IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0826841
(2001-04-06)
|
우선권정보 |
GB-20000008465 (2000-04-07) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Leary, Michael P.Shapiro, Bruce S.Yocum, Charles E.
|
인용정보 |
피인용 횟수 :
46 인용 특허 :
8 |
초록
▼
A rotary hammer includes a spindle 18 which can be rotatably driven by an intermediate shaft 24 by way of a drive device. A tool holder 16 is arranged for rotation with the spindle 18, and for releasably holding a bit or tool for selective rotation and/or reciprocation. A pneumatic hammering arrange
A rotary hammer includes a spindle 18 which can be rotatably driven by an intermediate shaft 24 by way of a drive device. A tool holder 16 is arranged for rotation with the spindle 18, and for releasably holding a bit or tool for selective rotation and/or reciprocation. A pneumatic hammering arrangement facilitates repeated impacting of the bit or tool for reciprocation within the tool holder (16). A mode change mechanism includes a knob 18 for selectively operating the rotary hammer in any of three modes, identified as a rotary drive only mode, a hammer only mode and a rotary hammer mode.
대표청구항
▼
A rotary hammer includes a spindle 18 which can be rotatably driven by an intermediate shaft 24 by way of a drive device. A tool holder 16 is arranged for rotation with the spindle 18, and for releasably holding a bit or tool for selective rotation and/or reciprocation. A pneumatic hammering arrange
A rotary hammer includes a spindle 18 which can be rotatably driven by an intermediate shaft 24 by way of a drive device. A tool holder 16 is arranged for rotation with the spindle 18, and for releasably holding a bit or tool for selective rotation and/or reciprocation. A pneumatic hammering arrangement facilitates repeated impacting of the bit or tool for reciprocation within the tool holder (16). A mode change mechanism includes a knob 18 for selectively operating the rotary hammer in any of three modes, identified as a rotary drive only mode, a hammer only mode and a rotary hammer mode. the lower secondary seal metal rib for exerting an upward force on the lower primary seal metal rib in response to high fluid pressure above the seal assembly. 3. The downhole tool as defined in claim 1, wherein an outer surface of each of the upper primary seal metal rib, the lower primary seal metal rib, the upper secondary seal metal rib, and the lower secondary metal rib is configured for forming an annular metal-to-metal seal with a generally cylindrical interior surface. 4. The downhole tool as defined in claim 1, wherein said conveyance tubular supports the wedge ring generally stationary while the seal assembly moves axially with respect to the stationary wedge ring. 5. The downhole tool as defined in claim 1, wherein the conveyance tubular supports the seal assembly generally stationary while the wedge ring moves axially with respect to the stationary seal assembly. 6. The downhole tool as defined in claim 1, wherein the seal assembly seals with an interior surface of a downhole tubular. 7. The downhole tool as defined in claim 1, wherein the primary elastomeric seal includes a void area when the primary elastomeric seal is moved into sealing engagement with the cylindrical surface, such that the primary elastomeric seal may thermally expand to fill at least part of the void area in response to elevated downhole temperatures. 8. The downhole tool as defined in claim 1, wherein each of the downwardly angled primary seal metal rib and the upwardly angled primary seal metal rib is inclined while in the run-in position at an angle of at least 15° with respect to a plane perpendicular to a central axis of the cylindrical interior surface. 9. The downhole tool as defined in claim 8, wherein each of the downwardly angled secondary metal rib and the upwardly angled secondary metal rib is inclined while in the run-in position at an angle of at least 15° with respect to a plane perpendicular to a central axis of the cylindrical interior surface. 10. The downhole tool as defined in claim 9, further comprising: one or more annular metal protrusions on one of an outer surface of a conveyance tubular and an inner surface of the wedge ring to form a metal-to-metal seal between the wedge ring and the conveyance tubular. 11. The downhole tool as defined in claim 10, further comprising: one or more annular elastomeric sealing members carried by one of the conical wedge ring and the conveyance tubular for forming an elastomeric seal between the conveyance tubular and the wedge ring. 12. The downhole tool as defined in claim 1, further comprising: one or more axially spaced protrusions on a radially inner surface of the annular base of the metal framework each for metal-to-metal sealing engagement with the conical outer surface of the wedge ring. 13. The downhole tool as defined in claim 12, further comprising: one or more annular elastomeric sealing members for sealing between the base of the metal framework and the conical outer surface of the wedge ring. 14. A tool for use in a subterranean well to seal with a generally cylindrical interior surface of a tubular or another downhole tool, the tool comprising: a wedge ring having a substantially conical outer surface configured to radially expand an annular seal assembly upon axial movement of the annular seal assembly relative to the wedge ring such that the seal assembly is expanded from its run-in position to its expanded sealing position wherein the seal assembly is in sealing engagement with the generally cylindrical interior surface; and an annular seal assembly having a reduced diameter run-in position and an expanded sealing position, the seal assembly including a metal framework having a radially inward annular base and a plurality of metal ribs each extending radially outward from the base, the metal framework including an upper downwardly angled primary seal metal rib for sealing pressure below the seal assembly, a lower upwardly angled primary seal metal rib for sealing pressure above the seal assembly, a primary elastomeric seal in a cavity radially outward from the base and axially between the upper primary seal metal rib and the lower primary seal metal rib, an upper downwardly angled secondary seal metal rib spaced axially above the upper primary seal metal rib, and a lower upwardly angled secondary seal metal rib spaced axially below the lower primary seal metal rib. 15. The downhole tool as defined in claim 14, further comprising: an upper secondary elastomeric seal between the upper primary seal metal rib and the upper secondary seal metal rib, and a lower secondary elastomeric seal spaced between the lower primary seal metal rib and the lower secondary seal metal rib. 16. A downhole tool as defined in claim 14, wherein an outer surface of each of the upper primary seal metal rib, the lower primary seal metal rib, the upper secondary seal metal rib, and the lower secondary metal rib is configured for forming an annular metal-to-metal seal with a generally cylindrical interior surface. 17. The downhole tool as defined in claim 14, wherein each of the downwardly angled primary seal metal rib, the upwardly angled primary seal metal rib, the downwardly angled secondary seal metal rib and the upwardly angled secondary seal metal rib is inclined while in the run-in position at an angle of at least 15° with respect to a plane perpendicular to a central axis of the cylindrical interior surface. 18. A method of forming a downhole seal with a generally cylindrical interior surface of a tubular or another downhole tool, the method comprising: providing an annular seal assembly disposed about a conveyance tubular, the seal assembly having a reduced diameter run-in position and an expanded position, the seal assembly including a metal framework having a radially inward annular base and a plurality of metal ribs each extending radially outward from the base, the metal framework including an upper downwardly angled primary seal metal rib for sealing pressure below the seal assembly, a lower upwardly angled primary seal metal rib for sealing pressure above the seal assembly, a primary elastomeric seal in a cavity radially outward from the base and axially between the upper primary seal metal rib and the lower primary seal metal rib, an upper downwardly angled secondary seal metal rib spaced axially above the upper primary seal metal rib, and a lower upwardly angled secondary seal metal rib spaced axially below the lower primary seal metal rib; providing a wedge ring having a substantially conical outer surface; and axially moving the annular seal assembly relative to the wedge ring such that the seal assembly is expanded from its run-in position to its expanded position wherein the seal assembly is in sealing engagement with the generally cylindrical interior surface. 19. The method as defined in claim 18, further comprising: providing an upper biasing member between the upper primary seal metal rib and the upper secondary seal metal rib for exerting a downward biasing force on the upper primary seal metal rib in response to high fluid pressure below the seal assembly; and providing a lower biasing member spaced between the lower primary seal metal rib and the lower secondary seal metal rib for exerting an upward force on the lower primary seal metal rib in response to high fluid pressure above the seal assembly. 20. The method as defined in claim 18, wherein an outer surface of each of the upper primary seal metal rib, the lower primary seal metal rib, the upper secondary seal metal rib, and the lower secondary metal rib is configured for forming an annular metal-to-metal seal with a generally cylindrical interior surface. 21. The method as defined in claim 18, wherein the wedge ring is generally stationary while the seal assembly moves axially with respect to the stationary wedge ring. 22. The method as defined in claim 21, wherein a set down weight transm
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