Claims
- 1. In a fuel injection system for providing combustible fuel to a cylinder of an internal combustion engine, a check valve comprising:
- a housing;
- a fluid passage extending through said housing, at least a portion of said passage having a predetermined cross-sectional area;
- a valve member displaceably positioned in said portion of said fluid passage having said predetermined cross-sectional area, said valve member being displaceable between a closed position in which it engages a valve seat provided in said housing and a fully open position downstream of said valve seat in a fuel flow direction;
- positioning means for positioning said valve member with respect to said portion of said passage having said predetermined cross-sectional area; and
- a biasing means for applying a closure force to said valve member in a direction toward said valve seat;
- wherein a maximum diameter of said valve member is related to said predetermined cross-sectional area of said fluid passage in a manner producing a flow metering orifice of a predetermined size (Ao) between said valve member and said passage when said valve member is in said fully open position;
- wherein a ratio of a flow-through area of a valve opening of the valve seat to a maximum cross-sectional area of the valve member (As/Av ratio) is set large enough to form a means for producing a bi-stable positioning of the valve member in said fully open position when said closure force of the biasing means is overcome by fluid pressure at said valve seat and positioning said valve member in said closed position otherwise; and
- wherein when said As/Av ratio, a ratio of said orifice area to said area of the valve opening of the valve seat area (Ao/As ratio), and a ratio of a valve spring preload distance to a seat diameter (d/Ds ratio) are plotted on a three dimensional graph representing a surface defined by a variance of said ratios, the resulting plotted being above the defined surface.
- 2. The fuel injection system as defined in claim 1, wherein the valve member is a ball; wherein said positioning means comprises a ball stop which is provided in said fluid passage downstream of the ball; wherein said biasing means acts on said ball in a direction away from said ball stop, said ball engaging the ball stop in said fully open position.
- 3. The fuel injection system as defined in claim 2, wherein said ball stop is positioned within said fluid passage and includes a retainer portion for retaining said biasing means.
- 4. The fuel injection system as defined in claim 3, wherein said biasing means is a compression spring and at least a portion of said compression spring is received in said retainer.
- 5. The fuel injection system as defined in claim 4, wherein said retainer includes a plurality of axially extending abutment sections which contact said fluid passage for maintaining said retainer in position in said fluid passage while permitting a flow of fluid therethrough.
- 6. The fuel injection system as defined in claim 5, wherein an upstream end of each of said axially extending abutment sections includes a tapered surface which compliments a surface of said ball, such that said ball is stabilized by said tapered surfaces and lateral movement of said ball is restricted.
- 7. The fuel injection system as defined in claim 1, wherein said positioning means is biased against said valve member by said biasing means for axially positioning said valve member within said predetermined cross-sectional area during displacement thereof.
- 8. The fuel injection system as defined in claim 7, wherein said valve member is a ball and a first surface of said positioning means is complementary to an outer surface of said ball.
- 9. The fuel injection system as defined in claim 6, further comprising a central bore formed in said retainer and an axially extending pin extending from said ball, wherein said pin extends into and is received by said bore for maintaining the stability of said ball when moving from a closed position to an open position.
- 10. The fuel injection system as defined in claim 1, wherein said housing is a cartridge body containing said valve member and said biasing means, said housing forming said valve seat and said portion of said passage having said predetermined cross-sectional area.
- 11. The fuel injection system as defined in claim 10, wherein said valve member is a ball disposed in said cartridge body within said portion of said passage having said predetermined cross-sectional area, said ball engaging said valve seat at a downstream side thereof.
- 12. The fuel injection system as defined in claim 1, wherein said valve member is plunger valve element having a plunger head within said portion of said passage having said predetermined cross-sectional area, said plunger head sealingly engaging said valve seat at a downstream side thereof; wherein a plunger stem extends from said plunger head, through said valve opening to an upstream end portion of the cartridge body, said biasing means acting said plunger stem in an upstream direction; and wherein the maximum cross-sectional area of the valve member is formed on said plunger head.
- 13. The fuel injection system as defined in claim 1, wherein said fuel injection system comprises a unit fuel injector, said check valve being disposed within a valve receiving bore of the fuel injector.
- 14. The fuel injection system as defined in claim 13, wherein said unit fuel injector is an open nozzle fuel injector and said check valve is disposed in a timing fluid flow passage of an outer barrel of the fuel injector.
- 15. The fuel injection system as defined in claim 14, wherein said valve member is a ball disposed within said portion of said passage having said predetermined cross-sectional area, said ball engaging said valve seat at a downstream side thereof.
- 16. The fuel injection system as defined in claim 14, wherein said housing is a cartridge body containing said valve member and said biasing means, said housing forming said valve seat and said portion of said passage having said predetermined cross-sectional area.
- 17. The fuel injection system as defined in claim 13, wherein said unit fuel injector is an open nozzle fuel injector and said check valve is disposed in a fuel metering flow passage of a lower barrel of the fuel injector.
- 18. The fuel injection system as defined in claim 17, wherein said valve member is plunger valve element having a plunger head within said portion of said passage having said predetermined cross-sectional area, said plunger head sealingly engaging said valve seat at a downstream side thereof; wherein a plunger stem extends from said plunger head, through said valve opening to an upstream end portion of the cartridge body, said biasing means acting said plunger stem in an upstream direction; and wherein the maximum cross-sectional area of the valve member is formed on said plunger head.
- 19. The fuel injection system as defined in claim 17, wherein said housing is a cartridge body containing said valve member and said biasing means, said housing forming said valve seat and said portion of said passage having said predetermined cross-sectional area.
- 20. The fuel injection system as defined in claim 8, wherein a ball stop is provided in said fluid passage downstream of the ball; wherein said retainer includes a plurality of axially extending abutment sections which contact said fluid passage for maintaining said retainer in position in said fluid passage while permitting a flow of fluid therethrough; wherein said biasing means acts on said ball in a direction away from said ball stop, said ball engaging the ball stop in said fully open position; wherein an upstream end of each of said axially extending abutment sections includes a tapered surface which compliments a surface of said ball, such that said ball is stabilized by said tapered surfaces and lateral movement of said ball is restricted; and wherein a second surface of said positioning means is complementary to said tapered surface of said abutment sections.
- 21. In a fuel injection system, a check valve comprising:
- a housing;
- a fluid passage extending through said housing, at least a portion of said passage having a predetermined cross-sectional area;
- a valve member displaceably positioned in said portion of said fluid passage having said predetermined cross-sectional area, said valve member being displaceable between a closed position in which it engages a valve seat provided in said housing and a fully open position downstream of said valve seat in a fuel flow direction;
- positioning means for positioning said valve member with respect to said portion of said passage having said predetermined cross-sectional area; and
- a biasing means for applying a closure force to said valve member in a direction toward said valve seat;
- wherein a maximum diameter of said valve member is related to said predetermined cross-sectional area of said fluid passage in a manner producing a flow metering orifice of a predetermined size between said valve member and said passage when said valve member is in said fully open position; and
- wherein a ratio of a flow-through area of a valve opening of the valve seat to a maximum cross-sectional area of the valve member is set large enough to form a means for producing a bi-stable positioning of the valve member in said fully open position when said closure force of the biasing means is overcome by fluid pressure at said valve seat and positioning said valve member in said closed position otherwise;
- wherein said positioning mean is biased against said valve member by said biasing means for axially positioning said valve member within said predetermined cross-sectional area during displacement thereof;
- wherein said valve member is a ball and a first surface of said positioning means is complementary to an outer surface of said ball; and
- wherein a ball stop is provided in said fluid passage downstream of the ball; wherein said retainer includes a plurality of axially extending abutment sections which contact said fluid passage for maintaining said retainer in position in said fluid passage while permitting a flow of fluid therethrough; wherein said biasing means acts on said ball in a direction away from said ball stop, said ball engaging the ball stop in said fully open position; wherein an upstream end of each of said axially extending abutment sections includes a tapered surface which compliments a surface of said ball, such that said ball is stabilized by said tapered surfaces and lateral movement of said ball is restricted; and wherein a second surface of said positioning means is complementary to said tapered surface of said abutment sections.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of U.S. patent application Ser. No. 08/354,063, filed Dec. 6, 1994 now abandoned.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/US95/15873 |
12/6/1995 |
|
|
12/8/1997 |
12/8/1997 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO96/18033 |
6/13/1996 |
|
|
US Referenced Citations (6)
Foreign Referenced Citations (2)
Number |
Date |
Country |
1135124 |
Aug 1962 |
DEX |
1232849 |
May 1991 |
GBX |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
354063 |
Dec 1994 |
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