Method for managing a power train implementing an estimation of the engine temperature at the end of a stop time of an element of the power train

The invention claimed is: 1. A method for managing a power train of a motor vehicle, which is provided with an engine and an estimator of a temperature at a specific location of the engine, comprising: initializing the estimator when the power train starts, the initializing comprising: determining a stop time of an element of the power train, determining a temperature of ambient air when the stop time begins, determining at least one temperature of the engine when the stop time begins, determining a temperature of the ambient air when the stop time ends, evaluating a thermal parameter of the engine in accordance with the stop time determined, the temperature of the ambient air when the stop time begins, the temperature of the engine when the stop time begins, and the temperature of the ambient air when the stop time ends, and initializing the estimator based on the thermal parameter evaluated; estimating the temperature of the specific location of the engine using the initialized estimator; and controlling a cooling circuit of the motor vehicle to limit cooling of the specific location of the engine when the estimated temperature of the specific location is below a predetermined threshold or for a predetermined period of time. 2. The method as claimed in claim 1 , wherein the thermal parameter evaluated is an evaluated temperature of the specific location of the engine. 3. The method as claimed in claim 1 , wherein the specific location of the engine is in a cylinder head of the engine. 4. The method as claimed in claim 1 , wherein the determining the temperature of the ambient air comprises measuring via a temperature sensor of intake air of the engine and/or measuring via a temperature sensor in a region of an outer side of the vehicle. 5. The method as claimed in claim 1 , wherein the evaluating the thermal parameter of the engine comprises simulating a development of the temperature of the engine during the stop time, the simulating taking into account a thermal flow which is supplied to the engine via engine operation at zero value, and determining a dissipated thermal flow of the engine via the cooling thereof. 6. The method as claimed in claim 5 , wherein the simulating comprises determining a development of the temperature of the ambient air during the stop time. 7. The method as claimed in claim 5 , wherein the thermal flow is a dissipated thermal flow ø s (t) of the engine at a time t and is determined from the following equation: ø s (t)=h(t)·S·(T° engine(t)−T° ext(t)), where h(t) is a thermal exchange coefficient between the engine and air below a hood of the vehicle at the time t, S is an exchange surface between the engine and the air below the hood, T° engine(t) is the temperature of the engine at the time t, T° ext(t) is the temperature of the ambient air at the time t. 8. The method as claimed in claim 1 , wherein, since the estimator is configured so as to estimate over time temperatures which are associated with different specific locations of the engine, respectively, the evaluating the thermal parameter is carried out so as to evaluate a temperature for each specific location of the engine in order to initialize the estimator with an initialization temperature for each specific location of the engine. 9. The method as claimed in claim 1 , wherein the determining the temperature of the engine when the stop time begins is performed after the engine is switched off and before a processor that performs the determining is switched off. 10. A device for implementing the method as claimed in claim 1 , the device comprising: a processor comprising: an element configured to determine a stop time of an element of the power train, an element configured to determine a temperature of the ambient air when the stop time begins, an element configured to determine at least one temperature of the engine when the stop time begins, an element configured to determine a temperature of the ambient air when the stop time ends, an element configured to evaluate a thermal parameter of the engine in accordance with the stop time determined, the temperature of the ambient air when the stop time begins, the temperature of the engine when the stop time begins, and the temperature of the ambient air when the stop time ends, and an element for configured to initialize the estimator based on the thermal parameter evaluated.