Claims
- 1. A fuel injection system for an engine having a combustion chamber, the injector system comprising:
- a fuel injector with a fuel injection cylinder and a hydraulic actuating cylinder, the injector having an injector piston slidable in the injection cylinder with an enlarged-head, amplifying piston slidable in the hydraulic actuating cylinder, the hydraulic actuating cylinder and amplifying piston defining a hydraulic actuating chamber, the enlarged-head amplifying piston having a diameter substantially greater than the injector piston;
- a hydraulic actuating module having a supply of hydraulic fluid with a hydraulic fluid feed conduit connected between the fluid supply and the hydraulic actuating chamber;
- activable valve means between the hydraulic fluid feed conduit and the actuating cylinder for selectively communicating the actuating chamber with the feed conduit, wherein the activatable valve means includes an electronically controlled slide valve with control mean, having processing means for processing cycle time and hydraulic pressure in the feed conduit, for selectively activating the valve and communicating the hydraulic fluid in the feed conduit with the actuating chamber at optimal cycle time and pressure; wherein the electronically controlled slide valve has positioning means for maintaining the slide valve in an open position when the pressure of hydraulic fluid in the actuating chamber is greater than the pressure of hydraulic fluid in the feed conduit, wherein the pressurized fluid in the actuating chamber returns energy to the fluid supply; and
- a hydraulic pulse pump having a pump cylinder with a slide piston dividing the pump cylinder into a first chamber having a passage in communication with the fluid feed conduit and a second chamber having a passage in communication with the combustion chamber wherein during operation the pressure of compression and combustion gases is transmitted to the hydraulic fluid by the hydraulic pulse pump.
- 2. The fuel injection system of claim 1 wherein the slide valve comprises a spool valve slidable in a valve guide with a central port, the spool valve having first and second end portions with a central enlargement that blocks the port when the valve is closed, wherein the positioning means of the slide valve comprises a dimensional difference in the first end portion relative to the second end portion, the first end portion being located on the fluid supply side of the port and the second end portion being located on the actuating chamber side of the port, wherein the second end portion has an effective diameter greater than the diameter of the first end portion.
- 3. The fuel injection system of claim 2 wherein the electronically controlled slide valve includes a solenoid wherein the second end portion of the spool valve is connected to the solenoid.
- 4. The fuel injection system of claim 3 wherein the solenoid includes a compression spring biasing the spool valve to a closed position.
- 5. The fuel injection system of claim 1 further comprising a fuel supply in communication with the injection cylinder, a nozzle with a fuel discharge orifice, a fuel conduit between the injection cylinder and the discharge orifice, and, multi-pulse generating means communicating with the fuel conduit for automatically producing a multi-pulse fuel discharge at the discharge orifice from a fuel pulse from the injection cylinder on displacement of the injector piston.
- 6. The fuel injection system of claim 1, further comprising a fuel supply in communication with the injection cylinder, a nozzle with a fuel discharge orifice, and a fuel conduit between the injection cylinder and the discharge orifice, wherein the discharge orifice has a divergent conical opening and wherein the nozzle includes a poppet valve with a poppet head that seats in the conical opening of the discharge opening, the poppet valve having spring bias means for biasing the poppet valve in a closed position in the conical opening.
- 7. The fuel injection system of claim 6 wherein the poppet valve has a valve stem connected to the poppet head and guide means on the valve stem for imparting a swirl to fuel discharged from the discharge orifice.
- 8. The fuel injection system of claim 5, further comprising:
- a fuel supply in communication with the injection cylinder, a nozzle with a fuel discharge orifice, a fuel conduit between the injection cylinder and the discharge orifice, wherein the discharge orifice has a divergent conical opening and wherein the nozzle includes a poppet valve with a poppet head that seats in the conical opening of the discharge opening, the poppet valve having spring bias means for biasing the poppet valve in a closed position in the conical opening.
- 9. The fuel injection system of claim 8 wherein:
- the poppet valve has a valve stem connected to the poppet head and guide means on the valve stem for imparting a swirl to fuel discharged from the discharge orifice.
- 10. The fuel injection system of claim 1 wherein the hydraulic actuating module includes a fluid bypass means for delivering an added volume of hydraulic fluid to the actuating chamber on activation of the electronically controlled slide valve.
- 11. The fuel injection system of claim 10 wherein the fluid bypass means comprises an orifice, and a poppet valve with a sealing end and a compression spring biasing the sealing end of the poppet valve against the orifice, the poppet valve being displaceable against the compression spring to open the orifice by fluid pressure against the sealing end, wherein activation of the electronically controlled slide valve allows hydraulic fluid from the fluid supply to contact the sealing end of the poppet valve and displace the poppet valve from the orifice.
- 12. In a fuel injector having a fuel input conduit connectable to a high pressure fuel supply, a nozzle having a fuel discharge conduit, a discharge orifice for discharging fuel from the injector, and, a fuel pulse control means for controlling delivery of a pulse of high pressure fuel from the fuel supply to the nozzle, the improvement comprising:
- a self-activated, multi-pulse module in the fuel injector between the fuel input conduit and the fuel discharge conduit, the module having a first and second cross passageways connecting the fuel input conduit and the fuel discharge conduit, the valve plunger having first and second cutaway portions selectively alignable with the first and second cross passageways on displacement of the valve plunger in the valve cylinder,
- a compression spring in the valve cylinder in contact with the valve plunger biasing the valve plunger to a first position wherein the first cutaway portion is aligned with the first cross passageway, wherein pressurized fuel flowing through the first passageway displaces the valve plunger against the compression spring aligning the second cross passageway with the second cutaway portion and blocking flow through the first cross passageway.
- 13. In a fuel injector having a fuel input conduit connectable to a high pressure fuel supply, a nozzle having a fuel discharge conduit, a discharge orifice for discharging fuel from the injector, and, a fuel pulse control means for controlling delivery of a pulse of high pressure fuel from the fuel supply to the nozzle, the improvement comprising:
- a poppet valve controlling discharge of fuel in the fuel discharge conduit to the discharge orifice, the poppet valve having a conical head with a conical seating shoulder and the discharge orifice having a conical poppet seat downstream of said discharge orifice, wherein the conical shoulder has an angle and the conical seat has an angle, and the angle of the conical shoulder matches the angle of the conical seat and, guide means in the discharge conduit of the nozzle for imparting a rotary motion to fuel discharged from the discharge orifice, wherein on displacement of the conical head from the conical seat, a uniform flared gap is formed that generates a conical spray from the discharge orifice that is imparted a rotary motion by the guide means.
- 14. The improved fuel injector of claim 13, wherein the poppet valve has a valve stem in the discharge conduit and the guide means comprises a fluted vortex structure attached to the valve stem proximate the discharge orifice through which discharging fuel flows.
- 15. The improved fuel injector of claim 14 wherein the injector includes hydraulic actuator means for timed actuation of the poppet valve.
Parent Case Info
The invention is a continuation-in-part prior application, "Self Injection Systems", Ser. No. 08/607,945 filed Feb. 28, 1996, now U.S. Pat. No. 5,685,272, issued Nov. 11, 1997.
US Referenced Citations (8)
Continuation in Parts (1)
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607945 |
Feb 1996 |
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