Claims
- 1. An engine control device comprisingmeans for determining an amount of air taken into a cylinder of the engine; means for calculating an amount of fuel injected so as to achieve a target air-to-fuel ratio; an injector for supplying said fuel amount to said engine; an ignition plug for igniting a combustible fuel mixture at a designated ignition time; and a lean NOx catalyst for cleaning exhaust gas released from said engine, which further comprises means for determining or estimating a deteriorating condition of said lean NOx catalyst, and means for clean up rate reactivation for performing recovery and reactivation of the clean up rate of said NOx catalyst, wherein execution of clean up rate reactivation control is not allowed or is interrupted immediately when the temperature of said lean NOx catalyst exceeds a range of about 1000-1100° C.
- 2. An engine control device as claimed in claim 1, whereinsaid injector is an in-cylinder-injector for injecting fuel directly into a combustion chamber of said engine.
- 3. An engine control device as claimed in claim 2, whereinsaid clean up rate reactivation means comprises a means for generating an after-burn effect by injecting fuel during an exhaust stroke.
- 4. An engine control device as claimed in claim 2, whereinthe control time for each reactivation of said clean up rate per once is set so that all subsequent control time is longer than the first control time.
- 5. An engine control device as claimed in claim 2, whereinthe control time of said clean up rate reactivation is set variably depending on the temperature of the exhaust gas during the reactivation.
- 6. An engine control device as claimed in claim 2, whereinestimation of said deteriorating condition is performed using, at least, any one of the total amount of fuel supplied to the engine, the total breadth of fuel injection pulses, the total amount of air taken in, and the total amount of travel distance or travel time.
- 7. An engine control device as claimed in claim 2, whereinthe engine is operated in a stoichiometric air-to-fuel condition during the reactivation of said clean up rate.
- 8. An engine control device as claimed in claim 2, whereinperformance of said clean up rate reactivation is restricted based on, at least, any one of the exhaust gas temperature, the number of rotations of the engine, and the load to the engine.
- 9. An engine control device as claimed in claim 2, whereinsaid clean up rate reactivation is performed so that, when the engine combustion condition is in a lean combustion condition, said engine combustion condition is transferred once to said reactivation means via a stoichiometric air-to-fuel ratio combustion condition.
- 10. An engine control device as claimed in claim 1, whereinsaid reactivation control is performed by retarding the ignition time.
- 11. An engine control device as claimed in claim 1, whereinsaid clean up rate reactivation means comprises a means for generating an after-burn effect by injecting fuel during an exhaust stroke.
- 12. An engine control device as claimed in claim 1, whereinthe control time for each reactivation of said clean up rate per once is set so that all subsequent control time is longer than the first control time.
- 13. An engine control device as claimed in claim 1, whereinthe control time of said clean up rate reactivation is set variably depending on the temperature of the exhaust gas during the reactivation.
- 14. An engine control device as claimed in claim 1, whereinestimation of said deteriorating condition is performed using, at least, any one of the total amount of fuel supplied to the engine, the total breadth of fuel injection pulses, the total amount of air taken in, and the total amount of travel distance or travel time.
- 15. An engine control device as claimed in claim 1, whereinthe engine is operated in a stoichiometric air-to-fuel condition during the reactivation of said clean up rate.
- 16. An engine control device as claimed in claim 1, whereinperformance of said clean up rate reactivation is restricted based on, at least, any one of the exhaust gas temperature, the number of rotations of the engine, and the load to the engine.
- 17. An engine control device as claimed in claim 1, whereinsaid clean up rate reactivation is performed so that, when the engine combustion condition is in a lean combustion condition, said engine combustion condition is transferred once to said reactivation means via a stoichiometric air-to-fuel ratio combustion condition.
- 18. An engine control device as claimed in claim 12, whereinswitching said lean combustion condition to said stoichiometric air-to-fuel ratio combustion condition is performed such that the same engine torque as that in said lean combustion condition is maintained.
- 19. An engine control device as claimed in claim 13, whereina means for maintaining the engine torque includes any one of throttle opening, fuel injection timing, and ignition timing.
- 20. An engine control method, comprising:determining an amount of air taken into an engine cylinder; calculating an amount of injected fuel so as to achieve a target air-to-fuel ratio; supplying fuel to said engine igniting a combustible mixture of the supplied fuel and air at a designated ignition time; determining or estimating a deteriorating condition of a lean catalyst, and reactivating a clean up rate of said lean catalyst such that reactivation control is not permitted or is immediately interrupted when a lean NOx catalyst temperature exceeds about 1000°-1100° C.
- 21. An engine control system comprising:means for determining an amount of air taken into a cylinder of the engine; means for calculating an amount of fuel to be injected so as to achieve a target air-to-fuel ratio; an injector for supplying said amount of fuel to the engine, an ignition plug for igniting a combustible mixture at a designated ignition time; a lean NOx catalyst for cleaning exhaust gas released from said engine; and means of clean up rate reactivation for performing recovery and reactivation of the clean up rate of said NOx catalyst wherein execution of clean up rate reactivation control is performed when the engine is transferred to a stoichiometric air-to-fuel condition with a lean engine combustion condition.
- 22. An engine control device as claimed in claim 21, wherein said reactivation control is performed by retarding the ignition time.
- 23. An engine control method comprising:determining an amount of air taken into an engine cylinder; calculating an amount of fuel to be injected into the engine cylinder to achieve a target air-to-fuel ratio, supplying said amount of fuel to the engine cylinder, igniting a combustible mixture of said amount of fuel and the determined amount of air at a designated ignition time; cleaning released engine exhaust gas; and performing recovery and reactivation of a clean up rate of a lean NOx catalyst only after the engine is transferred to a stoichiometric air-to-fuel condition with the combustion condition of the engine is in a lean condition.
Parent Case Info
This application is a continuation of application Ser. No. 09/269,073, filed on Mar. 19, 1999 now U.S. Pat. No. 6,212,880, issued Apr. 10, 2001, filed as PCT/JP96/02717 Sep. 20, 1996.
US Referenced Citations (10)
Foreign Referenced Citations (2)
Number |
Date |
Country |
4-241753 |
Aug 1992 |
JP |
5-133260 |
May 1993 |
JP |
Continuations (1)
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Number |
Date |
Country |
Parent |
09/269073 |
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US |
Child |
09/800721 |
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US |