frequency (RF) antenna assembly configured to be positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery, the RF antenna assembly comprising: first and second tubular conductors and a dielectric isolator therebetween;said dielectric isolator comprising a
1. A radio frequency (RF) antenna assembly configured to be positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery, the RF antenna assembly comprising: first and second tubular conductors and a dielectric isolator therebetween;said dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of said dielectric tube,a second tubular connector comprising a second slotted recess receiving therein the second open end of said dielectric tube, andadhesive securing said first and second tubular connectors to the respective first and second open ends. 2. The RF antenna assembly of claim 1 wherein said dielectric tube has a first plurality of passageways therein adjacent the first open end and through the first slotted recess, and a second plurality of passageways therein adjacent the second open end and through the second slotted recess. 3. The RF antenna assembly of claim 2 wherein said first tubular connector has a first plurality of blind openings therein aligned with the first plurality of passageways; and wherein said second tubular connector has a second plurality of blind openings therein aligned with the second plurality of passageways. 4. The RF antenna assembly of claim 3 further comprising a first plurality of pins extending through said first pluralities of passageways and blind openings, and a second plurality of pins extending through said second pluralities of passageways and blind openings. 5. The RF antenna assembly of claim 1 wherein said first tubular connector has a first threaded surface for engaging an opposing threaded end of said first tubular conductor; and wherein second tubular connector has a second threaded surface for engaging an opposing threaded end of said second tubular conductor. 6. The RF antenna assembly of claim 1 wherein said first tubular connector has a first plurality of tool-receiving recesses on a first outer surface thereof; and wherein said second tubular connector has a second plurality of tool-receiving recesses on a second outer surface thereof. 7. The RF antenna assembly of claim 1 wherein said dielectric tube comprises cyanate ester composite material. 8. The RF antenna assembly of claim 1 wherein said dielectric isolator further comprises at least one inner conductor extending within said dielectric tube. 9. A radio frequency (RF) antenna assembly configured to be positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery, the RF antenna assembly comprising: first and second tubular conductors and a dielectric isolator therebetween;said dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of said dielectric tube,a second tubular connector comprising a second slotted recess receiving therein the second open end of said dielectric tube,said dielectric tube having a first plurality of passageways therein adjacent the first open end and through the first slotted recess, and a second plurality of passageways therein adjacent the second open end and through the second slotted recess,said first tubular connector having a first plurality of blind openings therein aligned with the first plurality of passageways,said second tubular connector having a second plurality of blind openings therein aligned with the second plurality of passageways, andadhesive material extending through said first pluralities of passageways and blind openings, and said second pluralities of passageways and blind openings. 10. The RF antenna assembly of claim 9 further comprising a first plurality of pins in said adhesive material and extending through said first pluralities of passageways and blind openings, and a second plurality of pins in said adhesive material and extending through said second pluralities of passageways and blind openings. 11. The RF antenna assembly of claim 9 further comprising additional adhesive securing said first and second tubular connectors to the respective first and second open ends. 12. The RF antenna assembly of claim 9 wherein said first tubular connector has a first threaded surface for engaging an opposing threaded end of said first tubular conductor; and wherein second tubular connector has a second threaded surface for engaging an opposing threaded end of said second tubular conductor. 13. The RF antenna assembly of claim 9 wherein said first tubular connector has a first plurality of tool-receiving recesses on a first outer surface thereof; and wherein said second tubular connector has a second plurality of tool-receiving recesses on a second outer surface thereof. 14. A method of assembling a radio frequency (RF) antenna assembly within a wellbore in a subterranean formation for hydrocarbon resource recovery, the method comprising: coupling first and second tubular conductors and a dielectric isolator therebetween, the dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of the dielectric tube, anda second tubular connector comprising a second slotted recess receiving therein the second open end of the dielectric tube; andsecuring with adhesive the first and second tubular connectors to the respective first and second open ends. 15. The method of claim 14 further comprising forming a first plurality of passageways in the dielectric tube adjacent the first open end and through the first slotted recess, and forming a second plurality of passageways in the dielectric tube adjacent the second open end and through the second slotted recess. 16. The method of claim 15 further comprising: aligning a first plurality of blind openings in the first tubular connector with the first plurality of passageways; andaligning a second plurality of blind openings in the second tubular connector with the second plurality of passageways. 17. The method of claim 16 further comprising: positioning a first plurality of pins extending through the first pluralities of passageways and blind openings; andpositioning a second plurality of pins extending through the second pluralities of passageways and blind openings. 18. The method of claim 14 further comprising: engaging a first threaded surface of the first tubular connector with an opposing threaded end of the first tubular conductor; andengaging a second threaded surface of the second tubular connector with an opposing threaded end of the second tubular conductor. 19. The method of claim 14 further comprising positioning at least one inner conductor extending within the dielectric tube. 20. A method of assembling a radio frequency (RF) antenna assembly within a wellbore in a subterranean formation for hydrocarbon resource recovery, the method comprising: coupling first and second tubular conductors and a dielectric isolator therebetween, the dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of the dielectric tube, anda second tubular connector comprising a second slotted recess receiving therein the second open end of the dielectric tube;forming a first plurality of passageways in the dielectric tube adjacent the first open end and through the first slotted recess, and forming a second plurality of passageways in the dielectric tube adjacent the second open end and through the second slotted recess;aligning a first plurality of blind openings in the first tubular connector with the first plurality of passageways;aligning a second plurality of blind openings in the second tubular connector with the second plurality of passageways; andforming adhesive material extending through the first pluralities of passageways and blind openings, and the second pluralities of passageways and blind openings. 21. The method of claim 20 further comprising: positioning a first plurality of pins in the adhesive material and extending through the first pluralities of passageways and blind openings; andpositioning a second plurality of pins in the adhesive material and extending through the second pluralities of passageways and blind openings. 22. The method of claim 20 further comprising: engaging a first threaded surface of the first tubular connector with an opposing threaded end of the first tubular conductor; andengaging a second threaded surface of the second tubular connector with an opposing threaded end of the second tubular conductor. 23. A radio frequency (RF) antenna assembly configured to be positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery, the RF antenna assembly comprising: first and second tubular conductors and a dielectric isolator therebetween;said dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of said dielectric tube,a second tubular connector comprising a second slotted recess receiving therein the second open end of said dielectric tube,said dielectric tube having a first plurality of passageways therein adjacent the first open end and through the first slotted recess, and a second plurality of passageways therein adjacent the second open end and through the second slotted recess,said first tubular connector having a first plurality of blind openings therein aligned with the first plurality of passageways,said second tubular connector has a second plurality of blind openings therein aligned with the second plurality of passageways, anda first plurality of pins extending through said first pluralities of passageways and blind openings, and a second plurality of pins extending through said second pluralities of passageways and blind openings,each first and second pin defining an axial passageway. 24. The RF antenna assembly of claim 23 wherein said first tubular connector has a first threaded surface for engaging an opposing threaded end of said first tubular conductor; and wherein second tubular connector has a second threaded surface for engaging an opposing threaded end of said second tubular conductor. 25. The RF antenna assembly of claim 23 wherein said first tubular connector has a first plurality of tool-receiving recesses on a first outer surface thereof; and wherein said second tubular connector has a second plurality of tool-receiving recesses on a second outer surface thereof. 26. A method of assembling a radio frequency (RF) antenna assembly within a wellbore in a subterranean formation for hydrocarbon resource recovery, the method comprising: coupling first and second tubular conductors and a dielectric isolator therebetween, the dielectric isolator comprising a dielectric tube having opposing first and second open ends,a first tubular connector comprising a first slotted recess receiving therein the first open end of the dielectric tube, anda second tubular connector comprising a second slotted recess receiving therein the second open end of the dielectric tube;forming a first plurality of passageways in the dielectric tube adjacent the first open end and through the first slotted recess, and forming a second plurality of passageways in the dielectric tube adjacent the second open end and through the second slotted recess;aligning a first plurality of blind openings in the first tubular connector with the first plurality of passageways;aligning a second plurality of blind openings in the second tubular connector with the second plurality of passageways;positioning a first plurality of pins extending through the first pluralities of passageways and blind openings; andpositioning a second plurality of pins extending through the second pluralities of passageways and blind openings, each first and second pin defining an axial passageway. 27. The method of claim 26 further comprising: engaging a first threaded surface of the first tubular connector with an opposing threaded end of the first tubular conductor; andengaging a second threaded surface of the second tubular connector with an opposing threaded end of the second tubular conductor. 28. The method of claim 26 wherein the first tubular connector has a first plurality of tool-receiving recesses on a first outer surface thereof; and wherein the second tubular connector has a second plurality of tool-receiving recesses on a second outer surface thereof.
Grandchamp Brett J. (South Portland ME) Plummer Cole N. (South Casco ME) Bibber Richard I. (Gray ME) Brown Charles D. (Raymond ME), Broadband rigid coaxial transmission line.
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