FR2958708A3 - Input clutch control method for controlled automatic gearbox of vehicle, involves maintaining clutch in intermediate sliding situation to transmit sufficient torque level to allow crawling movement of vehicle if driver releases brake pedal - Google Patents

Abstract

The method involves maintaining an input clutch in an intermediate sliding situation for a predetermined period after immobilization of a vehicle by support of a driver on a brake pedal, so as to transmit a level of torque (Cemb) sufficient to allow crawling movement of the vehicle if the driver releases the brake pedal without additional torque request before the end of the period. The clutch is completely opened at the end of the period. The clutch torque is quickly reduced to a calibrated value according to a constant slope ramp during immobilization of the vehicle.

Description

The present invention relates to the control of an automatic transmission input clutch. It finds its application on any type of automatic or automated transmission, associated with an input clutch. More specifically, this invention relates to a method of controlling a vehicle automatic transmission input clutch capable of interrupting transmission of torque between the engine and the transmission in a fully open condition. The mode of moving a vehicle said "ramping" is to pass a low level of torque from the engine to the driving wheels, when the accelerator pedal is not pressed, and the brake pedal is released. : the vehicle then rolls at low speed. In slow driving, with a succession of phases 20 stop / start the vehicle (typically in a traffic jam situation or parking maneuvers), the "rampage" mode allows the driver to act only on the brake pedal to manage the steering of the vehicle. For hill starts, it only acts on the acceleration pedal without using its parking brake. This "rampage" mode is present on most conventional automatic transmissions associated with a hydrokinetic torque torque converter, capable of dissipating the energy of the engine when the vehicle is stopped. On the other hand, it is incompatible with manual or automatic gearboxes, in which the transmission of the torque between the engine and the latter is controlled by a "dry" input clutch, incapable of dissipating by friction of the energy mechanical, without deteriorating rapidly.

The present invention aims at controlling a vehicle automatic transmission input clutch in a ramping situation. For this purpose, it proposes that, following the immobilization of the vehicle by the driver's support on the brake pedal, the input clutch is maintained for a given period in an intermediate slip situation, so as to be able to transmit a sufficient torque level to put the vehicle in motion of rampage, if the driver releases the brake pedal without additional request for torque before the end of this period. Preferably, the clutch is fully open at the end of this period.

Other features and advantages of the invention will be better understood on reading the following description of a nonlimiting embodiment thereof, with reference to the appended drawings, in which: FIG. 20 clutch opening in stop mode, and Figure 2 shows a clutch management strategy for the maneuvering phases. When the vehicle stops, engine running, the torque provided by it is not zero. However, the driver wants his vehicle to move no further, in other words, the torque transmitted to the wheels is zero. To do this, open the clutch to cut the driveline. This solution is the one that is conventionally used on all automatic clutch input boxes. In this phase, the input clutch is controlled, so as to achieve a compromise between speed of opening, in order to quickly stop the vehicle and especially not to stall (low engine speed, when the driver 35 presses the brake, the resistant torque can become greater than the engine torque), and slow opening, to avoid creating shocks by releasing too quickly the torque at the clutch. The opening of the clutch therefore follows a graded slope ramp. The slope must be sufficient to open the clutch correctly with high torque amplitudes. But it may be too strong and the opening too fast (which creates a shock) for low torque amplitudes. Conversely, if it is low enough to avoid shocks when opening the clutch with small torque amplitudes, the opening may be too slow for high torque amplitudes, and the engine may stall. This method therefore has disadvantages. According to another method, illustrated in FIG. 1, the closing of the input clutch can cancel the pair Cemb over a period of time imposed by open_time. Whatever the amplitude of the initial torque to be canceled, for example Cl or C2, the opening of the clutch is made for an identical duration. This strategy consists in making the clutch torque Cemb zero following a ramp whose slope is calibrated in time (over an imposed time), whatever the amplitude of the torque to be canceled. It is thus possible to adapt the torque cancellation slope to its initial amplitude. In creep mode, the clutch shall not open each time the driver presses the brake while maneuvering or following the line. In addition, it is necessary to guarantee a low level of torque to the wheel immediately available during maneuvers. It is therefore necessary to obtain an immediate response from the vehicle to the request for movement of the driver, each time he releases his brake pedal. In Figure 2, five distinct time periods are identified. Originally the vehicle is assumed running at constant torque (clutch locking torque). this is the "RUN 1" period, until entering "STOP" mode. When entering the "STOP" mode, that is to say during the immobilisation of the vehicle, the torque passing through the clutch Cemb is rapidly lowered along a ramp whose slope is constant over the duration "clu_almost_open_time" to go down to a calibrated level "clu_nop level". The level of torque "clu_nop level" is low but not zero, for example of the order of 10 Nm. It is kept for a determined duration, "clu_nop_time". If the vehicle has remained in stop mode during the "clu_nop time" period, the torque is canceled so as not to dissipate energy unnecessarily by sliding the clutch indefinitely. This cancellation follows a fixed slope ramp, calibrated in time during the duration "clu_open_time". The Cemb pair is therefore canceled in two stages during the "STOP 1" period of FIG. 2. When the driver restarts his vehicle, the torque rises again, up to the torque peak of the "RUN 2" period. . This peak corresponds to its new entry in stop mode, this is the beginning of the "STOP 2" period of the scheme. The couple goes down on a fixed slope calibrated in time until the "clu_nop level".

Following the diagram (sequence "RUN 3"), the driver asks to advance his vehicle quickly after entering the stop mode, that is to say before the expiration of the "clu_nop_time" previous. The vehicle then benefits from the torque reserve "clu_nop_level", which allows it to move more quickly than if it had waited for the cancellation of the couple as before. In summary, the invention is based on the control of a vehicle automatic transmission input clutch capable of interrupting the transmission of torque between the engine and the transmission, in fully open position. It proposes to keep the clutch slipping for a certain time after stopping the vehicle, so as to let a low level of torque from the engine to the wheels, then to open the clutch completely if the vehicle remained stopped during this period . Following the immobilization of the vehicle by the driver pressing the brake pedal, the clutch is maintained for a given period in an intermediate slip situation, so as to transmit a sufficient torque level to put the vehicle in motion ramping, if the driver releases the brake pedal without additional request for torque before the end of this period. If the driver is in operation, he actually asks to quickly exit the "stop mode" and benefits from the torque reserve provided by the sliding of the clutch to restart. If, on the other hand, he really wants to stop, he will not make any request to get out of the "stop mode" by keeping the brake pedal pressed down so as not to ramp up. He does not need the torque reserve. This reserve is canceled after a while by the full opening of the clutch, so as not to unnecessarily dissipate energy by friction in it. This arrangement contributes to the driving pleasure for another reason: the pressing on the brake pedal is only used to prevent the entry into rampage mode, since very quickly, this support is no longer necessary to counteract the torque offered by the clutch. The driver no longer has the uncomfortable impression of having to prevent his vehicle from rolling, using the brake pedal.

Claims (7)

REVENDICATIONS1. A method of controlling a vehicle automatic transmission input clutch capable of interrupting the transmission of torque between the engine and the transmission in a fully open position, characterized in that following the immobilization of the vehicle by the driver's support on the brake pedal, the clutch is maintained for a determined period in an intermediate sliding situation, so as to be able to transmit a sufficient torque level (Cemb) to put the vehicle in motion of rampage, if the driver releases the pedal without additional request for torque before the end of this period. 2. Control method according to claim 1, characterized in that the clutch is fully open at the end of this period. 3. Control method according to claim 1 or 2, characterized in that the driver has a reserve of torque provided by the sliding of the input clutch to restart during this period. 4. Control method according to claim 1 2 or 3, characterized in that during the immobilization of the vehicle, the clutch torque (Cemb) is rapidly lowered by following a ramp of constant slope, up to a calibrated value (clu_nop_level). 5. Control method according to claim 4, characterized in that the torque level (clu_nop level) 30 is retained for a first determined period (clu nop time). 6. Control method according to claim 5, characterized in that if the vehicle has remained in stop mode for the duration (clu_nop time), the torque of the clutch 35 (Cemb) is canceled. 7. Method according to claim 6, characterized in that the cancellation of the clutch torque follows a fixed slope ramp on a second determined duration (clu_open_time).