Methods of forming angled orifices in an orifice plate

Metal deforming – With cutting – By shearing tool-couple

Reexamination Certificate

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C029S890142, C029S896600, C029S557000, C219S149000

Reexamination Certificate

active

06789406

ABSTRACT:

BACKGROUND OF THE INVENTION
Most modern automotive fuel systems utilize fuel injectors to provide precise metering of fuel for introduction into each combustion chamber. Additionally, the fuel injector atomizes the fuel during injection, breaking the fuel into a large number of very small particles, increasing the surface area of the fuel being injected, and allowing the oxidizer, typically ambient air, to more thoroughly mix with the fuel prior to combustion. The precise metering and atomization of the fuel reduces combustion emissions and increases the fuel efficiency of the engine.
An electro-magnetic fuel injector typically utilizes a solenoid assembly to supply an actuating force to a fuel-metering valve. Typically, the fuel metering valve is a plunger-style needle valve which reciprocates between a closed position, where the needle is seated in a valve seat to prevent fuel from escaping through a metering orifice into the combustion chamber, and an open position, where the needle is lifted from the valve seat, allowing fuel to discharge through the metering orifice for introduction into the combustion chamber.
Fuel flowing through a fuel injector typically exits at an outlet end of the fuel injector. The outlet end is believed to have a disk or plate with at least one orifice to control, in part, the spray pattern and the direction of the fuel exiting the fuel injector.
An orifice extending along an axis perpendicular to a surface of a work piece (i.e. a straight orifice) is believed to be formed by drilling or by punching through the work piece. One method of drilling is by electric discharge machining (EDM) that can form orifices of 150 to 200 microns in diameter. It is believed that one of the many disadvantages of EDM is the fact that the holes are typically formed without any favorable entry or exit geometry for the orifices, thereby affecting the flow through the orifices. Another method is by laser machining the orifices on the work piece or the plate. Yet another method can be by stamping or punching the orifices and then coining each edge of the orifice. However, it is believed that the orifices formed by these methods do not allow for spray targeting of the fuel as the fuel leaves the orifices of the injector.
In order to target the fuel spray, it is believed that orifices can be angled to a desired angle relative to a longitudinal axis of the fuel injector. Such angled orifices can be formed by any of the above methods, albeit at, it is believed, a much greater cost than a straight orifice. Another method utilizes dimpling a portion of the work piece on which a straight orifice has already been formed with a right circular cone. However, it is believed that such dimpled orifice plate increases a sac volume between the fuel injector closure tip and the orifice plate. This increased sac volume, during a non-injection event, causes fuel to remains in the sac that vaporizes and causes rich/lean shifts and hot start issues, which are undesirable.
SUMMARY OF THE INVENTION
Briefly, the present invention provides several methods of forming angled orifices in a workpiece with a plurality of angled orifices.
The present invention provides for one method of forming orifices in a metal sheet, each having an oblique axis relative to at least one of a first surface and a second surface of a metal sheet. In one preferred embodiment, the method can be achieved by punching the metal sheet in a first direction along a first axis perpendicular to one of the first and second surfaces of the metal sheet with a first tool piece so as to form a first orifice, the first orifice defining an opening having wall surfaces parallel to the first axis; and punching the metal sheet with the first tool piece proximate the first orifice in the first direction along a second axis parallel and offset to the first axis so as to form a first wall surface of the first orifice extending between the first and second surfaces of the metal sheet oblique to the first axis.
The present invention also provides for another method of forming a plurality of orifices for an orifice plate. The orifice plate has a first plate surface and a second plate surface spaced from the first plate surface. In a preferred embodiment, the method can be achieved by providing a first tool head, a second tool head, a plurality of orifices extending between the first and second plate surfaces of the plate along a longitudinal axis perpendicular to at least one of the first and second surfaces, each of the plurality of orifices having wall surfaces parallel to the longitudinal axis and intersecting the first and second plate surfaces so as to define an edge of the orifice; moving one of the first tool head and the plate in a first direction along the longitudinal axis into one of the first a second plate surfaces at a location proximate an edge of each of the plurality of orifices so as to cause a first portion of the wall surfaces to extend in a first oblique direction relative to the longitudinal axis; and moving the other of the second tool head and the plate in a second direction along the longitudinal axis into the other of the first and second plate surfaces at a location proximate an edge of each of the plurality of orifices so as to cause a second portion of the wall surfaces to extend in a second oblique direction relative to the longitudinal axis.


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