Patent ID: 9726120
Date: 2017-08-08
CPC Classifications: F02D,F02M,Y02T

Claim:
1. A vaporized fuel processing apparatus comprising: a canister capable of adsorbing vaporized fuel generated in a fuel tank; a vapor path connecting the canister and the fuel tank to each other; a closing valve provided in the vapor path and having a valve seat, a first valve member and a second valve member, the first valve member and the second valve member being capable of moving in an axial direction relative to the valve seat; a purge path connecting the canister and an intake path of an engine to each other, wherein the purge path includes a purge valve; a pressure sensor for detecting the inner pressure of the fuel tank, wherein the pressure sensor has a measurement range; and an electric control unit controlling the vaporized fuel processing apparatus such that the closing valve is in a closed state when a stroke amount, which is a distance between the first valve member and the valve seat along the axial direction, is within a predetermined range as from zero, and such that the second valve member is separated from the valve seat in order to open the closing valve when the stroke amount is in excess of the predetermined range, and the closing valve is configured to maintain the fuel tank in a hermetic state; wherein the electric control unit is configured to learn a valve opening start position based on the stroke amount when the inner pressure of the fuel tank is reduced by an amount greater than or equal to a predetermined value by increasing the stroke amount; wherein the electric control unit is configured such that when the inner pressure of the fuel tank is in excess of the measurement range of the pressure sensor, the learning of the valve opening start position is prohibited and a pre-learning depressurization control is performed through increase of the stroke amount of the closing valve in a stepwise manner until the inner pressure of the fuel tank is within the measurement range of the pressure sensor; wherein the electric control unit is configured to maintain the closing valve in the closed state and not perform the pre-learning depressurization control when the purge path is closed by the purge valve; wherein the electric control unit is configured to detect the stroke amount when the purge path is closed halfway through the pre-learning depressurization control, store the detected stroke amount, and close the closing valve after detecting the stroke amount in order to interrupt the pre-learning depressurization control; and wherein the electric control unit is configured to apply a correction to the stored stroke amount based on a time duration of the interruption of the pre-learning depressurization control to result in a corrected stored stroke amount, move the first valve member in the closing valve until the corrected stored stroke amount is attained, and resume the pre-learning depressurization control after the corrected stored stroke amount is attained.