Patent ID: 7497209
Filing Date: 2009-03-03
Classification: F02M

Abstract:
1. A fuel vapor treatment system for an internal combustion engine of a vehicle having a leak check device in which a space extending from a fuel tank to a canister for temporarily adsorbing fuel vapor produced in the fuel tank to a point at which the fuel vapor is purged into an intake pipe of the internal combustion engine is defined as a leak check closed space for checking for a leak of at least a predetermined size based on change in pressure in the leak check closed space, the fuel vapor treatment system comprising: a purge pipe for guiding fuel vapor purged from the canister into the intake pipe; a purge control valve operatively coupled to the purge pipe for controlling the rate of a purge flow from the purge pipe to the intake pipe; an air-fuel ratio sensor operatively coupled to an exhaust pipe of the internal combustion engine for detecting an air-fuel ratio; a first fuel status determining device that determines the fuel status of an air-fuel mixture containing fuel vapor purged from the canister based on an amount of deviation between the air-fuel ratio detected by the air-fuel ratio sensor and a target air-fuel ratio when the purge control valve is open; an air-fuel ratio controlling device that controls the quantity of injection into the internal combustion engine so that the air-fuel ratio becomes substantially equal to the target air-fuel ratio based on the fuel status of air-fuel mixture purged from the canister; an air-fuel mixture circulation portion with a first component portion forming part of a closed space formation portion that forms the leak check closed space and a second component portion separate from the closed space formation portion but that communicates with the first component portion, and through which the air-fuel mixture purged from the canister can flow with the purge control valve closed; a second fuel status determining device that purges the air-fuel mixture from the canister into the air-fuel mixture circulation portion with the purge control valve closed and thereby determines the fuel status of the air-fuel mixture; and a reliability determining device that, when the presence of a leak is detected by the leak check device, determines the reliability of the fuel status determined by the second fuel status determining device based on a comparison of the fuel status of air-fuel mixture determined by the first fuel status determining device and the fuel status of air-fuel mixture determined by the second fuel status determining device, wherein when a leak is not detected by the leak check device and when a leak is detected but it is determined by the reliability determining device that the fuel status determined by the second fuel status determining device is reliable, the air-fuel ratio controlling device switches which to use, the fuel status determined by the first fuel status determining device or the fuel status determined by the second fuel status determining device, based on the operating state of the relevant vehicle, and when it is determined by the reliability determining device that the fuel status determined by the second fuel status determining device is unreliable, the air-fuel ratio controlling device uses the fuel status determined by the first fuel status determining device for the fuel status for controlling the injection quantity regardless of the operating state of the vehicle.