A downhole sleeve has a sliding sleeve movable in a bore of the sleeve's housing. The sliding sleeve is movable from a closed condition to an opened condition when a ball is dropped in the sleeve's bore and engages an indexing seat in the sliding sleeve. The sliding sleeve in the closed condition pr
A downhole sleeve has a sliding sleeve movable in a bore of the sleeve's housing. The sliding sleeve is movable from a closed condition to an opened condition when a ball is dropped in the sleeve's bore and engages an indexing seat in the sliding sleeve. The sliding sleeve in the closed condition prevents communication between the bore and the port, and the sleeve in the opened condition permits communication between the bore and the port. In the closed condition, keys of the seat extend into the bore to engage the ball and to move the sliding sleeve open. In the opened condition, the keys of the seat retract from the bore so the ball can pass through the sleeve to another cluster sleeve or to another isolation sleeve of an assembly.
대표청구항▼
1. A downhole sliding sleeve, comprising: a housing defining a bore and defining a port communicating the bore outside the housing;an insert disposed in the bore and being movable from a closed condition to an opened condition, the insert in the closed condition preventing fluid communication betwee
1. A downhole sliding sleeve, comprising: a housing defining a bore and defining a port communicating the bore outside the housing;an insert disposed in the bore and being movable from a closed condition to an opened condition, the insert in the closed condition preventing fluid communication between the bore and the port, the insert in the opened condition permitting fluid communication between the bore and the port;a seat movably disposed in the insert, the seat when the insert is in the closed condition extending at least partially into the bore and engaging a plug disposed in the bore to move the insert from the closed condition to the opened condition, the seat when the insert is in the opened condition retracting from the bore and releasing the plug; andan inset member being temporarily disposed in the port, the inset member at least temporarily maintaining fluid pressure in the bore and allowing the maintained fluid pressure to act against the plug and open at least one additional downhole sliding sleeve. 2. The sliding sleeve of claim 1, wherein the insert defines slots, and wherein the seat comprises a plurality of keys movable between extended and retracted positions in the slots. 3. The sliding sleeve of claim 1, wherein the plug comprises a ball. 4. The sliding sleeve of claim 1, wherein the insert comprises seals disposed thereon and sealing off the port when the insert is in the closed condition. 5. The sliding sleeve of claim 1, wherein the bore comprises seals disposed on either side of the port and sealing against the insert when in the closed condition. 6. The sliding sleeve of claim 1, further comprising a catch temporarily holding the insert in the closed condition. 7. The sliding sleeve of claim 6, wherein the catch comprises a shear ring engaging an end of the insert in the closed condition. 8. The sliding sleeve of claim 1, further comprising a lock locking the insert in the opened condition. 9. The sliding sleeve of claim 8, wherein the lock comprises a snap ring disposed about the insert and expandable into a slot in the bore when the insert is in the opened condition. 10. The sliding sleeve of claim 1, wherein the inset member defines an orifice communicating the bore outside the housing through the inset member, the orifice producing a pressure differential across the insert in the closed condition and facilitating movement of the insert from the closed condition to the opened condition. 11. The sliding sleeve of claim 1, wherein the inset member dislodges from the port when subjected to fluid pressure for a frac operation in the bore. 12. A downhole well fluid system, comprising: first cluster sleeves disposed on a tubing string deployable in a wellbore,each of the first cluster sleeves being actuatable by a first plug deployable down the tubing string,each of the first cluster sleeves being actuatable from a closed condition to an opened condition, the closed condition preventing fluid communication between a port in the first cluster sleeve and the wellbore, the opened condition permitting fluid communication between the port in the first cluster sleeve and the wellbore,each of the first cluster sleeves in the opened condition allowing the first plug to pass therethrough, andeach of the first cluster sleeves having an inset member being temporarily disposed in the port, the inset member for a given one of the first cluster sleeves at least temporarily maintaining fluid pressure in the bore and allowing the maintained fluid pressure to act against the first plug at least until the first cluster sleeves are opened. 13. The system of claim 12, wherein the first plug comprises a ball. 14. The system of claim 12, wherein each of the first cluster sleeves comprises: a housing defining a bore and defining the port communicating the bore outside the housing;an insert disposed in the bore and being movable from the closed condition to the opened condition, the insert in the closed condition preventing fluid communication between the bore and the port, the insert in the opened condition permitting fluid communication between the bore and the port; anda seat movably disposed in the insert, the seat when the insert is in the closed condition extending at least partially into the bore and engaging a plug disposed in the bore to move the insert from the closed condition to the opened condition, the seat when the insert is in the opened condition retracting from the bore and releasing the plug. 15. The system of claim 12, further comprising an isolation sleeve disposed on the tubing string and being actuatable from a closed condition to an opened condition, the closed condition preventing fluid communication between the isolation sleeve and the wellbore, the opened condition permitting fluid communication between the isolation sleeve and the wellbore, the isolation sleeve having a seat engaging the first plug and preventing fluid communication therepast. 16. The system of claim 12, further comprising: second cluster sleeves disposed on the tubing string,each of the second cluster sleeves being actuatable by a second plug deployed down the tubing string,each of the second cluster sleeves being actuatable from a closed condition to an opened condition, the closed condition preventing fluid communication between the second cluster sleeve and the wellbore, the opened condition permitting fluid communication between the second cluster sleeve and the wellbore,each of the second cluster sleeves in the opened condition allowing the second plug to pass therethrough. 17. The system of claim 16, wherein each of the second cluster sleeves pass the first plug therethrough without being actuated. 18. The system of claim 16, further comprising an isolation sleeve disposed on the tubing string and being actuatable from a closed condition to an opened condition, the closed condition preventing fluid communication between the isolation sleeve and the wellbore, the opened condition permitting fluid communication between the isolation sleeve and the wellbore, the isolation sleeve having a seat engaging the second plug and preventing fluid communication therepast. 19. The system of claim 16, wherein each of the second cluster sleeves comprises an inset member being temporarily disposed in a port of the second cluster sleeves, the inset member for a given one of the second cluster sleeves at least temporarily maintaining fluid pressure in the bore and allowing the maintained fluid pressure to act against the second plug and open at least until the second cluster sleeves are opened. 20. The system of claim 12, wherein the inset member for each of the first cluster sleeves defines an orifice communicating the bore outside the first cluster sleeve through the inset member, the orifice producing a pressure differential across an insert in the closed condition in the first cluster sleeve and facilitating movement of the insert from the closed condition to the opened condition in the first cluster sleeve. 21. The system of claim 12, wherein the inset member for each of the first cluster sleeves dislodges from the port in the first cluster sleeve when subjected to fluid pressure for a frac operation in a bore of the first cluster sleeve. 22. A wellbore fluid treatment method, comprising: deploying first and second sliding sleeves on a tubing string in a wellbore, each of the sliding sleeves having a closed condition preventing fluid communication between ports in the sliding sleeves and the wellbore;dropping a first plug down the tubing string;changing the first sliding sleeve to an open condition allowing fluid communication between the port in the first sliding sleeve and the wellbore by engaging the first plug on a first seat disposed in the first sliding sleeve;passing the first plug through the first sliding sleeve in the opened condition to the second sliding sleeve: andat least temporarily maintaining fluid pressure in the first sliding sleeve in the opened condition to open at least one additional sliding sleeve with the first plug engaging an additional seat disposed in the at least one additional sliding sleeve by restricting fluid flow through the port with an inset member disposed in the port of the first sliding sleeve. 23. The method of claim 22, wherein the at least one additional sliding sleeve comprises the second sliding sleeve having a second seat as the additional seat, and wherein the method further comprises changing the second sleeve to an open condition allowing fluid communication between the second sliding sleeve and the wellbore by engaging the first plug on the second seat disposed in the second sliding sleeve. 24. The method of claim 23, further comprising passing the first plug through the second sliding sleeve in the opened condition. 25. The method of claim 23, further comprising sealing the first plug on the second seat of the second sliding sleeve and preventing fluid communication therethrough. 26. The method of claim 22, further comprising: deploying a third sliding sleeve on the tubing string in the wellbore, the third sliding sleeve having a closed condition preventing fluid communication between the third sliding sleeve and the wellbore; andpassing the first plug through the third sliding sleeve to the first sliding sleeve without changing the third sliding sleeve from the closed condition. 27. The method of claim 26, further comprising: dropping a second plug down the tubing string;changing the third sliding sleeve to an open condition allowing fluid communication between the third sliding sleeve and the wellbore by engaging the second plug on a third seat disposed in the third sliding sleeve. 28. The method of claim 27, further comprising passing the second plug through the third sliding sleeve in the opened condition. 29. The method of claim 28, further comprising changing a fourth sliding sleeve to an open condition allowing fluid communication between the fourth sliding sleeve and the wellbore by engaging the second plug on a fourth seat of the fourth sliding sleeve. 30. The method of claim 27, further comprising sealing the second plug on the third seat of the third sliding sleeve and preventing fluid communication therethrough. 31. The method of claim 22, further comprising: passing the first plug through the second sliding sleeve without changing the second sliding sleeve from the closed condition;dropping a second plug down the tubing string;passing the second plug through the first sliding sleeve in the opened condition; andchanging the second sliding sleeve to an open condition by engaging the second plug on a second seat disposed in the second sliding sleeve. 32. The method of claim 31, wherein the second plug has a larger size than the first plug. 33. The method of claim 22, wherein the at least one additional sliding sleeve comprises a third sliding sleeve having a third seat as the additional seat, and wherein the method further comprises changing the third sleeve to an open condition allowing fluid communication between the third sliding sleeve and the wellbore by engaging the first plug on the third seat disposed in the third sliding sleeve. 34. The method of claim 22, further comprising facilitating movement of an insert in the first sliding sleeve from the closed condition to the opened condition relative to the port by producing a pressure differential across the insert in the closed condition with an orifice in the inset member communicating outside the first sliding sleeve. 35. The method of claim 22, further comprising dislodging the inset member from the port in the first sliding sleeve by applying fluid pressure for a frac operation in the first sliding sleeve.
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