Engine air-fuel ratio control with fuel vapor pressure-based feedback control feature
First Claim
1. An engine air-fuel ratio control apparatus for causing fuel vapor generated in a fuel tank to be adsorbed before discharging the adsorbed fuel vapor to an engine intake system, said apparatus comprising:
- calculating means for calculating a feedback correction amount based on an exhaust gas oxygen concentration;
executing means for executing air-fuel ratio feedback control using the feedback correction amount;
learning means for updating an air-fuel ratio learning value for air-fuel ratio control by using the feedback correction amount during air-fuel ratio feedback control execution;
detecting means for detecting a pressure in the fuel tank; and
prohibiting means for prohibiting the air-fuel ratio learning value from being updated by the learning means when the detected tank inner pressure exceeds a predetermined criterion value and when the adsorbed fuel vapor is discharged to the engine intake system.
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Abstract
A method and apparatus for controlling the air-fuel ratio of an internal combustion engine that prevents erroneous learning while properly setting a learning frequency to thereby execute highly accurate air-fuel ratio control. Fuel vapor generated in a fuel tank is temporarily adsorbed in a canister via a tank inner pressure-regulating valve, and the adsorbed vapor is discharged to an engine intake system via a purge solenoid valve. A sensor for detecting tank inner pressure is arranged in the fuel tank, and an ECU calculates a feedback correction amount based on an oxygen concentration in exhaust gas and executes air-fuel ratio feedback control by using the feedback correction amount. The ECU prohibits the air-fuel ratio learning value from being updated when the tank inner pressure exceeds a predetermined criterion value based on the tank inner pressure detected by the tank inner pressure sensor.
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Citations
11 Claims
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1. An engine air-fuel ratio control apparatus for causing fuel vapor generated in a fuel tank to be adsorbed before discharging the adsorbed fuel vapor to an engine intake system, said apparatus comprising:
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calculating means for calculating a feedback correction amount based on an exhaust gas oxygen concentration;
executing means for executing air-fuel ratio feedback control using the feedback correction amount;
learning means for updating an air-fuel ratio learning value for air-fuel ratio control by using the feedback correction amount during air-fuel ratio feedback control execution;
detecting means for detecting a pressure in the fuel tank; and
prohibiting means for prohibiting the air-fuel ratio learning value from being updated by the learning means when the detected tank inner pressure exceeds a predetermined criterion value and when the adsorbed fuel vapor is discharged to the engine intake system. - View Dependent Claims (2, 3, 4, 5)
a tank inner pressure-regulating valve installed between the fuel tank and the canister that is opened when the tank inner pressure reaches a predetermined pressure;
wherein the prohibiting means prohibits the air-fuel ratio learning value from being updated when the detected tank inner pressure is larger than a pressure for opening the tank inner pressure-regulating valve.
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4. The air-fuel ratio control apparatus of claim 3, wherein the pressure-regulating valve is opened at a comparatively low pressure P1 during engine operation, and is otherwise opened at a comparatively high pressure P2.
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5. The air-fuel ratio control apparatus of claim 1, wherein the executing means is for generating an air-fuel ratio flag when a feedback condition exists, and for changing the feedback correction amount based on the air-fuel ratio flag.
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6. An engine air-fuel ratio control apparatus for causing fuel vapor generated in a fuel tank to be adsorbed before discharging the adsorbed fuel vapor to an engine intake system, said apparatus comprising:
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calculating means for calculating a feedback correction amount based on an exhaust gas oxygen concentration;
executing means for executing air-fuel ratio feedback control using the feedback correction amount;
learning means for updating an air-fuel ratio learning value for air-fuel ratio control by using the feedback correction amount during the feedback control;
detecting means for detecting a pressure in the fuel tank; and
updating amount setting means for setting an updating amount of the air-fuel ratio learning value such that the updating amount is inversely proportional to the detected tank inner pressure, setting the updating amount being prohibited when the adsorbed fuel vapor is discharged to the engine intake system. - View Dependent Claims (7)
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8. A method of controlling an air-fuel ratio of an internal combustion engine, comprising:
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calculating a feedback correction amount for adsorbed fuel vapor to be discharged based on an exhaust gas oxygen concentration;
updating an air-fuel ratio learning value for air-fuel ratio control by using the feedback correction amount when the air-fuel ratio feedback control is being carried out;
detecting fuel tank inner pressure; and
prohibiting the air-fuel ratio learning value from being updated when the detected tank inner pressure exceeds a predetermined criterion value and when the adsorbed fuel vapor is discharged to the engine intake system. - View Dependent Claims (9, 10)
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11. A method of controlling an air-fuel ratio of an internal combustion engine, comprising:
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calculating a feedback correction amount for adsorbed fuel vapor to be discharged based on an exhaust gas oxygen concentration;
updating an air-fuel ratio learning value for air-fuel ratio control by using the feedback correction amount when the air-fuel ratio feedback control is being carried out;
detecting fuel tank inner pressure; and
setting an updating amount of the air-fuel ratio learning value such that the updating amount is inversely proportional to the detected tank inner pressure, setting the updating amount being prohibited when the adsorbed fuel vapor is discharged to the engine intake system.
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Specification