Air-fuel ratio control apparatus

摘要

An air-fuel ratio control apparatus of the present invention comprises an inverse direction spike introducing section and an inverse direction spike interval setting section. The inverse direction spike introducing section introduces, while an air-fuel ratio correction required by an output of a downstream air-fuel ratio sensor is being carried out, an inverse direction spike which is an air-fuel ratio spike to temporarily change an air-fuel ratio of an exhaust gas toward a direction opposite to a direction of the air-fuel ratio correction with respect to a target control air-fuel ratio. The inverse direction spike interval setting section sets, based on an operating state of an internal combustion engine system, an inverse direction spike interval which is an interval between two of the inverse direction spikes next to each other in time.

主权项

1. An air-fuel ratio control apparatus applied to an internal combustion engine system which includes:
an internal combustion engine having cylinders in its inside; an exhaust gas purifying catalyst disposed in an exhaust passage so as to purify an exhaust gas discharged from said cylinders; a downstream air-fuel ratio sensor disposed in said exhaust passage and at a position downstream of said exhaust gas purifying catalyst in an exhaust gas flowing direction so as to generate an output corresponding to an air-fuel ratio of an exhaust gas at said position; wherein said air-fuel ratio control apparatus performs an air-fuel ratio correction in such a manner that said air-fuel ratio control apparatus sets an air-fuel ratio of said internal combustion engine to an air-fuel ratio richer than a stoichiometric air-fuel ratio when it determines that a rich request is occurring based on a comparison between said output of said downstream air-fuel ratio sensor and a predetermined target value, and sets said air-fuel ratio of said internal combustion engine to an air-fuel ratio leaner than the stoichiometric air-fuel ratio when it determines that a lean request is occurring based on said comparison between said output of said downstream air-fuel ratio sensor and said predetermined target value, said air-fuel ratio control apparatus characterized by comprising: an inverse direction spike introducing section configured so as to introduce a lean spike which temporarily changes said air-fuel ratio of said internal combustion engine to an air-fuel ratio leaner than the stoichiometric air-fuel ratio in a case where said air-fuel ratio of said internal combustion engine is set at said air-fuel ratio richer than the stoichiometric air-fuel ratio by said air-fuel ratio correction, and so as to introduce a rich spike which temporarily changes said air-fuel ratio of said internal combustion engine to an air-fuel ratio richer than the stoichiometric air-fuel ratio in a case where said air-fuel ratio of said internal combustion engine is set at said air-fuel ratio leaner than the stoichiometric air-fuel ratio by said air-fuel ratio correction; an inverse direction spike interval setting section configured so as to set, based on an operating state of said internal combustion engine system, an interval between two of said lean spikes next to each other in time or of said rich spikes next to each other in time; and a downstream learning condition determining section configured so as to permit a learning for compensating a steady error of said output of said downstream air-fuel ratio sensor, wherein, said downstream learning condition determining section is configured so as to permit said learning based on said interval between two of said lean spikes next to each other in time or of said rich spikes next to each other in time.