EP3386839A1 - Method for active steering support in a stuck vehicle and control unit - Google Patents

Abstract

The invention relates to a method for actuating an electrically actuatable steering actuator (3) for a motor vehicle, wherein an examination is performed to determine whether the vehicle is stuck and, in the presence of a specified condition, a special control mode of the steering actuator (3) is activated, wherein the steering actuator (3) is designed for driver-independent adjustment of a steering angle (LW) and, in the special steering mode, the steering actuator (3) adjusts a steering angle progression (LW(t)).

Description

Method for active steering assistance with locked vehicle and control unit

The invention relates to a method for controlling an electrically actuatable steering actuator for a motor vehicle, wherein a check is carried out with regard to the presence of a fixed ^¬ driven situation and a special control mode is activated in the presence of a predetermined condition. When driving off-road with a motor vehicle situations may arise in which the vehicle is stuck, for example, on very uneven terrain or yielding ground with poor adhesion of the wheels, such as sand. Usually, measures are taken in such a situation by the driver, such as a free swinging of the vehicle or moving the steering wheel, so that the front wheels again find better adhesion to the ground. This is often uncomfortable for the driver.

From DE 10 2008 036 048 AI a method is known, are recognized in the driving situations of a motor vehicle or ^{¬ be known} above driving situations and an operating mode (free swing mode) is activated in the auto ^¬ matisiert a periodically fluctuating drive torque at the drive wheels of the vehicle ready is set, whereby a so-called free swinging of the vehicle in the longitudinal direction is effected. An alignment of the vehicle wheels along the longitudinal axis by a supporting steering actuating before Ak ^¬ tivierung the free swing mode will be described. Also in DE 10 2013 218 664 AI a method is described in which a free-swing situation is detected and a free-swing mode is activated, wherein the free-swing mode is started, blocked, terminated or influenced by the driver. Such methods have the disadvantage that they do not effectively lead to a release of the vehicle from the locked state in all situations. In certain situations, such a maneuver may even worsen the condition. Especially in situations with a heterogeneous or very uneven ground, such as in the field, an additional intervention of the driver on the steering wheel is often necessary to free the vehicle.

There are methods known per se, in order to superimpose the steering angle predetermined by the driver by means of an actuator an additional steering angle to specification of a control system (overlay ^¬ approximately steering). There are usually used electrical actuators that act on a superposition gear and adjust the additional steering angle independently of the driver.

It is therefore an object of the present invention to provide an improved method for assisting the driver in the situation of a stalled vehicle. This object is achieved by a method according to claim 1 and a control device according to claim 14.

Advantageous embodiments of the invention are the subject of the dependent claims.

The invention is based on the consideration that a suitable steering angle curve can cause a stuck vehicle to come free again. The steering angle curve is a course of the steering angle as a function of time. Such a suitable steering angle curve is therefore adjusted according to the invention in a special control mode by a steering actuator, which is designed for the driver-independent setting of a steering angle. In a preferred embodiment, the special control mode is activated when a standstill is detected and the standstill lasts longer than a predetermined time limit.

A standstill is advantageously always determined when an evaluation of the measured wheel speeds of non-driven wheels reveals that these wheels are not turning. This is preferably determined when the measured wheel speeds are below a predetermined threshold. Advantageously, a standstill is detected only when all non-driven wheels do not rotate.

If there are no non-driven wheels of the vehicle (four-wheel drive vehicle), alternative methods for detecting a standstill are preferably used.

An alternative method for standstill detection evaluates data from an environment detection of the vehicle to detect a standstill. For example, a stoppage can be detected if the environment does not change over a predetermined period of time, or if detected objects do not change their position relative to the vehicle over a predetermined period of time. Further methods for standstill detection use, for example, data of a longitudinal acceleration sensor and / or data of a position determination system (for example GPS) and / or evaluate driver actions, such as e.g. Steering wheel movements, off.

In a preferred embodiment, the special control mode is activated when a standstill is detected and a determined drive torque is above a predetermined limit. Particularly preferably, a stuck state is detected when over a predetermined period of time

Standstill is detected and a determined drive torque during the same period of time above a predetermined Torque limit is. Such a state of the vehicle can detect a stuck situation with high reliability.

In a particularly preferred embodiment, the special control mode is activated when all the following conditions are met:

 -a stoppage is detected

 -a determined drive torque is above a predetermined limit,

 - it is determined that all the driven wheels of the vehicle are turning.

 Preferably, the special control mode is activated when the said conditions are met during a predetermined period of time.

In a further preferred embodiment, the special control mode is activated by an input of the driver. Be ^¬ particularly preferably the input of the driver via an interface, such as a button.

In a preferred embodiment of the invention, the driver receives a message that the special control mode is activated. Particularly preferably, this message is haptically characterized in that not only the steered wheels, but also the steering wheel are moved by the steering actuator, which adjusts the steering angle.

Alternatively, a message to the driver that the special control mode is activated, by a visual and / or acoustic signal.

Preferably, the steering angle curve corresponds to a back and forth about a reference value. By turning back and forth is meant a steering angle curve, in which initially a change in the angle is set in one direction and then a change in the other direction is set. _n

 5

Particularly preferably, the steering angle curve is controlled such that a deflection of the steered wheels takes place at least once to one side relative to the neutral position (straight wheels) and then to the other side relative to the neutral position.

In a preferred embodiment, the steering angle curve corresponds to a periodic course with a predetermined period and amplitude. Advantageously, the steering angle curve is described by a periodic function. Constantly differentiable functions prove to be particularly advantageous since they lead to steering movements which the driver perceives as uniform. For example, a sine function can be advantageously used.

Preferably, a maximum steering angle and a minimum steering angle for the steering angle course are predetermined. Particularly preferably, a maximum amount of the steering deflection is predetermined relative to a reference value. Most preferably, the reference value corresponds to the neutral position.

In the case of a steering angle course described by a periodic course with a predetermined period and amplitude, the amplitude is selected such that the maxima and minima of the course correspond to the minimum, and respectively the maximum, predetermined steering angles.

Particularly preferably, the minimum and maximum steering angles are determined in accordance with a recognized background condition. For example, a smaller maximum (and larger minimum) steering angle is given when the vehicle is on sand to prevent the vehicle from further digging in by the movement of the wheels. A larger maximum (and smaller minimum) steering angle is given when the vehicle is on rocky ground, for example .

b is located. The surface texture can be determined by various ^¬ Dener methods, such as an evaluation of the environment recognition.

In a particularly preferred embodiment, the predetermined minimum and the predetermined maximum steering angle are temporally variable and, while the special control mode is active, adapted. For example, a first

Steering angle course are selected with a relatively small maximum and large minimum steering angle and, if this does not lead to a termination of Festge ^¬ driven state over a predetermined period of time, then a course can be set with a larger maximum and smaller minimum steering angle. In a preferred embodiment, the maximum steering angle and the minimum steering angle are each calculated by means of a predetermined mathematical function as a function of time.

According to a preferred embodiment of the invention, the special control mode is terminated when a movement of the vehicle in the longitudinal direction is detected. A movement of the vehicle in the longitudinal direction is advantageously determined by means of the same method or the same methods, by means of which a stoppage of the vehicle has been detected.

According to a further preferred embodiment, the special control mode is terminated by an input of the driver, wherein such input via an interface (button) or by setting a brake pressure that is greater than a brake ^¬ pressure limit, or via a movement of the steering wheel or via a Hold the steering wheel against the adjustment by the steering actuator during a predetermined period of time can take place. The driver can advantageously terminate the Sondersteu ^¬ ermodus at any time. A termination of the special control mode is provided when the driver engages against the driver-independent control. This is the case, for example, if the driver holds the steering wheel for a predetermined time so that automatic control can not take place or if he actively steers against the control. A braking intervention of the driver (eg, corresponding to a pressure in the master cylinder over a predetermined pressure limit or pedaling of a brake pedal via a predetermined pedal travel) preferably likewise represents a termination condition.

Preferably, while the special control mode is active, a drive torque is predetermined by a control unit, which abuts on ^¬ driving torque on at least one driven axle. A drive torque is needed to propel the vehicle as soon as the wheels grip again. Particularly preferably, the drive torque is constant over the duration of the activation of the special control mode.

A specification of a drive torque by a control unit during the special control mode has the advantage that at any time a drive of the wheels is present should they attack again. It is difficult and uncomfortable for the driver to control an even torque himself by means of an accelerator pedal.

In a preferred embodiment, the drive torque at the beginning of the special control mode is continuously increased to a predetermined value and / or lowered continuously to zero at the end of the special control mode.

The drive torque is particularly preferably defined by a ^¬ assisting assistance system, in particular an automatic speed control system. Is such an assistance system too Beginning of the special control mode active, so it is advantageous to use the predetermined by the assistance system torque.

An embodiment of the invention will be explained in more detail with reference to two drawings. In it show in a highly schematic representation:

FIG. 1, an apparatus for performing a method according to Invention ^¬; and

FIG. 2 shows an exemplary course of several variables during the execution of an example method. FIG. 1 shows a device for carrying out a method according to the invention. The device is contained in a motor vehicle. In this case, la, lb, lc, ld denote the wheels of the motor vehicle. The steerable wheels of the vehicle la and lb can be adjusted in a wheel angle 10a, 10b relative to the longitudinal axis of the vehicle.

The device includes a steering wheel 4, on which in a steering wheel angle 11 can be adjusted. By a sensor ^¬ arrangement 2 of the steering wheel angle 11 and / or the wheel angle 10 a, 10 b are measured. The sensor arrangement 2 is connected to a control unit 6 and transmits the measured steering wheel angle 11 and / or wheel angle 10 a, 10 b to the control unit 6.

By an electrically actuated steering actuator 3, a steering angle LW can be adjusted independently of the driver. By setting a steering angle LW by the steering actuator 3, the wheel angle are adjusted 10a, 10b, and preferably the

Steering wheel angle 11. The steering actuator 3 is connected to the control unit 6. If a special ^¬ control mode is active, the control unit 6 transmits steering angle requirements which correspond to a steering angle curve LW (t) to the steering actuator 3 Steering angle requirements are converted by the steering actuator 3 by adjusting the steering angle curve.

The device has, for example, a drive unit 5, for example a vehicle drive motor, which is connected to one or more vehicle axles and drives the wheels of the driven axles. The drive unit 5 is connected to the control unit 6. In the presence of the special tax mode, a Antriebsmo ^¬ torque request is transmitted to the drive unit 5 such as by the controller, which is implemented by the drive unit 5 as a driving torque.

The drive unit 6 is, for example according connected to an input interface 7 ^¬ (eg. Key). The driver can activate and exit the special control mode via this input interface 7. The drive unit 6 is also connected according to the example with means 8, which can detect a brake operation of the driver, such as a brake light switch.

The drive unit 6 is connected according to the example with means 9 for detecting a stoppage of the vehicle. A duration of the standstill is determined either by the means for

Stand detection 9 measured and transmitted to the control unit 6 or detected by the control unit 6 itself. The special control mode is activated, for example, when a standstill is detected by the means for standstill detection 9 and the duration of the standstill is longer than a predetermined time limit.

In an exemplary embodiment of the invention, an engine torque of the drive unit 5, which is transmitted to the driven axles, detected and transmitted to the control unit 6. Of the special mode is then activated, for example pursuant to, when a standstill by means of level detection Still ^¬ 9 is detected and the detected engine torque of the Drive unit 5 is above a predetermined torque limit. Advantageously, the special control mode is activated only when these conditions are present during a predetermined period of time. In a further exemplary embodiment of the invention, the rotational speeds of the driven wheels are detected and transmitted to the control unit 6. The special control mode is then activated, for example, if all the following conditions are met:

- a standstill was detected by the means for standstill detection 9,

 a determined drive torque of the drive unit 5 is above a predetermined limit value,

 All driven wheels of the vehicle have speeds greater than zero.

FIG. 2 shows an exemplary course of several variables during the execution of an example method. In the figure parts 2a, 2b, 2d and 2e exemplary, by a steering actuator (eg steering actuator 3 in Fig. 1) set, steering angle curves 25, 26, 35 and 36 shown (time courses LW (t)) and in the figure parts 2c and 2f a status indicator 27 of a standstill detection.

The time is plotted on the x-axes 21, 22, a steering angle is plotted on the y-axes 20 in the figure parts 2a, 2b, 2d and 2e, and the value on the y-axis 32 in the figure parts 2c and 2f The status indicator of the standstill detection is applied.

Figs. 2a, 2b and 2c respectively show a beginning of a special control mode, and Figs. 2d, 2e and 2f respectively show a termination of a special control mode. At a first time 28, standstill is detected and the status indicator 27 is set from zero ("no standstill") to one ("standstill detected"). A special tax mode is then ^¬ example according to the time 29 after a standstill during a time period 31 that is longer than a predetermined time limit value, through recognized as valid activated.

By way of example, a maximum steering angle value 23 and a minimum steering angle value 24 for the steering angle curve LW (t) are specified. The current steering angle at the beginning of the special control mode (input steering angle) 33, 34 is determined and compared with the minimum and maximum steering angle values 23, 24.

FIG. 2a shows the steering angle curve LW (t) set in the special control mode by the steering actuator in the case that the input steering angle 33 is greater than the maximum steering angle value 23. A course mirrored in accordance with the x axis is used, for example, if the Input steering ^¬ angle is smaller than the minimum steering angle value 24 and all subsequent considerations apply analogously. First of all, the steering angle is linearly reduced by the actuator according to the example until it lies below the maximum steering angle value 23. In a preferred embodiment, a value for the slope of the linear course is specified.

Subsequently, the course 25 is, for example, in a course described by a sine function on. Advantageously, the transition between the linear course and the sinusoidal curve takes place in such a way that the course is continuously differentiable at each point, since this is perceived by the driver as being particularly uniform.

FIG. 2b shows the steering angle curve LW (t) set in the special control mode by the steering actuator in the event that the input steering angle is smaller than the maximum steering angle. value 23, but greater than zero. A correspondingly mirrored on the x-axis course is used, for example, when the input steering angle 34 is less than zero but greater than the minimum steering angle value 24. In this case, preferably a point of the sine curve is determined as the starting point at which the

Sine function gives a value equal to the input steering angle. The steering angle curve LW (t) now begins with the specific starting point and follows the course 26.

As soon as the motor vehicle has propulsion again at the time 30 and a movement takes place in the longitudinal direction, this is detected by the standstill detection and the status indicator of the standstill detection 27 is set to zero. By way of example, the special control mode is ended when no standstill is more than recognized. Preferably, the special control mode is not terminated abruptly, but a return portion of the steering angle through the steering actuator to a neutral position (straight ahead) takes place after completion of the standstill.

In a preferred embodiment, a completion of the special tax mode is performed by linearly from the value at the time 30 to zero (neutral ^¬ position / straight-ahead position) is provided to the set by the steering actuator steering angle, as shown by the steering angle curve 36 of Figure 2e.

In a second preferred embodiment, the special control mode is terminated by reducing the amplitude over time, as illustrated, for example, in the course 35 of FIG. 2d.

When the steering angle LW has been brought to the neutral position by the steering actuator, the special control mode can be ended.

Claims

claims

Method for controlling an electrically actuatable steering actuator (3) for a motor vehicle, wherein a check is made for the presence of a deadlocked situation and when a predetermined condition a special control mode of the steering actuator (3) is activated, characterized in that the steering actuator ( 3) for driver-independent adjustment of a steering angle (LW) is formed and in the special control mode, the steering actuator (3) sets a steering angle curve (LW (t)).

A method according to claim 1, characterized in that the steering angle curve (LW (t)) corresponds to a back and forth steering around a predetermined reference value, in particular to a neutral ^¬ position.

A method according to claim 1 or 2, characterized in that the steering angle curve (LW (t)) corresponds to a periodic course with a predetermined period and amplitude, in particular a course described by a sine function.

Method according to one of the preceding claims, characterized in that a maximum and a minimum steering angle (23,24) for the steering angle curve (LW (t)) are specified.

5. The method according to claim 4, characterized in that the minimum and the maximum steering angle (23,24) are determined in accordance with a recognized ground condition.

6. The method according to any one of claims 4 or 5, characterized in that the predetermined minimum and the ^¬ given maximum steering angle (23,24) are variable in time and, while the special control mode is active, to be adjusted.

7. The method according to any one of the preceding claims, characterized in that the special control mode is activated when a stoppage of the motor vehicle is detected and the stoppage lasts longer than a predetermined

Time limit (31).

8. The method according to any one of the preceding claims, characterized in that the special control mode is activated when a stoppage of the motor vehicle is detected and a determined driving torque of the motor vehicle is above a predetermined limit.

9. The method according to any one of the preceding claims, characterized in that the special control mode by a

Input of the driver is activated.

10. The method according to any one of the preceding claims, characterized in that the special control mode is terminated when a movement of the vehicle is detected in the longitudinal direction.

11. The method according to any one of the preceding claims, characterized in that the special control mode is terminated by an input of the driver, wherein such an input in particular via

 - a button (7) or

via setting a brake pressure that is greater than a brake pressure limit, or via a movement of the steering wheel (4) or

 by holding the steering wheel (4) for a predetermined period of time against the setting by the steering actuator

 he follows .

Method according to one of the preceding claims, characterized in that during the special control mode, a drive torque is predetermined by a control unit (6) and the drive torque is applied to at least one driven axle.

13. The method according to claim 12, characterized in that the drive torque is set by an assistance system, in particular an automatic speed control system.

Control unit (6) of a motor vehicle, which comprises means for detecting a stuck situation and for driving an electrically actuated Lenkaktuators (3) of the motor vehicle is formed, characterized in that a method according to any one of the preceding claims by the control unit (6) is performed.