WO2006061276A1

WO2006061276A1 - Method and device for vehicle deceleration after a collision

Info

Publication number: WO2006061276A1
Application number: PCT/EP2005/055225
Authority: WO
Inventors: Frank Ewerhart; Reiner Marchthaler; Mario Kroeninger; Stephan Stabrey
Original assignee: Robert Bosch Gmbh
Priority date: 2004-12-07
Filing date: 2005-10-13
Publication date: 2006-06-15
Also published as: DE102004058814A1

Abstract

The invention relates to a method for controlling the braking system of a motor vehicle, whereby the occurrence of a collision is detected (201) and, on occurrence of a collision, a driver-independent activation of the braking system is carried out (202). According to the invention, dependent on at least one cancellation condition (203), the intensity of the braking activation is reduced (204).

Description

Method and device for vehicle deceleration after a collision

State of the art

The invention relates to a method and a device for vehicle deceleration after a collision.

Systems such as the vehicle dynamics control system ESP or active steering systems to prevent accidents by assisting the driver in critical driving situations are known. Such systems are similar in the physical possibilities by active steering and braking interventions, the vehicle movement to the direction specified by the driver by the steering wheel angle direction and thus increase the

Controllability of the vehicle. Also known are systems such as the hydraulic brake assist, which detect an emergency situation from the operation of the vehicle (e.g., brake and accelerator pedal operation) and assist the driver-initiated braking to maximize the maximum delay possible. If there is an accident, the occupants are restrained by restraint systems such as belts or

Airbags protected. Systems for automatic emergency braking use information obtained with the help of environment sensors to predict a possible accident and to trigger emergency braking if unavoidable.

DE 197 53 971 A1 discloses a method and a device for controlling the

Brake system of a vehicle known. In this case, in a detected collision situation, braking force is built up beyond the driver's specification, preferably down to a maximum value. The features of the preambles of the independent claims are taken from DE 197 53 971 Al.

Advantages of the invention

The invention relates to a method for controlling the brake system of a motor vehicle, in which the presence of a collision of the motor vehicle is detected and in which a driver-independent braking intervention is performed in a present collision.

The essence of the invention is characterized in that, depending on at least one withdrawal condition, the intensity of the

Brake intervention is withdrawn.

An advantageous embodiment of the invention is characterized in that the

Intensity of the braking intervention is withdrawn,

- if the speed of the vehicle falls below a predetermined lower threshold and / or

- If it is detected by the driver behavior that the driver desires a reduction in the intensity of the braking intervention.

Due to the remaining residual speed, the driver is given the opportunity to quickly remove the vehicle from the accident area in order to avoid consequential accidents. Under the intensity of the braking intervention, e.g. the built-up brake pressure at the wheels or the built-up braking torque to be understood.

An advantageous embodiment of the invention is characterized in that it is determined whether the vehicle is not manageable after the collision by the driver and that a driver-independent braking intervention is performed when the vehicle is determined as not controllable by the driver after the collision.

This does not deprive the driver of the possibility of continuing to control himself if the present controllability of the vehicle is recognized. An advantageous embodiment of the invention is characterized in that the presence of a collision is determined on the basis of output signals of retaining means associated sensors.

An advantageous embodiment of the invention is that the presence of a collision is detected on the basis of the output signals of acceleration sensors.

An advantageous embodiment of the invention is that the presence of a collision is detected on the basis of the output signals of airbag sensors.

The sensors mentioned are available as standard in modern equipped vehicles.

An advantageous embodiment of the invention is characterized in that - the speed of the vehicle is determined after the collision and that a driver-independent braking intervention is performed when the speed exceeds a predetermined upper threshold.

An advantageous embodiment of the invention is characterized in that, depending on the at least one return condition, the braking intervention is terminated.

An advantageous embodiment of the invention is characterized in that the braking intervention is terminated when the speed of the vehicle falls below the predetermined lower threshold.

An advantageous embodiment of the invention is characterized in that there is a full braking as braking.

An advantageous embodiment of the invention is characterized in that in addition to the detection of the collision, the output signals from sensors of a

Vehicle dynamics control system. These output signals can also enter into the classification of the collision alternatively or additionally. The additional sensors allow for improved detection and classification of the present collision. - A -

An advantageous embodiment of the invention is characterized in that the output signals from sensors of a vehicle dynamics control system and / or sensors of an airbag system are included in the determination as to whether the vehicle can not be controlled by the driver after the collision.

An advantageous embodiment of the invention is characterized in that the output signals of at least one sensor of a vehicle dynamics control system are evaluated and - these output signals in the selection of the braked wheels and / or the

Braking intensity of the driver-independent braking intervention go.

It is also possible to brake the different wheels with different intensities.

An advantageous embodiment of the invention is characterized in that a

Driver request is detected after a withdrawal of the braking intensity on the basis of a force exerted by the driver operating the accelerator pedal and / or the brake pedal. The amount of operation may be e.g. to act on the actuation speed of the pedal or the covered actuation path of the pedal or its operating angle.

Furthermore, the invention comprises a device for controlling the brake system of a motor vehicle, comprising

Collision detection means for detecting the presence of a collision of the motor vehicle and

Brake control means for performing a driver-independent braking intervention in a present collision. The core of the device according to the invention consists in that braking intensity reduction means are furthermore provided by which the intensity of the braking intervention is withdrawn, by means of which the intensity of the braking intervention is withdrawn as a function of at least one return condition. It is also possible, instead of or in addition to the brake system, to control the engine management and / or the gearbox independently of the driver.

Therefore, an advantageous embodiment of the invention is characterized in that in addition to the driver-independent braking intervention, a driver-independent engagement in the

Engine management and / or the transmission takes place.

The advantageous embodiments of the method according to the invention are of course also expressed as advantageous embodiments of the device according to the invention and vice versa.

drawing

The drawing consists of Figures 1 and 2.

FIG. 1 shows the structure of an embodiment of the method according to the invention embedded in the system according to the invention.

FIG. 2 shows a further embodiment of the method according to the invention.

embodiments

Today's vehicle dynamics control systems utilize the possibility of active (i.e., driver independent) brake pressure build-up to stabilize the yaw motion in the vehicle

Driving. Restraint systems detect an accident to trigger appropriate restraint devices. In an accident in which, for example, the driver's airbag is triggered, but the vehicle does not come to a standstill, there is a risk of a subsequent accident in which the vehicle may collide with other vehicles or with the edge development, for example. The driver may not be able to decelerate the vehicle himself by depressing the brake pedal due to his frightening behavior in such a situation. It is also possible that the driver can not carry out the braking himself due to the consequences of the accident and that an activation of the brake assistant is not feasible for him. In the present invention, therefore, the automatic release of braking in such an accident is provided. Such braking, which is automatically triggered after detection of an accident, slows down the vehicle and thus reduces the severity of a possible consequential accident. If the vehicle is caused by the initial impact in a centrifugal movement, then by reducing the

Speed increases the likelihood that the driver can stabilize the vehicle and a subsequent accident may be avoided.

To practice the invention, no complex sensors for detecting the vehicle environment is necessary. The sensors already available in the vehicle anyway

Restraint systems are also used to trigger automatic braking. The required to implement the braking actuators such. ESP or EHB hydraulics (ESP = "Electronic Stability Program", EHB = electro-hydraulic brake) or an electronically controllable brake booster are also available in modern vehicles, so that the benefits of the invention without additional

Sensors or actuators in the vehicle can be achieved.

When driving, the data of the sensors of the airbag control unit (for example, central acceleration sensors, externalized acceleration sensors on the front of the vehicle and the sides of the vehicle, pressure sensors in the doors, etc.) are continuously evaluated so that a collision can be detected at any time. In this case, a classification of the accident in terms of severity and possibly impact location and angle of the collision object can be performed on your own vehicle. An automatic braking is triggered and executed by means of an active or driver-independent braking system when an accident is detected in which

Based on type and severity and / or measured movement and / or operating variables, it is to be assumed that the driver can not control the vehicle and, in addition or alternatively, it is determined that the vehicle is moving at high speed even after the accident.

The deceleration of the vehicle can be done for example in the form of full braking. But it can also be a braking with variable delay, so that is greatly delayed, for example, at high speed to quickly reduce kinetic energy. If the vehicle moves slowly after a certain time, can the braking can be withdrawn since the driver's startle reaction stops and the vehicle is easier to control by the driver at low speeds. This variant would then allow the driver to take control of the vehicle and, for example, allow the vehicle to drive away from places at high risk of another accident. These places of high risk are, for example, intersections, railroad crossings, or lanes on the highway.

Fig. 1 shows the structure of the present invention. Based on the output signals of the airbag sensors 100, in block 150 the presence of a collision is detected and optionally a classification of the collision is performed, in block 151 an assessment of the controllability of the present situation by the driver is made and in block 152 the type and intensity of a suitable braking intervention determined. Depending on the determination result in block 152, the brake actuators are activated in block 102. In this case, for example, the hydraulics underlying an ESP system or EHB system or an electronically controllable brake booster can be used.

The blocks 150, 151 and 152 may be supplied with additional input signals originating from an optional ESP sensor 101. An ESP sensor typically includes wheel speed sensors, a yaw rate sensor, a lateral acceleration sensor and a steering angle sensor.

FIG. 2 shows a further embodiment of the method according to the invention. After starting in block 200, a query is made in block 201 as to whether a collision has occurred. Optionally, it can additionally be queried whether the vehicle speed exceeds an upper limit value and whether the vehicle in the current state can no longer be controlled by the driver. If the answer is "No" (always labeled "n" in FIG. 2) then returns to block 200. On the other hand, if the answer is "yes" (always marked "y" in FIG. 2), then in block 202 a driver-independent braking intervention is performed. Subsequently, a query is made in block 203 as to whether the speed of the vehicle falls below a predefined lower threshold value or whether the return condition for canceling the intensity of the braking intervention is fulfilled If the answer is "No", then it branches back to the input of block 203. If the answer is, yes ", then in block 204 the intensity of the braking intervention is reduced or the braking intervention is even completely canceled. In block 205, the process ends.

In one embodiment of the invention, the possibility of an additional withdrawal of the intensity of the braking intervention by the driver may be provided, for example when detecting an accelerator operation by the driver. This is advantageous, for example, when the driver has the vehicle under control again after the collision, even though the current vehicle speed is still greater than the lower threshold value.

In the context of the invention, it is possible that the automatically triggered in the case of a detected collision deceleration of the vehicle is also withdrawn by a suitable control of engine management or transmission before the vehicle comes to a halt. This also allows the driver to get the vehicle out of the danger zone.

The intensity of the braking intervention is withdrawn,

- if the speed falls below a lower threshold and / or

if the driver indicates that the automatic deceleration is to be terminated. This can e.g. be detected on the basis of the operation of accelerator pedal and / or brake pedal.

Claims

claims

1. A method for controlling the brake system of a motor vehicle, in which the presence of a collision of the motor vehicle is detected (150), in which a driver-independent braking intervention is performed in a present collision (102), characterized in that - depending on at least one return condition the Intensity of

Brake intervention is withdrawn.

2. The method according to claim 1, characterized in that the intensity of the braking intervention is withdrawn, - If the speed of the vehicle falls below a predetermined lower threshold and / or if it is detected by the driver behavior that the driver is a withdrawal of

Intensity of the braking intervention wishes.

3. The method according to claim 1, characterized in that it is determined whether the vehicle after the collision by the driver is unmanageable (151) and that a driver-independent braking intervention is performed when the vehicle determined after the collision as not controllable by the driver becomes (102).

4. The method according to claim 1, characterized in that the presence of a collision on the basis of output signals of retaining means associated sensors (100) is determined.

5. The method of claim 1, that the presence of a collision on the basis of the output signals of acceleration sensors (100) is detected.

6. The method according to claim 1, characterized in that the presence of a collision on the basis of the output signals of airbag sensors (100) is detected.

7. The method according to claim 1, characterized in that the speed of the vehicle is determined after the collision and that a driver-independent braking intervention is performed when the speed exceeds a predetermined upper threshold.

8. The method according to claim 1, characterized in that is terminated depending on the at least one return condition of the brake intervention.

9. The method according to claim 1, characterized in that as braking (102) a

Full braking occurs.

10. The method according to any one of claims 4, 5 or 6, characterized in that in addition to the detection of the collision, the output signals from sensors of a vehicle dynamics control system (101) received.

11. The method according to claim 3, characterized in that in the determination of whether the vehicle is not controllable after the collision by the driver, enter the output signals from sensors of a vehicle dynamics control system and / or sensors of an airbag system (101).

12. The method according to claim 1, characterized in that the output signals of at least one sensor of a vehicle dynamics control system (101) are evaluated and - these output signals in the selection of the braked wheels and / or the

Brake intensity of the driver-independent braking intervention (152).

13. The method according to claim 1, characterized in that in addition to the driver-independent braking intervention, a driver-independent intervention in the engine management and / or the transmission takes place.

14. The method according to claim 2, characterized in that a driver request for a withdrawal of the braking intensity is detected on the basis of a force exerted by the driver operating the accelerator pedal and / or the brake pedal.

15. An apparatus for controlling the brake system of a motor vehicle, comprising - collision detection means for detecting the presence of a collision of

Motor vehicle as well

Brake control means for performing a driver-independent braking intervention in a present collision, characterized in that - further braking intensity reduction means are present, by means of which, depending on at least one withdrawal condition, the intensity of the braking intervention is withdrawn.