Internal-combustion engines – Charge forming device – Fuel injection system
Reexamination Certificate
2002-11-05
2004-07-13
Gimie, Mahmoud (Department: 3747)
Internal-combustion engines
Charge forming device
Fuel injection system
C138S030000
Reexamination Certificate
active
06761150
ABSTRACT:
FIELD OF THE INVENTION
The field of the present invention is fuel rails for internal combustion engines and in particular, fuel rails for reciprocating piston, spark-ignited internal combustion engines.
BACKGROUND OF THE INVENTION
In the past three decades, there have been major technological efforts to increase the fuel efficiency of automotive vehicles. One technical trend to improve fuel efficiency has been to reduce the overall weight of the vehicle. A second trend to improve fuel efficiency has been to improve the aerodynamic design of a vehicle to lower its aerodynamic drag. Still another trend is to address the overall fuel efficiency of the engine.
Prior to 1970, the majority of production vehicles with a reciprocating piston gasoline engine had a carburetor fuel supply system in which gasoline is delivered via the engine throttle body and is therefore mixed with the incoming air. Accordingly, the amount of fuel delivered to any one cylinder is a function of the incoming air delivered to a given cylinder. Airflow into a cylinder is effected by many variables including the flow dynamics of the intake manifold and the flow dynamics of the exhaust system.
To increase fuel efficiency and to better control exhaust emissions, many vehicle manufacturers went to port fuel injection systems, where the carburetor was replaced by a fuel injector that injected the fuel into a port which typically served a plurality of cylinders. Although port fuel injection is an improvement over the prior carburetor fuel injection system, it is still desirable to further improve the control of fuel delivered to a given cylinder. In a step to further enhance fuel delivery, many spark ignited gasoline engines have gone to a system wherein there is supplied a fuel injector for each individual cylinder. The fuel injectors receive their fuel from a fuel rail, which is typically connected with all or half of the fuel injectors on one bank of an engine. Inline
4
,
5
and
6
cylinder engines typically have one bank. V-block type
6
,
8
,
10
and
12
cylinder engines have two banks.
One critical aspect of a fuel rail application is the delivery of a precise amount of fuel at a precise pressure. In an actual application, the fuel is delivered to the rail from the fuel pump in the vehicle fuel tank. At an engine off condition, the pressure within the fuel rail is typically 45 to 60 psi. When the engine is started, a typical injector firing of 2-50 milligrams per pulse momentarily depletes the fuel locally in the fuel rail. Then the sudden closing of the injector creates a pressure pulse back into the fuel rail. The injectors will typically be open 1.5-20 milliseconds within a period of 10-100 milliseconds.
The opening and closing of the injectors creates pressure pulsations (typically 4-10 psi peak-to-peak) up and down the fuel rail, resulting in an undesirable condition where the pressure locally at a given injector may be higher or lower than the injector is ordinarily calibrated to. If the pressure adjacent to the injector within the fuel rail is outside a given calibrated range, then the fuel delivered upon the next opening of the injector may be higher or lower than that preferred. Pulsations are also undesirable in that they can cause noise generation. Pressure pulsations can be exaggerated in a returnless delivery system where there is a single feed into the fuel rail and the fuel rail has a closed end point.
To reduce undesired pulsations within the fuel rails, many fuel rails are provided with added pressure dampeners. Dampeners with elastomeric diaphragms can reduce peak-to-peak pulsations to approximately 1-3 psi. However, added pressure dampeners are sometimes undesirable in that they add extra expense to the fuel rail and also provide additional leak paths in their connection with the fuel rail or leak paths due to the construction of the dampener. This is especially true with new Environmental Protection Agency hydrocarbon permeation standards, which are difficult to satisfy with standard O-ring joints and materials. It is desirable to provide a fuel rail wherein pressure pulsations are reduced while minimizing the need for dampeners.
SUMMARY OF THE INVENTION
To make manifest the above-noted and other manifold desires, a revelation of the present invention is brought forth. In a preferred embodiment, the present invention provides a fuel rail for a plurality of fuel injectors. The fuel rail includes an elongated inlet tube which receives pressurized fuel. The inlet tube is encircled by an outer tube which forms a control volume enclosing the inlet tube. Fluid from within the inlet tube passes through an orifice into the outer tube. The outer tube is fluidly connected with the injectors via injector outlets.
The present invention provides a fuel rail which provides dampening characteristics which minimizes or eliminates any requirement for separate fluid dampeners to be added to the fuel rail.
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Dykema Gossett PLLC
Gimie Mahmoud
Millennium Industries Corp.
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