IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0246208
(2005-10-11)
|
우선권정보 |
JP-2004-298641(2004-10-13) |
발명자
/ 주소 |
- Shiraishi,Taisuke
- Hiraya,Koji
- Hotta,Isamu
- Tanaka,Daisuke
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
48 인용 특허 :
5 |
초록
▼
An exhaust emission control apparatus for an internal combustion engine includes a fuel injection valve placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cav
An exhaust emission control apparatus for an internal combustion engine includes a fuel injection valve placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cavity formed in a bottom surface of the outer cavity; an ignition plug placed in a region right above the outer cavity; an exhaust purifying catalyst provided in an exhaust passage of the engine; and a controller. This controller is configured to carry out a stratified charge combustion when a temperature rise for the exhaust purifying catalyst is required, by forming air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited by the ignition plug, within the outer cavity and in an area substantially right above the outer cavity, from a fuel injected through the fuel injection valve.
대표청구항
▼
What is claimed is: 1. An exhaust emission control apparatus for an internal combustion engine, comprising: a fuel injection valve placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of
What is claimed is: 1. An exhaust emission control apparatus for an internal combustion engine, comprising: a fuel injection valve placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cavity formed in a bottom surface of the outer cavity; an ignition plug placed in a region right above the outer cavity; an exhaust purifying catalyst provided in an exhaust passage of the engine; and a controller configured to carry out a stratified charge combustion when a temperature rise for the exhaust purifying catalyst is required, by forming an air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited by the ignition plug, within the outer cavity and in an area substantially right above the outer cavity, from a fuel injected through the fuel injection valve. 2. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to carry out the stratified charge combustion normally under relatively high load driving condition of a predetermined driving condition in which the stratified charge combustion is carried out, by injecting fuel during a compression stroke and forming a combustible air-fuel mixture within the outer cavity and in the area substantially right above the outer cavity, and configured to carry out the stratified charge combustion normally under relatively low load driving condition of the predetermined driving condition, by injecting fuel during the compression stroke and forming the combustible air-fuel mixture within the inner cavity and in an area substantially right above the inner cavity; and wherein the controller is configured to carry out the stratified charge combustion when the temperature rise for the exhaust purifying catalyst is required under the relatively low load driving condition, by injecting fuel during the compression stroke and forming the air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited, within the outer cavity and in the area substantially right above the outer cavity. 3. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to reduce an intake air quantity for the engine when the temperature rise for the exhaust purifying catalyst is required, as compared to the intake air quantity for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required. 4. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to increase a fuel injection quantity when the temperature rise for the exhaust purifying catalyst is required, as compared to the fuel injection quantity for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required. 5. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to set an average air/fuel ratio within the combustion chamber to range from stoichiometric to weakly lean, when the temperature rise for the exhaust purifying catalyst is required under a driving condition in which the stratified charge combustion is carried out. 6. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to set a time interval between a fuel injection timing and a ignition timing to be longer than the time interval for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required, when the temperature rise for the exhaust purifying catalyst is required. 7. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to set an ignition timing to be more retarded than the ignition timing for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required, when the temperature rise for the exhaust purifying catalyst is required under a driving condition in which the stratified charge combustion is carried out. 8. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to precedently inject a portion of a fuel injection quantity during a suction stroke in a split form, when the temperature rise for the exhaust purifying catalyst is required. 9. The exhaust emission control apparatus as claimed in claim 1, wherein the controller is configured to inject a portion of a fuel injection quantity into the inner cavity during the latter half of a compression stroke, when the temperature rise for the exhaust purifying catalyst is required. 10. The exhaust emission control apparatus as claimed in claim 1, wherein if a fuel pressure is lower than a required predetermined fuel pressure, the controller is configured to set an ignition timing to be more advanced in accordance with the fuel pressure than the ignition timing of the case where the fuel pressure is equal to or higher than the required predetermined fuel pressure, when the temperature rise for the exhaust purifying catalyst is required. 11. The exhaust emission control apparatus as claimed in claim 7, wherein the controller is configured to increase an intake air quantity in accordance with the retarded setting of the ignition timing, when the temperature rise for the exhaust purifying catalyst is required. 12. An exhaust emission control apparatus for an internal combustion engine, comprising: a fuel injection valve placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cavity formed in a bottom surface of the outer cavity; an ignition plug placed in a region right above the outer cavity; an exhaust purifying catalyst provided in an exhaust passage of the engine; and a controller configured to carry out a stratified charge combustion when a temperature rise for the exhaust purifying catalyst is required, by forming an air-fuel mixture within the outer cavity and in an area substantially right above the outer cavity from a fuel injected through the fuel injection valve and allowing the ignition plug to ignite the air-fuel mixture after a compression top dead center of the piston. 13. The exhaust emission control apparatus as claimed in claim 12, wherein the controller is configured to carry out the stratified charge combustion normally under relatively high load driving condition of a predetermined driving condition in which the stratified charge combustion is carried out, by injecting fuel into the outer cavity during a compression stroke and forming a combustible air-fuel mixture within the outer cavity and in the area substantially right above the outer cavity, and configured to carry out the stratified charge combustion normally under relatively low load driving condition of the predetermined driving condition, by injecting fuel into the inner cavity during the compression stroke and forming the combustible air-fuel mixture within the inner cavity and in an area substantially right above the inner cavity; and wherein the controller is configured to carry out the stratified charge combustion when the temperature rise for the exhaust purifying catalyst is required under the relatively low load driving condition, by injecting fuel into the outer cavity during the compression stroke and forming the air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited, within the outer cavity and in the area substantially right above the outer cavity. 14. The exhaust emission control apparatus as claimed in claim 12, wherein the controller is configured to reduce an intake air quantity for the engine when the temperature rise for the exhaust purifying catalyst is required, as compared to the intake air quantity for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required. 15. The exhaust emission control apparatus as claimed in claim 14, wherein the controller is configured to increase a fuel injection quantity when the temperature rise for the exhaust purifying catalyst is required, as compared to the fuel injection quantity for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required. 16. The exhaust emission control apparatus as claimed in claim 15, wherein the controller is configured to set a time interval between a fuel injection timing and a ignition timing to be longer than the time interval for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required, when the temperature rise for the exhaust purifying catalyst is required. 17. The exhaust emission control apparatus as claimed in claim 12, wherein the controller is configured to set an ignition timing to be more retarded than the ignition timing for a normal driving condition where the temperature rise for the exhaust purifying catalyst is not required, when the temperature rise for the exhaust purifying catalyst is required under a driving condition in which the stratified charge combustion is carried out. 18. The exhaust emission control apparatus as claimed in claim 17, wherein if a fuel pressure is lower than a required predetermined fuel pressure, the controller is configured to set the ignition timing to be more advanced in accordance with the fuel pressure than the ignition timing of the case where the fuel pressure is equal to or higher than the required predetermined fuel pressure, when the temperature rise for the exhaust purifying catalyst is required. 19. The exhaust emission control apparatus as claimed in claim 17, wherein the controller is configured to increase an intake air quantity in accordance with the retarded setting of the ignition timing, when the temperature rise for the exhaust purifying catalyst is required. 20. An exhaust emission control apparatus for an internal combustion engine, comprising: injection means for injecting fuel, being placed substantially at a midpoint above a combustion chamber of the engine; a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cavity formed in a bottom surface of the outer cavity; ignition means for igniting an air-fuel mixture, being placed in a region right above the outer cavity; an exhaust purifying catalyst provided in an exhaust passage of the engine; and control means for carrying out a stratified charge combustion when a temperature rise for the exhaust purifying catalyst is required, by forming the air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited by the ignition means, within the outer cavity and in an area substantially right above the outer cavity, from the fuel injected through the injection means. 21. An exhaust emission control method for an internal combustion engine including a piston having an outer cavity formed substantially in a midsection of an upper surface of the piston and an inner cavity formed in a bottom surface of the outer cavity, an ignition plug placed in a region right above the outer cavity, and an exhaust purifying catalyst provided in an exhaust passage of the engine, the exhaust emission control method comprising: carrying out a stratified charge combustion when a temperature rise for the exhaust purifying catalyst is required, by forming an air-fuel mixture which is richer than stoichiometric ratio and is able to be ignited by the ignition plug within the outer cavity and in an area substantially right above the outer cavity.
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