A downhole apparatus (10) adapted to be run on a workstring in a well bore. The apparatus has a body (12) including ports (42) and a valve (26) which is rotatable to open and close the ports to selectively allow fluid flow through the body between regions of a well bore above and below the apparatus
A downhole apparatus (10) adapted to be run on a workstring in a well bore. The apparatus has a body (12) including ports (42) and a valve (26) which is rotatable to open and close the ports to selectively allow fluid flow through the body between regions of a well bore above and below the apparatus. The valve is rotated via a gearbox (28) and motor (30) in the apparatus. A sealing arrangement between the valve and body is also described. A method of running the apparatus in a well bore and monitoring pressure above the apparatus in order to control opening and closing of the valve under predetermined conditions is presented.
대표청구항▼
1. A downhole tool, comprising: a housing that comprises one or more ports that define a fluid pathway between a bore that extends through at least a portion of the housing and an annulus of a wellbore;a valve assembly that comprises a body and one or more apertures that define a fluid pathway betwe
1. A downhole tool, comprising: a housing that comprises one or more ports that define a fluid pathway between a bore that extends through at least a portion of the housing and an annulus of a wellbore;a valve assembly that comprises a body and one or more apertures that define a fluid pathway between a throughbore of the body and the one or more ports, the body moveable between a first position that aligns the one or more apertures and the one or more ports to permit fluid communication between the bore and the annulus and a second position that misaligns the one or more apertures and the one or more ports to prevent fluid communication between the bore and the annulus;a drive assembly operatively coupled to the valve assembly and configured to move the body between the first and second positions; anda seal assembly positioned adjacent the one or more ports and comprising a seal member that forms a metal-to-metal seal between the one or more ports and the body when the body is in the second position to prevent fluid communication between the bore and the annulus, the seal member radially moveable relative to the body. 2. The downhole tool of claim 1, wherein the seal member comprises a curved surface in sealing contact with a radiussed surface of the body when the body is in the second position. 3. The downhole tool of claim 1, wherein the drive assembly comprises: a power source;a motor coupled to the power source; anda drive shaft coupled between the motor and the body and configured to rotate the body in the valve assembly based on operation of the motor. 4. The downhole tool of claim 3, further comprising an electronic actuation subsystem. 5. The downhole tool of claim 4, wherein the actuation subsystem comprises at least one of a motion sensor, an inertia sensor, or a pressure sensor. 6. The downhole tool of claim 5, wherein the actuation subsystem is communicably coupled to the drive assembly and configured to provide an actuation signal to the drive assembly based on a measurement from at least one of the motion sensor, the inertia sensor, or the pressure sensor. 7. The downhole tool of claim 6, wherein the drive assembly is configured to adjust the valve member to move the body between the first and second position based on the actuation signal. 8. The downhole tool of claim 1, wherein the tool comprises at least one of a valve, a plug, or an auto-fill device. 9. A method, comprising: running a downhole tool into a wellbore in a first position, the downhole tool comprising: a housing that comprises a bore and one or more ports at an exterior surface of the housing;a valve assembly that comprises a body and one or more apertures that define a fluid pathway between a throughbore of the body and the one or more ports of the housing, the body positioned in a first state that aligns the one or more apertures and the one or more ports in the first position of the downhole tool;a drive assembly operatively coupled to the valve assembly; anda seal assembly positioned adjacent the one or more ports and comprising a seal member;setting the downhole tool in the wellbore;circulating fluid through the bore and through the one or more apertures and one or more ports to an annulus of the wellbore; andadjusting the body of the valve assembly from the first state to a second state to place the downhole tool in a second position, the body positioned in the second state that misaligns the one or more apertures and the one or more ports in the second position of the downhole tool, seal member forming a metal-to-metal seal between the one or more ports and the body when the body is in the second state to prevent fluid communication between the bore and the wellbore, the seal member radially moveable relative to the body. 10. The method of claim 9, further comprising: circulating the fluid or another fluid to the bore of the housing when the downhole tool is in the second portion; andpressure testing the seal member of the seal assembly with the fluid or another fluid when the downhole tool is in the second position. 11. The method of claim 9, further comprising: detecting an initiation signal based on data from at least one of an inertia sensor, a pressure sensor, or a motion sensor; andin response to the initiation signal, adjusting the body of the valve assembly between the first state and the second state. 12. The method of claim 11, further comprising: waiting a predetermined time delay after detecting the initiation signal; andinitiating adjustment of the body of the valve assembly between the first state and the second state after the predetermined time delay. 13. The method of claim 11, further comprising: detecting motion of the downhole tool in the wellbore by the motion sensor;overriding generation of the initiation signal based on the detected motion; andsetting or resetting a time delay based on the detected motion. 14. The method of claim 11, further comprising: measuring wellbore hydrostatic pressure with the pressure sensor;determining that the measured wellbore hydrostatic pressure exceeds a predetermined pressure value; andbased on the determination that the measured wellbore hydrostatic pressure exceeds the predetermined pressure value, generating the initiation signal. 15. A wellbore apparatus, comprising: a housing comprising an upper end configured to couple to a downhole conveyance and a lower end configured to anchor to a wellbore, the housing further comprising one or more ports that define a fluid pathway between a bore that extends through at least a portion of the housing and an annulus of the wellbore;a flow controller that comprises a body and one or more apertures that define a fluid pathway between a throughbore of the body and the one or more ports, the body moveable between a first position that aligns the one or more apertures and the one or more ports to permit fluid communication between the bore and the annulus and a second position that misaligns the one or more apertures and the one or more ports to prevent fluid communication between the bore and the annulus;a drive assembly operatively coupled to the flow controller and configured to move the body between the first and second positions;a seal assembly positioned adjacent the one or more ports and comprising a seal member that forms a metal-to-metal seal between the one or more ports and the body when the body is in the second position to prevent fluid communication between the bore and the annulus, the seal member radially moveable relative to the body; anda control system communicably coupled to the drive assembly and operable to control the drive assembly to move the body between the first and second positions. 16. The wellbore apparatus of claim 15, wherein the flow controller comprises one of a ball valve or a ball choke. 17. The wellbore apparatus of claim 15, wherein the seal member is configured to operate as a floating piston that forms the metal-to-metal seal between the one or more ports and the body when a pressure in the bore is greater than a pressure in the annulus and when the pressure in the bore is less than the pressure in the annulus. 18. The wellbore apparatus of claim 15, wherein the control system is at least partially enclosed in the housing. 19. The wellbore apparatus of claim 15, wherein the control system comprises a PCB controller communicably coupled to a motor of the drive assembly. 20. The wellbore apparatus of claim 15, wherein the downhole conveyance comprises one of a wireline or a tubing.
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이 특허에 인용된 특허 (12)
Christie, Michael J.; Gordon, Stuart; Brown, Irvine C.; Reid, Michael A., Downhole apparatus having a rotating valve member.
Tubel Paulo S. ; Rothers David Eugene ; Holcombe Michael Wayne ; Mullins ; II Albert A. ; McCorry Mark,GBX, Method and apparatus for remote control of wellbore end devices.
Carmody Michael A. ; Jones Kevin R. ; Coon Robert J. ; Murray Douglas J. ; Hopmann Mark E. ; Jennings Steven L. ; Welch Wayne ; Edwards Jeffry ; Martin David, Motor drive actuator for downhole flow control devices.
Schultz Roger L. (Richardson TX) Kyle Donald G. (Plano TX) Skinner Neal G. (Lewisville TX), Pressure change signals for remote control of downhole tools.
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