Claims
- 1. A rail connection assembly, comprising:
an outer rail connection tube having a rail connection outlet; a component having a substantially centrally located bore, said component being fixed to said outer rail connection tube remote from said rail connection outlet; a piston adapted for movement between a first position and a second position, said second position being remote from said bore; a nipple having a predetermined cross section and extending from said piston, said nipple being slidably movable into and remote from said bore when said piston is moved between said first and second positions, respectively; and a fluid communication path between said bore and said rail connection outlet.
- 2. The rail connection assembly according to claim 1, further comprising a gap formable between said nipple and said bore when said piston is moved into an intermediate position between said first and second positions.
- 3. The rail connection assembly according to claim 1, wherein said fluid communication path is at least one lateral groove formed in said component.
- 4. The rail connection assembly according to claim 3, wherein said at least one lateral groove is at least two lateral grooves.
- 5. The rail connection assembly according to claim 4, wherein said at least two grooves is at least four lateral grooves.
- 6. The rail connection assembly according to claim 3, wherein said lateral grooves are substantially semi-circular.
- 7. The rail connection assembly according to claim 3, wherein said lateral grooves provide fluid communication between said bore and said rail connection outlet when said piston is moved between said first and second positions.
- 8. The rail connection assembly according to claim 1, wherein said component is a barrel section.
- 9. The rail connection assembly according to claim 8, wherein said barrel section is disposed at least partially within said outer rail connection tube.
- 10. The rail connection assembly according to claim 1, wherein said component is a disk member.
- 11. The rail connection assembly according to claim 10, wherein said disk member is affixed to said outer rail connection tube via a locking ring.
- 12. The rail connection assembly according to clam 1, further comprising an annular groove formed in one of said component and said outer rail connection tube.
- 13. The rail connection assembly according to claim 12, wherein said fluid communication path is at least one lateral groove and wherein said annular groove is positioned such that a portion of said piston overlaps said annular groove when said piston is in said first position and said annular groove is in fluid communication with said at least one lateral groove when said piston is in said second position.
- 14. The rail connection assembly according to claim 1, wherein said fluid communication path is an annular groove formed in said outer rail connection tube that provides fluid communication between said bore and said rail connection outlet when said piston is moved to said second position.
- 15. The rail connection assembly according to claim 1, wherein said piston further includes a bore disposed proximate said nipple.
- 16. The rail connection assembly according to claim 15, wherein said bore disposed proximate said nipple is in fluid communication with said rail connection outlet.
- 17. The rail connection assembly according to claim 1, wherein said piston further comprises a central bore.
- 18. The rail connection assembly according to claim 17, wherein one of said piston and said outer rail connection tube further comprises a spring seat disposed remote from said nipple.
- 19. The rail connection assembly according to claim 18, wherein said spring seat further comprises a plurality of holes in fluid communication with said rail connection outlet.
- 20. The rail connection assembly according to claim 18, further comprising a spring disposed within said central bore and resting on said spring seat.
- 21. The rail connection assembly according to claim 1, further comprising an upper stop at said first position of said piston.
- 22. The rail connection assembly according to claim 1, wherein said bore further comprises flared portions.
- 23. The rail connection assembly according to claim 1, wherein said rail connection assembly provides a pilot injection of a fuel upon movement of said piston into an intermediate position between said first and second positions and a main injection of the fuel upon movement of said piston into said second position.
- 24. A rail connection assembly, comprising:
an outer rail connection tube having a rail connection outlet; a component having a substantially centrally located bore, said component being fixed to said outer rail connection tube remote from said rail connection outlet; a piston adapted for movement between a first position and a second position, said second position being remote from said bore, said piston including a spring tending to bias said piston towards said first position; a nipple having a predetermined cross section and extending from said piston, said nipple being slidably movable into said bore when said piston is biased by said spring into said first position; and at least one fluid communication path between said bore and said rail connection outlet formed in one of said outer rail connection tube and said component.
- 25. The rail connection assembly according to claim 24, wherein said piston further comprises a bore disposed proximate said nipple, said bore disposed proximate said nipple being in fluid communication with said rail connection outlet.
- 26. The rail connection system according to claim 24, wherein said fluid communication path is a plurality of lateral grooves.
- 27. The rail connection system according to claim 24, wherein said fluid communication path is an annular groove about said component.
- 28. The rail connection system according to claim 27, wherein said annular groove is positioned such that a portion of said piston overlaps said annular groove when said piston is in said first position and said annular groove is in fluid communication with said rail connection outlet when said piston is in said second position.
- 29. A fuel injector system, comprising:
a fuel injector including a control body having an inlet port; and a rail connection assembly, said rail connection assembly comprising:
an outer rail connection tube having a rail connection outlet in fluid communication with said inlet port; a component having a substantially centrally located bore, said component being fixed to said outer rail connection tube remote from said rail connection outlet; a piston adapted for movement between a first position and a second position, said second position being remote from said bore; a nipple having a predetermined cross section and extending from said piston, said nipple being slidably movable into and remote from said bore when said piston is moved between said first and second positions, respectively; and a fluid communication path between said bore and said rail connection outlet.
- 30. The fuel injector system according to claim 29, wherein said rail connection assembly provides a pilot injection of a fuel when said piston is moved into an intermediate position between said first and second positions and a main injection of the fuel when said piston is moved into said second position.
- 31. A method of actuating a fuel injector, said method comprising the steps of:
allowing a first amount of working fluid to bias a piston assembly to an intermediate position between a first position and a second position thereby creating a first gap; allowing the first amount of working fluid to flow through the first gap and into a working fluid inlet of the fuel injector in order to trigger a pilot injection of fuel in the fuel injector during a pre-stroke injection cycle of the fuel injector; allowing a second amount of working fluid greater than the first amount of working fluid to fully bias the piston assembly into a second position thereby creating a second gap larger than the first gap; and allowing the full amount of working fluid to flow through the second gap and into the working fluid inlet of the fuel injector in order to trigger a main injection cycle of the fuel injector.
Parent Case Info
[0001] This application claims priority under 35 U.S.C. §§ 119(e) and 120 of U.S. Provisional Patent Application Serial No. 60/255,142, Docket No. 06580001PR, filed Dec. 14, 2000.
Provisional Applications (1)
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Number |
Date |
Country |
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60255142 |
Dec 2000 |
US |