A system and method of fabricating a percussion tool that includes a choke valve that is replaceable and/or maintainable without disassembly of the percussion tool. The flow tube includes inner and outer walls and at least one opening formed in the outer wall. The inner wall extends from a top end o
A system and method of fabricating a percussion tool that includes a choke valve that is replaceable and/or maintainable without disassembly of the percussion tool. The flow tube includes inner and outer walls and at least one opening formed in the outer wall. The inner wall extends from a top end of the flow tube to a bottom end of the flow tube and defines a central channel therein. The outer wall extends from the top end towards the bottom end, surrounds a portion of the inner wall, and defines an outer channel with the inner wall. The choke is positioned at the top end over the central channel and regulate a fluid flow therethrough. A check valve is positioned in fluid communication with the choke.
대표청구항▼
1. A downhole percussion tool, comprising: a casing comprising a top end, a bottom end, and a casing passageway extending longitudinally from the top end to the bottom end;a top sub comprising a top sub passageway extending longitudinally therethrough and coupled to the top end of the casing;a drive
1. A downhole percussion tool, comprising: a casing comprising a top end, a bottom end, and a casing passageway extending longitudinally from the top end to the bottom end;a top sub comprising a top sub passageway extending longitudinally therethrough and coupled to the top end of the casing;a drive sub coupled to the bottom end of the casing;a mandrel comprising a mandrel passageway extending longitudinally therethrough, the mandrel being supported within a lower portion of the casing and extending through the drive sub;a feed tube disposed within the casing passageway and comprising an inner wall defining a central channel extending the length of the feed tube, the central channel in fluid communication with the top sub passageway and the mandrel passageway;a choke coupled to a top end of the feed tube and comprising a choke passageway restricting the flow of a fluid from the top sub passageway through the central channel; anda check valve positioned in fluid communication with the choke,wherein the choke is accessible from the top sub through the top sub passageway without dismantling the top sub from the casing. 2. The downhole percussion tool of claim 1, further comprising a bit coupled to the mandrel and extending outwardly from a bottom portion of the mandrel. 3. The downhole percussion tool of claim 1, further comprising a bit integrally formed with the mandrel. 4. The downhole percussion tool of claim 1, wherein the feed tube further comprises an outer wall surrounding at least a portion of the length of the inner wall from the top end of the feed tube, the outer wall and the inner wall defining an outer channel therebetween, the outer channel extending from the top end of the feed tube to a portion of the length of the feed tube, the outer wall comprising at least one opening therein. 5. The downhole percussion tool of claim 4, further comprising a piston slidably mounted within the casing passageway above the mandrel and moveable to deliver an impact force onto the mandrel, the piston comprising: an interior wall extending from an upper surface of the piston to a lower surface of the piston and defining a piston passageway extending therethrough, the piston passageway receiving a portion of the feed tube, the interior wall of the piston and the outer wall of the feed tube being positioned in close fitting relationship;an exterior wall surrounding the interior wall and extending from the upper surface of the piston to the lower surface of the piston, the exterior wall and the casing being positioned in close fitting relationship;a first conduit extending from the interior wall of the piston to the upper surface of the piston, the first conduit being in fluid communication with the at least one opening when the piston is at an up position;a second conduit extending from the interior wall of the piston to the lower surface of the piston, the second conduit being in fluid communication with the at least one opening when the piston is at a down position;wherein a portion of the casing passageway forms an upper chamber positioned adjacently above the piston and in fluid communication with the first conduit and forms a lower chamber positioned adjacently below the piston and in fluid communication with the second conduit. 6. The downhole percussion tool of claim 5, wherein the at least one opening comprises a plurality of first openings and a plurality of second openings, the plurality of first openings being in fluid communication with the second conduit when the piston is at the down position and the plurality of second openings being in fluid communication with the first conduit when the piston is at the up position. 7. The downhole percussion tool of claim 6, wherein the plurality of first openings are positioned elevationally above the plurality of second openings. 8. The downhole percussion tool of claim 6, wherein the plurality of first openings are radially aligned. 9. The downhole percussion tool of claim 6, wherein the plurality of second openings are radially aligned. 10. The downhole percussion tool of claim 5, wherein the second conduit is positioned entirely below the first conduit. 11. The downhole percussion tool of claim 5, wherein the at least one opening comprises a plurality of first openings and a plurality of second openings, the plurality of first openings being in fluid communication with the second conduit when the piston is at one or more first intermediate positions, the one or more first intermediate positions being near the down position and the plurality of second openings being in fluid communication with the first conduit when the piston is at one or more second intermediate positions, the one or more second intermediate positions being near the up position. 12. The downhole percussion tool of claim 5, wherein the piston further comprises at least one exhaust conduit extending from the upper surface of the piston to a lower portion of the interior surface of the piston, the at least one exhaust conduit exhausting fluid from the upper chamber when the piston is at or near the down position. 13. The downhole percussion tool of claim 5, wherein the at least one opening is fluidly coupled with only one of the first conduit or the second conduit. 14. The downhole percussion tool of claim 1, wherein the check valve is positioned downstream of the choke. 15. The downhole percussion tool of claim 14, wherein the choke is replaceable without dismantling the downhole percussion tool. 16. The downhole percussion tool of claim 1, wherein the check valve is positioned upstream of the choke. 17. A downhole percussion tool, comprising: a casing comprising a top end, a bottom end, and a casing passageway extending longitudinally from the top end to the bottom end;a top sub comprising a top sub passageway extending longitudinally therethrough and coupled to the top end of the casing;a drive sub coupled to the bottom end of the casing;a mandrel comprising a mandrel passageway extending longitudinally therethrough, the mandrel being supported within a lower portion of the casing;a feed tube disposed within the casing passageway and comprising an inner wall and an outer wall surrounding at least a portion of the length of the inner wall from a top end of the feed tube, the inner wall defining a central channel extending the length of the feed tube, the central channel in fluid communication with the top sub passageway and the mandrel passageway, the outer wall and the inner wall defining an outer channel therebetween, the outer channel extending from the top end of the feed tube to a portion of the length of the feed tube, the outer wall comprising at least one opening therein;a choke coupled to a top end of the feed tube and comprising a choke passageway regulating the flow of a fluid from the top sub passageway through the central channel;a check valve positioned in fluid communication with the choke; anda bit coupled to the mandrel and extending outwardly from a bottom portion of the mandrel,wherein the choke is accessible from the top sub through the top sub passageway without dismantling the top sub from the casing. 18. The downhole percussion tool of claim 17, wherein the bit is integrally formed with the mandrel. 19. The downhole percussion tool of claim 17, further comprising a piston slidably mounted within the casing passageway above the mandrel and moveable to deliver an impact force onto the mandrel, the piston comprising: an interior wall extending from an upper surface of the piston to a lower surface of the piston and defining a piston passageway extending therethrough, the piston passageway receiving a portion of the feed tube, the interior wall of the piston and the outer wall of the feed tube being positioned in close fitting relationship;an exterior wall surrounding the interior wall and extending from the upper surface of the piston to the lower surface of the piston, the exterior wall and the casing being positioned in close fitting relationship;a first conduit extending from the interior wall of the piston to the upper surface of the piston, the first conduit being in fluid communication with the at least one opening when the piston is at an up position;a conduit extending from the interior wall of the piston to the lower surface of the piston, the second conduit being in fluid communication with the at least one opening when the piston is at a down position;wherein a portion of the casing passageway forms an upper chamber positioned adjacently above the piston and in fluid communication with the first conduit and forms a lower chamber positioned adjacently below the piston and in fluid communication with the second conduit. 20. The downhole percussion tool of claim 19, wherein the at least one opening comprises a plurality of first openings and a plurality of second openings, the plurality of first openings being in fluid communication with the second conduit when the piston is at the down position and the plurality of second openings being in fluid communication with the first conduit when the piston is at the up position. 21. The downhole percussion tool of claim 20, wherein the plurality of first openings are positioned elevationally above the plurality of second openings. 22. The downhole percussion tool of claim 19, wherein the at least one opening comprises a plurality of first openings and a plurality of second openings, the plurality of first openings being in fluid communication with the second conduit when the piston is at one or more first intermediate positions, the one or more first intermediate positions being near the down position and the plurality of second openings being in fluid communication with the first conduit when the piston is at one or more second intermediate positions, the one or more second intermediate positions being near the up position. 23. The downhole percussion tool of claim 19, wherein the piston further comprises at least one exhaust conduit extending from the upper surface of the piston to a lower portion of the interior surface of the piston, the at least one exhaust conduit exhausting fluid from the upper chamber when the piston is at or near the down position. 24. The downhole percussion tool of claim 19, wherein the at least one opening is fluidly coupled with only one of the first conduit or the second conduit. 25. The downhole percussion tool of claim 17, wherein the check valve is positioned downstream of the choke. 26. The downhole percussion tool of claim 25, wherein the choke is replaceable without dismantling the downhole percussion tool. 27. The downhole percussion tool of claim 17, wherein the check valve is positioned upstream of the choke. 28. A method of fabricating a downhole percussion tool, the method comprising: positioning a piston within a casing and forming an upper chamber adjacently above the piston and a lower chamber adjacently below the piston, the piston comprising an interior wall extending from an upper surface of the piston to a lower surface of the piston and defining a piston passageway extending therethrough;positioning a feed tube within the casing, the feed tube extending through the piston passageway and positioned in close fitting relationship with the interior wall of the piston, the feed tube comprising: an upper portion extending from a top end of the feed tube towards a bottom end of the feed tube;a lower portion extending from a lower end of the upper portion to the bottom end; andan inner wall extending from the top end to the bottom end and defining a central channel therein;placing a choke at the top end of the feed tube over the central channel, the choke regulating a fluid flow through at least a portion of the central channel; andpositioning a check valve in fluid communication with the choke. 29. The method of claim 28, wherein the piston further comprises: an exterior wall surrounding the interior wall and extending from the upper surface of the piston to the lower surface of the piston, the exterior wall and the casing being positioned in close fitting relationship;a first conduit extending from the interior wall of the piston to the upper surface of the piston;a second conduit extending from the interior wall of the piston to the lower surface of the piston; andat least one exhaust conduit extending from the upper surface of the piston to a lower portion of the interior surface of the piston. 30. The method of claim 29, wherein the feed tube further comprises: an outer wall extending from the top end towards the bottom end and surrounding a portion of the length of the inner wall from the top end, the outer wall and the inner wall defining an outer channel therebetween; andat least one opening formed in the outer wall, wherein the at least one opening is fluidly communicable with the first conduit when the piston is in or near an up position and wherein the at least one opening is fluidly communicable with the second conduit when the piston is in or near a down position,wherein the at least one exhaust conduit exhausts a fluid from the upper chamber when the piston is at or near the down position. 31. The method of claim 30, wherein the interior wall of the piston and the outer wall of the feed tube are in close fitting relationship. 32. The method of claim 30, wherein the at least one opening comprises a plurality of first openings and a plurality of second openings, the plurality of first openings being in fluid communication with the second conduit when the piston is at or near the down position and the plurality of second openings being in fluid communication with the first conduit when the piston is at or near the up position. 33. The method of claim 32, wherein the plurality of first openings are positioned elevationally above the plurality of second openings. 34. The method of claim 32, wherein the plurality of first openings are radially aligned. 35. The method of claim 32, wherein the plurality of second openings are radially aligned. 36. The method of claim 30, wherein the at least one opening is fluidly coupled with only one of the first conduit or the second conduit. 37. The method of claim 28, wherein the check valve is positioned downstream of the choke. 38. The method of claim 28, wherein the check valve is positioned upstream of the choke.
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