FR2962392A1 - Method for controlling operating condition of hybrid type vehicle actuated by e.g. alterno-starter, involves detecting fuel level lower than predetermined threshold, and deinhibiting start and stop function according to measured parameter - Google Patents

Abstract

The method involves detecting a fuel level lower than a predetermined threshold. Start and stop functions are inhibited in an engine. A parameter relating to rolling process is measured. The stop function is measured when the fuel level is greater than another predetermined threshold. The start and stop functions is deinhibited according to the measured parameter, where the measured parameter is selected from a group comprising fuel consumption, number of kilometers traveled or rolling type. An independent claim is also included for a vehicle comprising a fuel tank.

Description

The invention relates to a method for controlling the operation of a vehicle adapted to be actuated electrically or by a heat engine. [0002] The systems for stopping and automatically restarting the engine of the vehicles tend to become generalized. These systems, often referred to by the abbreviation STT or the English expression Stop & Start System, correspond to an on / off function which in the off position ensures that the vehicle is electrically operated. This reduces fuel consumption and therefore polluting emissions, such as carbon dioxide emissions. These systems apply equally well to a vehicle of the hybrid type or not. In the particular case of a common rail engine, the fuel supply circuit of the engine is sensitive to the introduction of air. In fact, the ingested air penalizes the rise in pressure in the high pressure volume. The pressure regulation in this volume can be disturbed, which can delay the availability of this pressure at startup. The start times are then increased. Such a phenomenon can be critical on the applications of stop and automatic restart of the engine where the occurrence of starts is strong and the times required very constrained. In cases of life where the possibility of ingesting air in the circuit becomes probable, it is generally chosen to inhibit the hybrid functionalities, that is to say to limit the management of starts / stops thermal engine designed to optimize consumption. The heat engine is thus forced to operate continuously during travel. A penalizing start for the performances of the STT system because too long is thus avoided. A case of critical life identified occurs when the fuel level in the tank becomes low. In such a case, ingestion of air by the fuel supply circuit is indeed more likely. Such problems are particularly identified in JP-A-2008285085 and JP-A-2008284972.

In particular, in JP-A-2008284972, it is suggested to inhibit the on / off function of the engine for a given fuel level in the tank. After adding fuel to the tank, the return to the hybrid functionality is possible only after ensuring the good condition of the fuel system vis-à-vis the air bubbles potentially ingested when the fuel level was weak. The lifting of the inhibition of the on / off function can be implemented with an identical procedure for all situations. This procedure is then adapted to the worst case for the purpose of ensuring the safety of the vehicle, that is to say that of the dry failure. Such a procedure is relatively cumbersome and time consuming. This inhibition associated with a low level of fuel strongly impacts the availability rate of the on / off function since a number of conditions must be met such as the consumption of a certain number of liters of fuel or the realization of a number of starts before you can use the start / stop function again. In addition, for situations in which the inhibition of the on / off function can be removed with a faster or simpler procedure, there is a loss of efficiency of the on / off function in the systematic procedure. In addition, the customer may be disturbed by this expectation and think that it is a malfunction of the STT system since the procedure, whatever, is transparent to the customer. These are just counters that will increment based on the rolling done. There is therefore a need for a method to improve the efficiency of the on / off function while ensuring the safety of the vehicle, especially in cases where the fuel tank tends to empty. For this, it is proposed a method of controlling the operation of a vehicle adapted to be actuated electrically or by a heat engine. The engine is provided with an on / off function which in the off position ensures that the vehicle is powered electrically and the vehicle includes a fuel tank supplying the engine. The method includes detecting a fuel level lower than a first predetermined threshold. The method also comprises inhibiting the on / off function and measuring at least one parameter relating to the rolling carried out. The method comprises a step of disabling the on / off function according to the measured parameter. According to one embodiment, the measuring step stops when the fuel level is greater than a second predetermined threshold, the second threshold corresponding to a level greater than or equal to the first threshold. According to another embodiment, the parameters measured belong to the group consisting of the fuel consumption, the number of kilometers traveled or the type of taxiing. According to one variant, the disinhibition step is carried out after a number of starts of the vehicle made after the fuel level is above a third predetermined threshold, the number of starts depending on the parameter measured. According to one embodiment, the disinhibition step is carried out after consumption of a volume of fuel as soon as the fuel level is above a third predetermined threshold, the volume depending on the measured parameter. As a variant, the third threshold corresponds to the second threshold. In one embodiment, the engine is a common injection rail engine. According to one embodiment, the vehicle is electrically actuated by an alternator-starter. In another exemplary embodiment, the vehicle is electrically driven by an electric motor. It is also proposed a vehicle adapted to be actuated electrically or by a heat engine, the engine being provided with an on / off function which in the off position ensures that the vehicle is electrically actuated and the vehicle 25 comprising a fuel tank supplying the engine. The vehicle further comprises a computer adapted to implement the previously described method. [Ools] There is provided a method of controlling the operation of a vehicle adapted to be actuated electrically or by a heat engine. The electric actuation can be implemented by means of an alternator-starter or an electric motor. The heat engine may in particular be a common injection rail engine. Such a type of engine is indeed particularly sensitive to the formation of air bubbles in the fuel supply circuit. The engine is provided with an on / off function which in the off position ensures that the vehicle is electrically actuated. The vehicle further comprises a fuel tank supplying the engine. The implementation of the method on the vehicle can be carried out using a suitable computer. The calculator may include software ("software" in English). The method comprises a step of detecting a fuel level lower than a predetermined first threshold S1. The method also includes a step of inhibiting the on / off function. The method further comprises measuring at least one parameter relating to the rolling carried out. It is usually the calculator that records the measurements made. The parameter can be the fuel consumption, the number of kilometers traveled or the type of taxiing. The parameter can also be a combination of the previously mentioned parameters. Such parameter examples make it possible to evaluate the criticality of the taxiing carried out when the fuel level was judged to be low, and therefore at risk, with respect to ingestion of air. Other parameters can be used to calculate the criticality of running with a low fuel level. The use of sensors for ABS and ESP can be considered in particular. The measuring step may stop when the fuel level is greater than a second threshold S2 predetermined. The second threshold S2 corresponding to a level greater than or equal to the first threshold S1. This ensures that the driver has filled his tank sufficiently. The vehicle is no longer in a risk area. The risk of formation of air bubbles is then very low. Stopping the measurement step when the fuel level is sufficient limits the capabilities of the computer that stores the measures allocated to the implementation of this process. The method also includes the disinhibition of the on / off function according to the measured parameter. As an illustration, the measured parameter can be taken into account by a calculation of the minimum requirement to be ensured in order to guarantee proper degassing of the circuit, the calculation being based on the parameter. The disinhibition then takes place as soon as the driver has filled the calculated need. The proposed method thus has the advantage of disinhibiting the on / off function in a manner adapted to the situation. This allows an optimization compared to an identical procedure for all life situations. In particular, the disinhibition time of the on / off function is minimized. While ensuring good safety for the vehicle (purging air bubbles in the fuel supply circuit), the proposed method thus allows disinhibition to take place as quickly as possible. The method thus improves the efficiency of the on / off function while ensuring the safety of the vehicle, especially in cases where the fuel tank tends to empty. Several implementations of the disinhibition step can be envisaged. Thus, the disinhibition may occur after a number of vehicle starts made after the fuel level is above a third predetermined threshold S3. In such an embodiment, the number of starts depends on the measured parameter. It is also conceivable that the disinhibition step is carried out after consumption of a volume of fuel as soon as the fuel level is above a third predetermined threshold. In such an embodiment, the volume depends on the measured parameter. In a variant, the third threshold S3 corresponds to the second threshold S2. These different implementations of the disinhibition step have the advantage of being easy to implement.

Claims (10)

REVENDICATIONS1. A method of controlling the operation of a vehicle adapted to be actuated electrically or by a heat engine, the engine being provided with an on / off function which in the off position ensures that the vehicle is electrically powered and the vehicle comprising a fuel tank supplying the heat engine, characterized in that the method comprises the steps of: detecting a fuel level lower than a first predetermined threshold; - inhibition of the on / off function; measuring at least one parameter relating to the rolling carried out; - disabling the on / off function according to the measured parameter. 2. The method according to claim 1, characterized in that the measuring step stops when the fuel level is greater than a second predetermined threshold, the second threshold corresponding to a level greater than or equal to the first threshold. 3. The method according to any one of claims 1 to 2, characterized in that the measured parameters belong to the group consisting of fuel consumption, the number of kilometers traveled or the type of taxiing. 4. The method according to any one of claims 1 to 4, characterized in that the disinhibition step is carried out after a number of starts of the vehicle made after the fuel level is above a third threshold predetermined, the number of starts depending on the measured parameter. 5. The method according to any one of claims 1 to 5, characterized in that the disinhibition step is carried out after consumption of a volume of fuel as soon as the fuel level is above a third threshold predetermined, the volume depending on the measured parameter. 6. The method according to claim 4 or 5, characterized in that the third threshold corresponds to the second threshold. 7. The method according to any one of claims 1 to 6, characterized in that the engine is a common injection rail engine. 8. The method according to any one of claims 1 to 7, characterized in that the vehicle is actuated electrically by an alternator-starter. 9. The method according to any one of claims 1 to 8, characterized in that the vehicle is electrically actuated by an electric motor. 10. Vehicle adapted to be actuated electrically or by a heat engine, the engine being provided with an on / off function which in the off position ensures that the vehicle is electrically powered and the vehicle comprising a fuel tank supplying the engine , characterized in that it further comprises a computer adapted to implement the method according to any one of claims 1 to 9.