Claims
- 1. A fuel injector comprising:a housing having an inlet, an outlet and a longitudinal axis extending therethrough; a seat disposed proximate to the outlet, the seat including a sealing surface and a passage extending therethrough; a needle being reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the seat, precluding fuel flow past the needle; and a multi-layer orifice plate assembly located at the housing outlet, the orifice plate assembly including: a first orifice plate having at least a plurality of first openings, each first opening being generally arcuate and spaced about the longitudinal axis at a first predetermined radial distance from the longitudinal axis; and a second orifice plate separate from the first orifice plate such that the first plate is located between the seat and a second orifice plate, the second orifice plate having a plurality of second openings extending therethrough, each second opening being spaced a second predetermined radial distance from the longitudinal axis, the plurality of first openings and the plurality of second openings being fluidly connected by at least one channel.
- 2. The fuel injector according to claim 1, wherein the second predetermined radial distance is less than the first predetermined radial distance.
- 3. The fuel injector according to claim 1, wherein the first orifice plate further includes a central opening extending therethrough along the longitudinal axis, the central opening being fluidly connected to the plurality of second openings.
- 4. The fuel injector according to claim 1, further including a third orifice plate located between the first orifice plate and the second orifice plate, the third orifice plate including a third orifice plate central opening extending therethrough along the longitudinal axis, the third orifice plate central opening fluidly connecting the plurality of first orifice plate openings and the plurality of second orifice plate openings.
- 5. The fuel injector according to claim 4, wherein at least one of the first orifice plate, the second orifice plate and the third orifice plate are removable from and replaceable with at least a fourth orifice plate.
- 6. The fuel injector according to claim 1, wherein the second orifice plate openings are non-circular.
- 7. The fuel injector according to claim 1, wherein the needle has a generally spherical end face.
- 8. The fuel injector according to claim 7, wherein a plane of each of the first and second orifice plates is generally perpendicular to the longitudinal axis.
- 9. The fuel injector according to claim 1, wherein at least one of the first and second orifice plates is constructed from a metal.
- 10. A fuel injector comprising:a housing having an inlet, an outlet and a longitudinal axis extending therethrough; a seat disposed proximate the outlet, the seat including a sealing surface and a passage extending therethrough; a needle being reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the seat precluding fuel flow past the needle; and a multi-layer orifice plate assembly located at the housing outlet, the orifice plate assembly including: a first orifice plate having at least a plurality of first openings, each first opening being generally arcuate and spaced about the longitudinal axis at a first predetermined radial distance from the longitudinal axis; a second orifice plate separate from the first orifice plate such that the first plate is located between the seat and a second orifice plate, the second orifice plate having a plurality of second openings extending therethrough, each second opening being spaced a second predetermined radial distance from the longitudinal axis, the second predetermined radial distance being less than the first predetermined radial distance; and a third orifice plate located between the first orifice plate and the second orifice plate, the third orifice plate being separate from the first and second orifice plates, the third orifice plate including a third orifice plate central opening extending therethrough along the longitudinal axis, the third orifice plate central opening fluidly connecting the plurality of first and second openings.
- 11. The fuel injector according to claim 10, wherein the first orifice plate further includes a central opening extending therethrough along the longitudinal axis, the central opening being fluidly connected to the plurality of second openings.
- 12. The fuel injector according to claim 10, wherein at least one of the first orifice plate, the second orifice plate and the third orifice plate are removable from and replaceable with at least a fourth orifice plate.
- 13. The fuel injector according to claim 10, wherein the second predetermined radial distance is less than the first predetermined radial distance.
- 14. The fuel injector according to claim 10, wherein the second orifice plate openings are non-circular.
- 15. The fuel injector according to claim 10, wherein a plane of each of the first and second orifice plates is generally perpendicular to the longitudinal axis.
- 16. The fuel injector according to claim 10, wherein at least one of the first, second, and third orifice plates is constructed from a metal.
- 17. A method of accelerating a velocity of fuel through a fuel injector having a longitudinal axis and a multi-layer orifice plate assembly disposed proximate a valve seat, the method comprising:directing the fuel through openings in a top orifice plate disposed between the valve seat and a bottom orifice plate, the openings in the top orifice plate being generally arcuate with respect to the longitudinal axis; directing the fuel into a space between the top orifice plate and a bottom orifice plate; and directing the fuel through openings in the bottom orifice plate, the openings in the bottom orifice plate being closer to the longitudinal axis than the openings in the top orifice plate.
- 18. The method according to claim 17, further comprising the step of providing a spacer orifice plate between the top orifice plate and the bottom orifice plate, the spacer orifice plate having an opening in fluid communication with the openings in the top orifice plate and the openings in the bottom orifice plate.
- 19. The method according to claim 17, wherein the openings in the bottom orifice plate define a generally radial pattern about the longitudinal axis.
- 20. A fuel injector comprising:a housing having an inlet, an outlet and a longitudinal axis extending therethrough; a seat disposed proximate to the outlet, the seat including a sealing surface and a passage extending therethrough; a needle being reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the seat, precluding fuel flow past the needle; a multi-layer orifice plate assembly located at the housing outlet, the orifice plate assembly including: a first orifice plate having at least a plurality of first openings extending therethrough; and a second orifice plate separate from the first orifice plate, the second orifice plate having a plurality of second openings extending therethrough each being spaced a second predetermined radial distance from the longitudinal axis, the plurality of first openings and the plurality of second openings being fluidly connected by at least one channel; and a virtual extension sealing surface forming a virtual circle on the first and second plates such that the plurality of the first openings are outside the virtual circle on the first plate and the plurality of the second openings are outside the virtual circle on the second plate.
- 21. A fuel injector comprising:a housing having an inlet, an outlet and a longitudinal axis extending therethrough; a seat disposed proximate the outlet, the seat including a sealing surface and a passage extending therethrough; a needle being reciprocally located within the housing along the longitudinal axis between a first position wherein the needle is displaced from the seat, allowing fuel flow past the needle, and a second position wherein the needle is biased against the seat precluding flow past the needle; a multi-layer orifice plate assembly located at the housing outlet, the orifice plate assembly including: a first orifice plate having at least a plurality of first openings extending therethrough, the plurality of first openings each being spaced a first predetermined radial distance from the longitudinal axis; a second orifice plate separate from the first orifice plate, the second orifice plate having a plurality of second openings extending therethrough each being spaced a second predetermined radial distance from the longitudinal axis, the second predetermined radial distance being less than the first predetermined radial distance, the plurality of first openings and the plurality of second openings being fluidly connected by at least one channel; and a third orifice plate located between the first orifice plate and the second orifice plate, the third orifice plate being separate from the first and second orifice plates, the third orifice plate including a third orifice plate central opening extending therethrough along the longitudinal axis, the third orifice plate central opening fluidly connecting the plurality of first and second openings; and a virtual extension of the sealing surface forming a virtual circle on the first and second plates such that the plurality of the first openings are outside the virtual circle on the first plate and the plurality of the second openings are outside the virtual circle on the second plate.
- 22. The fuel injector of claim 21, wherein the arcuate openings are located outside the virtual circle and the central opening is located within the virtual circle.
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims the benefit of U.S. Provisional Application No. 60/159,229, filed Oct. 13, 1999.
US Referenced Citations (21)
Foreign Referenced Citations (2)
Number |
Date |
Country |
4025941 |
Feb 1992 |
DE |
0 314 285 |
May 1989 |
EP |
Provisional Applications (1)
|
Number |
Date |
Country |
|
60/159229 |
Oct 1999 |
US |