Safety valve, downhole system having safety valve, and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E21B-034/10
E21B-034/14
E21B-034/00
출원번호
US-0108934
(2013-12-17)
등록번호
US-9470064
(2016-10-18)
발명자
/ 주소
Kucera, Samuel C.
출원인 / 주소
BAKER HUGHES INCORPORATED
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
A safety valve including at least one tubular housing having an interior surface. A flow path provided within an interior of the at least one tubular housing. A movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an
A safety valve including at least one tubular housing having an interior surface. A flow path provided within an interior of the at least one tubular housing. A movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an open condition of the blocking member. A first seal bore on the interior surface of the at least one tubular housing. A hydraulic control chamber within a wall of the at least one tubular housing; and, a second seal bore on the interior surface of the at least one tubular housing; wherein the hydraulic control chamber is disposed longitudinally between the first and second seal bores. The second seal bore is disposed longitudinally between the hydraulic control chamber and the movable flow path blocking member. Also included is a method of accommodating a high control pressure wireline insert safety valve within a tubing retrievable safety valve.
대표청구항▼
1. A safety valve comprising: at least one tubular housing having an interior surface, a flow path provided within an interior of the at least one tubular housing;a movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path i
1. A safety valve comprising: at least one tubular housing having an interior surface, a flow path provided within an interior of the at least one tubular housing;a movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an open condition of the blocking member;a first seal bore on the interior surface of the at least one tubular housing;a hydraulic control chamber within a wall of the at least one tubular housing; and,a second seal bore on the interior surface of the at least one tubular housing;wherein the hydraulic control chamber is disposed longitudinally between the first and second seal bores, and the second seal bore is disposed longitudinally between the hydraulic control chamber and the movable flow path blocking member, and the safety valve is a tubing retrievable surface controlled subsurface safety valve. 2. The safety valve of claim 1, wherein the wall of the at least one tubular housing is communicated to provide fluid access between the hydraulic control chamber and the interior of the at least one tubular housing. 3. The safety valve of claim 1, wherein the first seal bore is provided on a nipple adapter of the at least one tubular housing. 4. The safety valve of claim 3, wherein the second seal bore is provided on a housing portion of the at least one tubular housing, the housing portion disposed between the nipple adapter and a housing portion for a movable operating component of the movable flow path blocking member. 5. The safety valve of claim 1 further comprising a flow tube longitudinally movable within the interior of the at least one tubular housing, wherein the second seal bore is disposed longitudinally between the first seal bore and the flow tube. 6. The safety valve of claim 1, further comprising a third seal bore disposed downhole of the movable flow path blocking member, wherein the third seal bore and at least one of the first and second seal bores are configured to sealingly receive a separation sleeve within the interior of the at least one tubular housing. 7. The safety valve of claim 6 wherein the third seal bore is located within a housing portion disposed longitudinally past the movable flow path blocking member of the safety valve. 8. The safety valve of claim 1, wherein a first wall thickness of the at least one tubular housing between the first and second seal bores is larger than a second wall thickness of the at least one tubular housing at a location enclosing movable operating components of the movable flow path blocking member. 9. A safety valve comprising: at least one tubular housing having an interior surface, a flow path provided within an interior of the at least one tubular housing;a movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an open condition of the blocking member;a first seal bore on the interior surface of the at least one tubular housing;a hydraulic control chamber within a wall of the at least one tubular housing; and,a second seal bore on the interior surface of the at least one tubular housing;wherein the hydraulic control chamber is disposed longitudinally between the first and second seal bores, and the second seal bore is disposed longitudinally between the hydraulic control chamber and the movable flow path blocking member, and the first and second seal bores are polished bores configured to sealingly receive first and second seals of an accessory tool inserted within the at least one tubular housing. 10. A safety valve comprising: at least one tubular housing having an interior surface, a flow path provided within an interior of the at least one tubular housing;a movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an open condition of the blocking member;a first seal bore on the interior surface of the at least one tubular housing;a hydraulic control chamber within a wall of the at least one tubular housing; and,a second seal bore on the interior surface of the at least one tubular housing;wherein the hydraulic control chamber is disposed longitudinally between the first and second seal bores, and the second seal bore is disposed longitudinally between the hydraulic control chamber and the movable flow path blocking member, and the safety valve is configured to receive a wireline insert safety valve sealed upon the first and second seal bores. 11. A downhole system comprising: a safety valve including:at least one tubular housing having an interior surface, a flow path provided within an interior of the at least one tubular housing;a movable flow path blocking member arranged to block the flow path in a closed condition of the blocking member and open the flow path in an open condition of the blocking member;a first seal bore on the interior surface of the at least one tubular housing;a hydraulic control chamber within a wall of the at least one tubular housing; and,a second seal bore on the interior surface of the at least one tubular housing;wherein the hydraulic control chamber is disposed longitudinally between the first and second seal bores, and the second seal bore is disposed longitudinally between the hydraulic control chamber and the movable flow path blocking member; and,a wireline insert safety valve disposed within the at least one tubular housing, the wireline insert safety valve including a first seal sealed on the first seal bore and a second seal sealed on the second seal bore. 12. The downhole system of claim 11, wherein the interior surface of the at least one tubular housing is communicated to allow communication between the hydraulic control chamber and a hydraulic communication port of the wireline insert safety valve. 13. The downhole system of claim 11, wherein a control chamber for the wireline insert safety valve is formed between the interior surface of the at least one tubular housing, an exterior surface of the wireline insert safety valve, and the first and second seals. 14. The downhole system of claim 13, wherein the control chamber for the wireline insert safety valve is sealed from a portion of the interior of the at least one tubular housing at a location of movable operating components of the movable flow path blocking member. 15. A method of accommodating a high control pressure wireline insert safety valve within a tubing retrievable safety valve, the method including: sealing a first seal of the wireline insert safety valve within a first seal bore in the tubing retrievable safety valve; andsealing a second seal of the wireline insert safety valve within a second seal bore in the tubing retrievable safety valve;wherein the second seal bore is disposed between the first seal bore and a movable flow path blocking member of the tubing retrievable safety valve. 16. The method of claim 15 further comprising communicating a hydraulic control chamber within a wall of the tubing retrievable safety valve between the first and second seal bores prior to sealing the first and second seals within the first and second seal bores. 17. The method of claim 16 further comprising providing hydraulic control pressure from the hydraulic control chamber to a control chamber of the wireline insert safety valve between an exterior surface of the wireline insert safety valve, an interior surface of the tubing retrievable safety valve, the first seal and the second seal. 18. The method of claim 15 further comprising, prior to sealing the first and second seals within the first and second seal bores, running a separation sleeve within the tubing retrievable safety valve and sealing the separation sleeve at the first seal bore and a third seal bore, the movable flow path blocking member disposed between the third seal bore and the second seal bore. 19. The method of claim 15 wherein a wall thickness of a control chamber for the wireline insert safety valve, between the wireline insert safety valve and the tubing retrievable safety valve, is greater than a wall thickness of a portion of the housing containing movable operating components of the movable flow path blocking member.
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이 특허에 인용된 특허 (22)
Beall Clifford H. ; Rawson Michael S. ; Hickey Kurt A., Annular chamber seal.
Eriksen Erik P. V. (Broken Arrow OK) Drakeley Brian K. (Broken Arrow OK) Carmody Michael A. (Broken Arrow OK), Downhole safety valve for subterranean well and method.
Carmody Michael A. (Broken Arrow OK) Eriksen Erik P. V. (Broken Arrow OK) Vinje Lars (Hafrsfjord NOX), Method and apparatus for establishing communication with a downhole portion of a control fluid pipe.
Jardim De Azevedo, Meroveu; Sant'ana, Flavio Froes; Calo, Sebastian C.; Stepkowski, Alejandro, Selective completion system for downhole control and data acquisition.
Cho, Brian W.; Gambier, Philippe; Whitsitt, John R.; Basmajian, Arin; Garcia, Jose F.; Hilsman, III, Youel G., Setting tool for hydraulically actuated devices.
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