FR2999511A1 - Method for modulation of torque response with driving of accelerator pedal of e.g. hybrid vehicle, involves applying cartographies establishing torque delivered by motorization to accelerator pedal according to driving of pedal - Google Patents

Abstract

The method involves allowing detection systems having a rain sensor (6), a control camera (12) and a temperature sensor (14) to detect or receive weather conditions and weather information (8) of rain or snow. The risks of reduction of adherence on the road are controlled according to the weather conditions and the information. Different cartographies such as strongest adherence, establishing a torque delivered by the motorization are applied to an accelerator pedal (24) of a motor vehicle according to the driving of the accelerator pedal. An independent claim is also included for a motor vehicle comprising an accelerator pedal.

Description

BACKGROUND OF THE INVENTION The present invention relates to a method of modulating the torque response to a depressing of the pedal of a motor vehicle. accelerator, for a motor vehicle comprising weather detection systems, and a motor vehicle implementing such a modulation method. Motor vehicles generally comprise an accelerator pedal which is pressed by the driver to control the torque delivered by the engine, as well as the speed of the vehicle. The torque delivered by the engine increases with the pressure on the accelerator pedal to reach the maximum torque available when the driver has pressed this pedal fully. The vehicle may comprise only a heat engine, or be of the hybrid type, comprising electric machines associated with the engine.

In addition, certain vehicles are equipped with weather detection or reception systems, such as a rain sensor that can trigger the windshield wipers, an outside temperature sensor that prevents the possibility of snow or ice. on the road, or a control camera that detects a snowy environment. In order to improve safety during difficult climatic conditions which reduce the adhesion of the wheels to the road, a known method, presented in particular in the document US-B2-7403842, modifies the restoring force of the accelerator pedal according to of these conditions, to help the driver for this conduct which is more delicate.

However, this method does not allow a more accurate dosage of this couple. In particular, it does not modify the sensitivity of the torque response for the same depression of this pedal. The present invention is intended to avoid these disadvantages of the prior art. It proposes for this purpose a method of modulating the torque response to a depression of the accelerator pedal of a motor vehicle, which controls the torque delivered by a motor vehicle, the vehicle comprising detection or reception systems conditions characterized in that, depending on the weather conditions detected or received, leading to risks of reduction of adhesion on the road, it applies different maps establishing the torque delivered by the engine according to the depression of the pedal. accelerator.

An advantage of this method of modulating the torque response is that it is possible to obtain in a simple and economical way, with only software complements, a greater progressivity in the variations of the torque delivered by the motorization as a function of the torque. depressing the accelerator pedal, which makes it easier to dose the torque on the drive wheels in order to prevent slippage of these wheels. The method of modulating the torque response to a depression of the accelerator pedal according to the invention may further comprise one or more of the following features, which may be combined with one another.

Advantageously, the method of modulating the torque response detects several levels of rain from a rain sensor, corresponding to different maps. Advantageously, the method of modulating the torque response uses a snow-covered environment detection information from a control camera, then correlates with an external temperature information given by a temperature sensor, in order to establish a snowy environment confirmation signal. In particular, the method for modulating the torque response can implement a meteorological information prioritization function, receiving the rain level detection and the snowy environment confirmation, to establish a meteorological criterion delivered to a weather conversion function. the depression of the accelerator pedal torque engine, which also receives information on the depression of the pedal, information on the speed of the engine or the speed of the vehicle, and the driving mode of the vehicle selected by the driver. According to one embodiment, the information on the depression of the pedal is transmitted to different meteorological conversion tables including maps, to be converted into torque values for the motorization according to meteorological criteria corresponding to each of the tables. , these torque values being transmitted to a selection function receiving the meteorological criterion, to select the table corresponding to this criterion. Advantageously, the method of modulating the torque response sends a signal to an "HMI" human-machine interface, to inform the driver of the implementation of this modulation method. Advantageously, the maps comprise setpoint torque curves as a function of the depression of the accelerator pedal, comprising a substantially constant slope for a first driving portion, which is increasingly weaker when the wheels are adhered to. vehicle is becoming smaller and smaller. Advantageously, the slope of the curve for the weakest adhesion is reduced by more than half compared to that for the strongest adhesion.

Advantageously, beyond a high level of depression of the pedal, the different curves meet.

The subject of the invention is also a motor vehicle comprising an accelerator pedal which controls the torque delivered by the engine, as well as systems for detecting or receiving meteorological conditions, this vehicle comprising means performing a modulation of the response in torque to a depression of the accelerator pedal, by a modulation method comprising any of the preceding features. The invention will be better understood and other features and advantages will appear more clearly on reading the following description given by way of example and in a nonlimiting manner, with reference to the appended drawings, in which: FIG. a diagram presenting the global architecture of an engine control implementing a modulation method according to the invention; - Figure 2 is a diagram showing a conversion function of the depression of the accelerator pedal engine torque, implemented by the engine control; and - Figure 3 is a graph showing several maps of engine torque according to the depression of the accelerator pedal.

FIG. 1 shows an engine control computer 2 comprising a weather information prioritization function 4 which receives a signal coming from a rain sensor 6, or weather information 8, in particular from rain or snow, coming from outside sources. , which are transmitted by a communication system such as a GPS or a mobile phone. The rain sensor 6 may be the one already installed on a certain number of vehicles, which sends rain intensity information, for example in three levels, in order to control the wipers of the windshield at different speeds. The priority function of the meteorological information 4 also receives a snow-covered environment confirmation signal 16 coming from a snow control function 10. The snow control function 10 receives a snow-covered environment detection information from a control camera 12, and an outside temperature information given by a temperature sensor 14, to correlate these two received information, to validate by the low temperature for example, less than 4 ° C, the presence of snow detected by the vision of the camera, and to establish the snow-covered environment confirmation signal 16. The weather information prioritization function 4 sends a meteorological criterion 18 to a conversion function of the depression of the accelerator pedal torque 22, which further receives a depression value 24 from a sensor on this This prioritization function 4 also sends, on the other hand, to an "HMI" human-machine interface 20, for example a warning light, the meteorological criterion of the engine, or the speed of the vehicle 26. 18 to inform the driver of the implementation of the method of modulating the torque response to a depression of the accelerator pedal, to prevent it from changing the dynamic response of the vehicle depending on the depression that he applies on this pedal. The conversion function 22 finally delivers a torque setpoint 28 to the motorization of the vehicle, corresponding to the demand of the driver 25 adapted according to the meteorological information. The conversion function 22 converts the depression values of the pedal 24 into a torque level of the engine, from conversion tables depending on the different life situations detected. The conversion function 22 uses different conversion tables depending on the speed of the vehicle, which are stored in memory. Specific tables can be provided for the reverse, takeoff 2 9 9 9 5 1 1 6 of the vehicle, for low, medium and high speeds. It is also possible to establish conversion tables according to the vehicle running mode, with, for example, specific tables for economy mode, for a four-wheel drive mode, for a sport mode, or for an electric mode in the case of a hybrid vehicle. In addition, the conversion function 22 also uses different conversion tables depending on meteorological criteria, which are stored in memory. FIG. 2 shows the strategy used by the conversion function 22. The depressing information of the pedal 24 given by its sensor is transmitted to different conversion tables 42, 44, 46, 48, 50 including maps, for to be converted into a set torque value requested from the engine, according to meteorological criteria 15 corresponding to each of these tables, and information on the driving mode of the vehicle chosen by the driver, the speed of the vehicle or the engine speed to take into account the different life situations of this vehicle. In this example, there is a base table 42 for dry weather, a table for the first level of rain 44, a table for the second level of rain 46, a table for the third level of rain 48, and a table for a snow-covered environment 50. A selection function 40 receives the weather criterion 18, and the torque information from the different tables 42, 44, 46, 48, 50. The selection function 40 then selects the corresponding table according to the criterion 18, and the life situation of the vehicle, to deliver the set torque value 28 given by the selected table to the management computer of the engine. FIG. 3 shows, as a function of the position of the accelerator pedal 30 between 0 and 100% of the total depression, presented on the horizontal axis, the setpoint torque C presented on the vertical axis, which is requested to the motorization of the vehicle according to the meteorological criterion, and for a given life situation corresponding to a vehicle traveling in forward motion at low speed, with an engine speed of 1500 rpm. The set torque curve starts from ONm for a depression of the pedal of 0%, and follows for a first part of depression of the pedal, substantially a constant slope which is stronger for the conditions giving the best adhesion, and which is weaker and weaker when adhesion is reduced. In particular, there is a variation of pedal depression of 10%, a slope of 57 Nm for the first curve 60 linked to the basic weather criterion, corresponding to a dry road, a slope of 45 Nm for the second curve 62 linked to the first rain level, a slope of 41Nm for the third curve 64 linked to the second level of rain, a slope of 33Nm for the fourth curve 66 linked to the third level of rain, and a slope of 25Nm for the fifth curve 68 linked to an environment snowy. It will be noted that the slope of the fifth curve 68 is reduced by more than half compared to that of the first curve 60. This results in a lower and lower torque gradient depending on the depression of the pedal. accelerator when the modulation method of the torque response is implemented, which gives the driver the ability to modulate more finely the torque variations applied to the drive wheels to prevent slippage of these wheels. The driving of the vehicle is then facilitated, while ensuring greater security. Beyond a certain level of depression of the pedal, corresponding for all the curves with more than 75% of the maximum torque of setpoint, in this example about 200Nm, the various curves comprise a slope which decreases, and join for a thrust point of the accelerator pedal which is about 80%.

The curves then continue to reach with a pedal depression of 100%, the maximum torque value which is about 240Nm. In this way, whatever the weather conditions, the driver always has the possibility to obtain a high torque to ensure safety, provided to apply a significant depression of the accelerator pedal. The method of modulating the torque response to a depression of the accelerator pedal according to the invention can be applied to conventional vehicles comprising a single engine, or to hybrid vehicles with different engines.

Claims (10)

REVENDICATIONS1. A method of modulating the torque response to a depression of the accelerator pedal of a motor vehicle, which controls the torque delivered by a motor vehicle, the vehicle comprising weather detection or reception systems (6, 8, 12, 14), characterized in that depending on the meteorological conditions detected (6, 12, 14) or received (8), leading to risks of reduction of adhesion on the road, it applies different maps (60, 62, 64, 66, 68) establishing the torque (C) delivered by the engine according to the depressing of the accelerator pedal (24). 2. A method of modulating the torque response according to claim 1, characterized in that it detects several levels of rain from a rain sensor (6), corresponding to different maps (62, 64, 66). 3. A method of modulating the torque response according to claim 1 or 2, characterized in that it uses a snow-covered environment detection information from a control camera (12) and then correlates with a piece of information. outdoor temperature sensor provided by a temperature sensor (14) to establish a snow-covered environment confirmation signal (16). 4. A method of modulating the torque response according to claims 2 and 3, characterized in that it implements a function of prioritizing meteorological information (4), receiving the detection of rain levels and environmental confirmation snow-covered (16), to establish a meteorological criterion (18) issued to a function of converting the depression of the accelerator pedal to a driving torque (22), which furthermore receives information on the depression of this pedal ( 24), information on the speed of the engine or the speed of the vehicle (26), and on the driving mode of the vehicle chosen by the driver. Method for modulating the torque response according to Claim 4, characterized in that the information on the depressing of the pedal (24) is transmitted to different weather conversion tables (42, 44, 46, 48, 50). ) comprising maps, to be transformed into 5 target torque values (C) for the motorization according to meteorological criteria corresponding to each of the tables, these torque values being transmitted to a selection function (40) receiving the meteorological criterion (18), to select the table corresponding to this criterion. A method of modulating the torque response according to any one of the preceding claims, characterized in that it sends a signal (18) to a human-machine interface "HMI" (20), to inform the driver of the implementation of this modulation method. 7 - A method of modulating the torque response according to any one of the preceding claims, characterized in that the mappings comprise set torque curves as a function of the depression of the accelerator pedal (60, 62, 64, 66, 68), comprising a substantially constant slope for a first driving portion, which becomes smaller and smaller as the adhesion of the vehicle wheels is reduced more and more. 8. A method of modulating the torque response according to claim 7, characterized in that the slope of the curve for the weakest adhesion (68) is reduced by more than half compared to that for the adhesion the strongest (60). 9. A method of modulating the torque response according to claim 7 or 8, characterized in that beyond a high level of depression of the pedal, the various curves (60, 62, 64, 66, 68 ) join. 10. Motor vehicle comprising an accelerator pedal which controls the torque (C) delivered by the engine, as well as weather detection or reception systems (6, 8, 12, 14), characterized in that comprises means providing a modulation of the torque response to a depression of the accelerator pedal, by a modulation method according to any one of the preceding claims.