FR2981900A1 - Method for controlling function of assisted parking brake of e.g. thermal propulsion vehicle, involves activating function at request of driver from gear selector of automatic transmission for immobilization of wheel brakes of vehicle - Google Patents

Abstract

The method involves activating a function of an assisted parking brake at request of a driver from a gear selector (3) of an automatic transmission (1) for allowing immobilization of wheel brakes of a vehicle by clamping. The activation of the function is authorized by enabling the gear selector in a parking position (P), or by actuating a dedicated lever (8) integral with the gear selector. Manual deactivation of the function is authorized when the gear selector quits the parking position, where the manual deactivation is effective in neutral position. An independent claim is also included for a device for controlling function of an assisted parking brake.

Description

TECHNICAL FIELD The present invention relates to the control of electric parking brakes of road vehicles. It relates to a method for controlling an assisted parking brake function for a road vehicle equipped with a drive motor and an automatic transmission, which makes it possible to immobilize the vehicle by clamping the vehicle wheel brakes. when this function is activated. This invention is applicable to any vehicle with thermal, electric or hybrid propulsion, equipped with an automatic or automated transmission with one or more discrete or continuously variable ratios, controlled by the driver by means of a selector, or lever, placed on his driving position and movable manually between various positions, stable or not. It applies in particular to a road vehicle equipped with a drive motor and an automatic transmission, comprising an assisted parking brake actuator acting on the wheels of the vehicle, a gear selector with a parking position ( P), a dedicated parking brake lever, a data transmission network between the gear selector, the joystick, a transmission calculation unit, and a vehicle electronic computing unit. Most automatic transmissions are equipped with a mechanical parking brake system. This parking brake consists essentially of a gear wheel aligned on a shaft of the transmission, and a parking pin immobilizing the transmission when engaged in the notches of the toothed wheel. Automatic transmission selectors most often have a parking position "P", in which the vehicle is - 2 - immobilized by a mechanical parking brake system, independent of the vehicle wheel brakes. Many vehicles are also equipped with an electric parking brake control, or FPA assisted parking brake, adapted to tighten the vehicle wheel brakes to stop the vehicle at a standstill at the driver's request regardless of the pedal brake, for example to immobilize the vehicle on a steep terrain, before a hill start, or when he abandons the parked vehicle on flat ground or not. Some vehicles are therefore equipped on the one hand with a mechanical parking brake associated with the transmission and controlled by the gear selector, and on the other hand with an assisted parking brake system acting on the braking system. of the vehicle, operated by a lever or by a lever independent of the gear selector. GB 2 437 091 discloses an electric parking brake system for a vehicle without a ignition key, comprising an electric parking brake control module and an automatic transmission having a "parking" mode, and an electronic transmission control unit knowing the position of the gear selector. The parking brake system further includes an electronic ignition control unit, knowing the position of an ignition switch. A parking brake control module is able to impose the tightening of the vehicle brakes when it receives the double information of cut of the contact and that the transmission is in "parking" mode. This combination provides a high level of safety, by automatically activating the parking brake function of the vehicle, when the transmission is in "parking mode", and the driver turns off the engine. However, it is inoperative on a vehicle without an automatic transmission with an integrated parking brake system capable of mechanically locking the drive train of the vehicle independently of the wheel brakes. The present invention aims at providing the driver with a parking brake control identical to that which it has on vehicles equipped with automatic transmissions with a mechanical parking brake, by means of the assisted parking brake system of the vehicle. For this purpose, it proposes that the assisted parking brake function can be activated at the request of the driver, from a gear selector of the transmission. According to the invention, the vehicle wheel brakes are tightened when the gear selector is engaged in its position P or if a specific operating handle is actuated. In any case, the function can not be deactivated until the speed selector has left the position P. Preferably, the activation of the function is authorized, either by engaging the gear selector in a position of parking P, or by operating a dedicated lever, independent of the gear selector. Other features and advantages of the present invention will become clear from reading the following description of a non-limiting embodiment thereof, in which: Referring to the accompanying drawings, in which: - Figure 1 shows an example of a current parking brake control architecture; - Figure 2 illustrates the proposed architecture, and Figures 3A and 3B summarize the associated control strategy. In Figure 1, there is shown schematically an automatic transmission 1 associated with two drive wheels 5 of the vehicle. The automatic transmission 1 includes an internal control system 2 mechanically connected (by cable) to a transmission selector 3, comprising for example the conventional positions P for "park" or "parking", R for "reverse" ( reverse), N for "Neutral" and D for "Drive". The control system 2 is electrically connected to the computer of the box 4, which dialog with a vehicle electronic control unit 6. The control unit 6 also dialog with an assisted parking brake actuator 7 and with a joystick assisted parking brake (FPA) 8 available to the driver on his driving position to tighten the vehicle wheel brakes. The latter thus has a gear selector 3, and a parking brake lever 8. According to a usual arrangement, the position P can be provided by a parking finger (not shown) actuated from the selector 3, which engages between two notches of a toothed wheel integral with a shaft of the transmission, so as to immobilize the latter. The assisted parking brake is controlled independently and electrically from the handle 8 via the vehicle data transmission network. In Figure 2, we find the same elements. However, the box selector 3 no longer has a mechanical connection with the internal control box 2. On the other hand, it dialogs electrically with the box calculator 4 and with the vehicle control unit 6 on the transmission network. vehicle data. Thanks to this control architecture, the immobilization of the vehicle can be provided by the parking brake actuator 7, in response to the engagement of the selector 3 in position P. It is therefore no longer necessary that the box has a clean parking brake system, by parking finger and toothed wheel or other. The parking brake control lever 8 is, however, retained, so that the assisted parking brake function (FPA) can be activated, either from it or from the box selector 3. The manual deactivation of the function is authorized when the gear selector has left the position P. In the case where the selector has the functions P, R, N, D mentioned above, the deactivation can only be effective if the selector is placed in position. forward position D or reverse R with request to start the vehicle by pressing the accelerator pedal. However, the manual deactivation of the FPA is possible in position N, using the handle 8. In FIGS. 3A and 3B, simplified control loops have been described between the activated state of the FPA function (step A). and its inactivated state (step F). In FIG. 3A, the FPA is initially activated, for example if the vehicle has been immobilized, with the engine off. When the engine start is requested (step B), as well as the manual deactivation of the function (step C), the FPA is deactivated (step F) only if the selector has left the position P (step D). Otherwise, it remains activated (return to step A). If the deactivation has not been requested manually, it can however be requested automatically (step E) and imposed, in particular for reasons of operational safety. In FIG. 3B, there is initially the step F, FPA deactivated. Once the selector is engaged in position P or if the activation is requested from the joystick (step H), the authorization can be granted in step I, and the APF is then activated (return to step A ), the activation is authorized in step I. If it is refused, it returns to step F. In conclusion, the invention makes it possible to perform an assisted parking brake function (FPA) according to a specific strategy ensuring to the driver a service similar to the one he knows today on an automatic transmission with cable parking brake control (for example with a parking finger and a toothed wheel), without the transmission necessarily having such a transmission. ordered. The usual FPA service, ensuring on demand the keeping of the wheel brakes tight, when the vehicle is abandoned is also ensured completely. It also corresponds to that of an automatic transmission parking brake, without it being necessarily equipped with the corresponding mechanical system.

Claims (9)

REVENDICATIONS1. A method of controlling an assisted parking brake function for a road vehicle equipped with a drive motor and an automatic transmission (1), which makes it possible to immobilize the vehicle by clamping the vehicle wheel brakes when this function is activated, characterized in that the function can be activated at the driver's demand speed selector, from one (3) of the transmission. 2. Control method according to claim 1, characterized in that the activation of the function can be authorized, either by engaging the gear selector (3) in a parking position (P), or by operating a dedicated joystick ( 8), independent of the gear selector. 3. Control method according to claim 1 or 2, characterized in that the manual deactivation of the function is permitted only when the gear selector (3) has left the position (P). 4. Control method according to claim 3, characterized in that the deactivation of the function is effective when the selector (3) is placed in the forward (D) or reverse (R) position with motion request of the vehicle by pressing the accelerator pedal. 5. Control method according to claim 3 or 4, characterized in that the manual deactivation of the function is possible in position (N), using the dedicated controller (8). 6. Control method according to claim 3, 4 or 5, characterized in that the function can also be deactivated automatically. 7. Device for controlling an assisted parking brake function for a road vehicle equipped with a drive motor and an automatic transmission (1), comprising an assisted parking brake actuator (7). 8 - acting on the wheels of the vehicle, a gear selector (3) with a parking position (P), a dedicated parking brake lever (8), a network of data transmissions between the selector (3), the lever (8), a transmission calculation unit (4) and a vehicle computer unit (6), characterized in that the vehicle wheel brakes are tightened when the gear selector (3) is engaged in its position (P). 8. Control device according to claim 7, characterized in that it further comprises a backup brake cable parking brake control. 9. Control device according to one of claims 7, 8 or 9, characterized in that the provision of parking brake ensuring on demand the maintenance of the wheel brakes tightened, when the vehicle is abandoned, is provided completely by this one.