Internal-combustion engines – Charge forming device – Fuel injection system
Reexamination Certificate
2003-11-26
2004-10-26
Lo, Weilun (Department: 3747)
Internal-combustion engines
Charge forming device
Fuel injection system
C123S506000, C123S511000, C251S129020, C251S129070
Reexamination Certificate
active
06807943
ABSTRACT:
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not Applicable
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to fuel injection systems for internal combustion engines, and particularly to valves for controlling pressure of fuel delivered to injector valves in the engine.
2. Description of the Related Art
For many decades gasoline internal combustion engines used a carburetor to mix fuel with incoming air. The resulting air/fuel mixture was distributed through an intake manifold and mechanical intake valves to each of the engine cylinders. Multi-port fuel injection systems have replaced the carburetion systems for most engines. A multi-port fuel injection system has a separate fuel injector valve which injects gasoline under pressure into the intake port at each cylinder where the gasoline mixes with air flowing into the cylinder. Even with multi-port fuel injection, there are limits to the fuel supply response and combustion control which can be achieved.
More recently a third approach to supplying fuel into the engine cylinders has been devised. Known as “gasoline direct injection” or “GDI”, this techniques injects the fuel directly into the combustion cylinder through a port that is separate from the air inlet passage. Thus the fuel does not premix with the incoming air, thereby allowing more precise control of the amount of fuel supplied to the cylinder and the point during the piston stroke at which the fuel is injected. Specifically, when the engine operates at higher speeds or higher loads, fuel injection occurs during the intake stroke which optimizes combustion under those conditions. During normal driving conditions, fuel injection happens at a latter stage of the compression stroke and provides an ultra-lean air to fuel ratio for relatively low fuel consumption. Because the fuel may be injected while high compression pressure exists in the cylinder, gasoline direct injection requires that the fuel be supplied to the injector valve at a relatively high pressure, for example 100 times that used in multi-port injection systems.
There are periods when all of the injector valves are closed and thus the gasoline in the conduit, known as the fuel supply rail, between the outlet passage of the fuel pump and cylinders has no place to go. This has not presented a significant problem in prior fuel systems that operated at lower pressure. However, at the significantly greater pressure of the gasoline direct injection system, the fuel system components down stream of the fuel pump must be capable of withstanding that pressure. In addition, a very high back pressure load occurs at the fuel pump at those times.
Therefore it is desirable to provide a mechanism for maintaining a consistent pressure level in the section of the fuel system that is downstream of the fuel pump outlet passage even as the injector valves open and close.
SUMMARY OF THE INVENTION
A direct injection fuel delivery system for a motor vehicle includes a pump with an inlet connected to a fuel supply and an outlet which supplies the liquid fuel at a high pressure. A common fuel rail coupled to the outlet of the pump and at least one fuel injector nozzle connected to the common fuel rail. A flow control valve is connected between the inlet and the outlet of the pump to selectively provide a fluid path there between.
The flow control valve comprises a valve stem, a valve element, and a solenoid actuator. The valve stem has a bore with a valve seat at one end and has an inlet port that opens into the bore. The inlet of the pump communicates with the one end of the bore and the outlet of the pump communicates with the inlet port. The valve element is received within the bore and selectively engages the valve seat to control flow of fluid between the inlet and the outlet of the pump. The valve element has an exterior groove in communication with the inlet port. The exterior groove has a first surface proximate to the valve seat and a second surface remote from the valve seat. The first surface is larger than the second surface so that pressure in the exterior groove tends to move the valve element away from the valve seat. The solenoid actuator is operatively coupled to the valve element so that activation of the solenoid actuator moves the valve element toward the valve seat.
To ensure high speed operation of the flow control valve, components of the solenoid actuator preferably are fabricated from a soft magnetic composite material. This material provides a non-electrically conductive path for the magnetic flux, thereby reducing the eddy currents that slow build-up of the magnetic flux and thus the speed of the actuator.
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Bacon Kathryn I.
Layne Michael
VanWeelden Curtis L.
Haas George E.
Husco International Inc.
Lo Weilun
Quarles & Brady LLP
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