| CPC F02D 41/22 (2013.01) [F02D 41/1454 (2013.01); F02D 41/182 (2013.01); F02D 41/2454 (2013.01); F02D 2200/0404 (2013.01); F02D 2200/0406 (2013.01)] | 20 Claims |
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1. A method for establishing a maintenance diagnosis on an engine including a throttle which regulates air access into an air intake system of said engine, a position sensor which measures at least one position of the throttle, a manifold in fluidic communication with the throttle, a pressure sensor which measures at least one pressure in the manifold, at least one intake valve, a richness probe which measures an oxygen level, and a richness controller configured to modify proportions of air and fuel in an air-fuel mixture, the method comprising:
implementing a first set of steps at the end of a production line for the engine or following maintenance of said engine, the first set of steps comprising:
switching on the engine, and when the engine is in predetermined conditions,
determining a first air flow in the air intake system from a first position of the at least one position of the throttle measured by the position sensor,
determining a second air flow in the air intake system from a first pressure of the at least one pressure in the manifold measured by the pressure sensor,
determining a reference measurement correction factor, selected such that when the reference measurement correction factor is added to a measurement of one of the two air flows in a determination of a third corrected air flow based on the same determination as said one of the two air flows, the third corrected air flow is substantially equal to the other one of the two air flows,
correcting a theoretical injection command of the richness controller, determined from one of the first and second air flows, by adding a reference injection correction factor to obtain a substantially stoichiometric air-fuel mixture based on measurements from the richness probe, and
after at least one determined duration during which the determining the first air flow, the determining the second air flow, the determining the reference measurement correction factor and the correcting the theoretical injection command are performed several times, storing the reference measurement correction factor and the reference injection correction factor; and
implementing a second set of steps during conventional operation of the engine when the engine is in said predetermined conditions, the second set of steps comprising:
determining another first air flow in the air intake system from a second position of the at least one position of the throttle measured by the position sensor,
determining another second air flow in the air intake system from a second pressure of the at least one pressure in the manifold measured by the pressure sensor,
determining a current measurement correction factor, selected such that when the current measurement correction factor is added to a measurement of the one of the two other air flows that corresponds to the one of the two air flows in a determination of another third corrected air flow based on the same determination as said one of the two other air flows, the other third corrected air flow is substantially equal to the other one of the two other air flows,
correcting another injection command of the richness controller determined from the corresponding one of the two other air flows by adding a current injection correction factor to obtain another substantially stoichiometric air-fuel mixture based on measurements from the richness probe, and
when an absolute value of the difference between the reference measurement correction factor and the current measurement correction factor is greater than a first predetermined threshold,
establishing the maintenance diagnosis, and
calculating an absolute value of the difference between the reference injection correction factor and the current injection correction factor, and one of:
1) when the absolute value of the difference between the reference injection correction factor and the current injection correction factor is less than a second predetermined threshold,
when the other injection command is determined from the other first air flow obtained from the second position of the throttle, establishing a diagnosis of a play at the at least one intake valve, and
when the other injection command is determined from the other second air flow obtained from the manifold pressure, establishing a diagnosis of clogging of the throttle, and
2) when the absolute value of the difference between the reference injection correction factor and the current injection correction factor is greater than said second predetermined threshold,
when the other injection command is determined from the other first air flow obtained from the second position of the throttle, establishing a diagnosis of clogging of the throttle, and
when the other injection command is determined from the other second air flow obtained from the manifold pressure, establishing a diagnosis of a play at the at least one intake valve.
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