Claims
- 1. A pump-line-nozzle fuel injection system comprising a high pressure inline fuel pump having a plurality of high pressure pumping cylinder units, each of which comprises a plunger assembly reciprocatingly mounted within a cylinder bore, and a low pressure fuel supply pump connected to each cylinder;
- wherein each plunger assembly comprises a timing plunger, a floating metering plunger, and a cam for driving said timing plunger, a variable volume timing chamber being defined in said cylinder bore between an end of the timing plunger and a first end of the metering plunger, and a variable volume metering chamber being defined in said cylinder bore between a second end of the metering plunger and a delivery valve at an outlet end of the respective cylinder;
- wherein said supply pump is connected to a group of said high pressure pumping cylinder units via a fueling solenoid valve means for controlling flow to the metering chamber of the high pressure pumping cylinder units of said group via a fuel supply branch of a fuel supply flow path from the supply pump containing a check valve between the fueling solenoid means and each metering chamber in a manner enabling a flow of fuel to enter said metering chamber during a retraction stroke of the plunger assembly; wherein said timing chamber is connected to a supply of timing fluid via a timing flow path containing a timing solenoid valve means for controlling flow to the timing chamber of the high pressure pumping cylinder units of said group via a second check valve located between the timing solenoid valve means and each timing chamber in a manner enabling a flow of timing fluid to enter said timing chamber during the retraction stroke of the plunger assembly;
- wherein electronic control means is provided for opening and closing said fueling and timing solenoid valve means for providing a required amount of fuel to said metering chamber and a required amount of timing fluid to said timing chamber during the retraction stroke of the plunger assembly of each of the pumping cylinder units of the group; wherein said delivery valve is responsive to the pressure of fuel in said metering chamber for enabling delivery of fuel to a respective fuel injector via a high pressure delivery line when the pressure of fuel in said metering chamber exceeds a predetermined value during a compression stroke of the plunger assembly; and
- wherein the cams for the high pressure pumping cylinder units of said group are configured relative to each other as a means for producing injection of fuel from each pumping cylinder by compression of fuel in said metering chamber and for producing the retraction stroke of each plunger assembly of the group while all of the other plunger assemblies of the group are in a maximally inwardly displaced, end of the compression stroke position.
- 2. A pump-line-nozzle fuel injection system according to claim 1, wherein said timing fluid flow path is a branch of said fuel supply flow path by which fuel is supplied to said timing chamber as said timing fluid.
- 3. A pump-line-nozzle fuel injection system according to claim 2, wherein a check valve is disposed between each metering chamber and the fueling solenoid with which it is grouped and a check valve is disposed between each timing chamber and the timing solenoid with which it is grouped, said check valves serving as a means for preventing return flow from said metering and timing chambers.
- 4. A pump-line-nozzle fuel injection system according to claim 3, wherein said timing plunger has a larger diameter than said metering plunger.
- 5. A pump-line-nozzle fuel injection system according to claim 4, wherein the diameter of the timing plunger is approximately one-third larger than the diameter of the metering plunger.
- 6. A pump-line-nozzle fuel injection system according to claim 1, wherein said timing plunger has a larger diameter than said metering plunger.
- 7. A pump-line-nozzle fuel injection system according to claim 6, wherein the diameter of the timing plunger is approximately one-third larger than the diameter of the metering plunger.
- 8. A pump-line-nozzle fuel injection system according to claim 1, wherein a common drain line is connected to all of the fuel injectors; and
- wherein a drain solenoid valve is disposed in said common drain line, said solenoid valve forming a pressure control means for creating a backpressure in said common drain line between injections and thereby increasing the initial pressure in said high pressure lines.
- 9. A pump-line-nozzle fuel injection system according to claim 8, wherein a check valve is disposed between each metering chamber and the fueling solenoid with which it is grouped and a check valve is disposed between each timing chamber and the timing solenoid with which it is grouped, said check valves serving as a means for preventing return flow from said metering and timing chambers.
- 10. A pump-line-nozzle fuel injection system according to claim 9, wherein said timing plunger has a larger diameter than said metering plunger.
- 11. A pump-line-nozzle fuel injection system according to claim 10, wherein the diameter of the timing plunger is approximately one-third larger than the diameter of the metering plunger.
- 12. A pump-line-nozzle fuel injection system according to claim 8, wherein a check valve is disposed between each metering chamber and the fueling solenoid with which it is grouped and a check valve is disposed between each timing chamber and the timing solenoid with which it is grouped, said check valves serving as a means for preventing return flow from said metering and timing chambers.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of commonly owned U.S. patent application Ser. No. 08/102,830, filed Aug. 6, 1993, now U.S. Pat. No. 5,377,636.
US Referenced Citations (9)
Foreign Referenced Citations (2)
Number |
Date |
Country |
442839 |
May 1934 |
GBX |
1306422 |
Feb 1973 |
GBX |
Non-Patent Literature Citations (1)
Entry |
SAE Publication No. SP-703, Recent Developments in Electronic Engine Control & Fuel Injection Management, paper Nos. 870433, 870434 and 870436, pp. 37-42, 43-51 and 65-77, published Feb., 1987. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
102830 |
Aug 1993 |
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