Claims
- 1. In combination with a four stroke cycle internal combustion engine wherein there is included a cylinder block having at least one cylinder, a piston in the cylinder with a reciprocating stroke volume of predetermined size, a cylinder head formed to provide a main combustion chamber closed at one end and opening into the stroke volume of the cylinder at the other end, means for supplying a fuel-rich mixture to the main combustion chamber during the intake stroke of the piston, said intake stroke followed by a compression stroke wherein the piston moves to minimize the volume in the main combustion chamber compressing the fuel-rich mixture, means for igniting the fuel-rich mixture near the top dead center position of the piston to bring about a power stroke preceded by a flame front propagation across the main chamber from an ignition point, means for purging the main combustion chamber through an exhaust port during the exhaust stroke of the piston, the improvement which comprises:
- a Helmholtz resonator cavity of invariable volume in communication with the main combustion chamber of said cylinder via a constricted slot, said slot defined by an opening into said combustion chamber and a lip from the opening into said cavity, said slot being small enough in width so that the flame in the main combustion chamber is quenched in the opening, said slot being at least a half wavelength long and providing a cross-sectional area large enough to permit the free flow of gas between the main combustion chamber and the cavity without a pressure drop at the conclusion of the compression stroke, the depth of the lip being sized in fractions of the wavelength of the propagation velocity of said flame front, the depth of said resonator cavity being sized in multiples or fractions of a wavelength to provide substantially other than 180 degrees of phase difference between the entering wave and the reflected wave; and
- means for supplying air to said resonator cavity during the intake stroke of the piston.
- 2. A combination as described in claim 1 where the igniting means is the spark plug and the depth of the lip is less than 0.1 times the wavelength of the flame propagation frequency.
- 3. The invention as described in claim 2 wherein the depth of the resonator cavity is sized to be one eighth wavelength thereby providing 90 degrees of phase difference between the entering wave and the reflected wave.
- 4. A combination as described in claim 1 wherein the entire length of said slot is subjected to substantially constant pressure from said pressure wave front immediately after ignition of said fuel-rich mixture in said main chamber.
- 5. A combination as described in claim 1 where said cylinder head is spherical and said slot is arcuate having its center line along an arc of equal radius with respect to said ignition point.
- 6. In combination with a four stroke cycle internal combustion engine wherein there is included a cylinder block having at least one cylinder, a piston in the cylinder with a reciprocating stroke volume of predetermined size, a cylinder head formed to provide a main combustion chamber closed at one end and opening into the stroke volume of the cylinder at the other end, means for supplying an air charge to the main combustion chamber during the intake stroke of the piston, means for injecting a metered quantity of fuel into the air charge within the main combustion chamber, said intake stroke followed by a compression stroke wherein the piston moves to minimize the volume in the main combustion chamber compressing the charge, means for igniting the fuel-air mixture near the top dead center position of the piston to bring about a power stroke preceded by a flame front propagation across the main chamber from an ignition point, means for purging the main combustion chamber through an exhaust port during the exhaust stroke of the piston, the improvement which comprises:
- a Helmholtz resonator cavity of invariable volume in communication with the main combustion chamber of said cylinder via a constricted slot, said slot defined by an opening into said combustion chamber and a lip from the opening into said cavity, said slot being small enough in width so that the flame in the main combustion chamber is quenched in the opening, said slot being at least a half wavelength long and providing a cross-sectional area large enough to permit the free flow of gas between the main combustion chamber and the cavity without a substantial pressure difference remaining at the conclusion of the compression stroke, the depth of the lip being sized in fractions of the wavelength of the propagation velocity of said flame front, the depth of said resonator cavity being sized in multiples of fractions of a wavelength to provide substantially other than 180 degrees of phase difference between the entering wave and the reflected wave.
- 7. The invention as described in claim 6 where the igniting means is the spark plug and the depth of the lip is less than 0.1 times the wavelength of the flame propagation frequency.
- 8. A combination as described in claim 7 wherein the entire length of said slot is subjected to substantially constant pressure from said pressure wave front immediately after ignition of the fuel-air charge in said main combustion chamber.
BACKGROUND OF THE INVENTION
This invention relates to an internal combustion engine having reduced emissions of nitrogen oxides. This application is a continuation-in-part of my application Ser. No. 927,214, filed July 24, 1978, and now U.S. Pat. No. 4,167,930 assigned to Avco Corporation, assignee of the present invention.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
3987776 |
Goto et al. |
Oct 1976 |
|
4060059 |
Bodine, Jr. |
Nov 1977 |
|
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
927214 |
Jul 1978 |
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