DE19623596A1 - Brake system with a device for active brake actuation - Google Patents

Abstract

The invention relates to a brake system for stabilisation of a vehicle during cornering which can be manufactured and fitted easily and at particularly low cost. Said system is consequently particularly suitable for small cars. Since oversteering is a greater problem in said small vehicles than understeering which is easier for the driver to control, the brake system according to the invention is restricted to a regulation operation only when there is a tendency to oversteer. The sensors and functions which are predominantly required for preventing understeering are not included, for example a yaw rate sensor. A transverse acceleration sensor is fitted instead as far as possible to the rear of the vehicle to detect transverse acceleration in the vehicle rear. If the transverse acceleration of the vehicle rear exceeds a certain threshold which may relate to the speed or the steering angle, then the regulation operation is carried out on the curve-outside front wheel.

Description

The present invention relates to a brake system with a Device for active brake actuation according to the preamble of claim 1.

Such a braking system is for example from DE 42 41 595 A1 known. It is a hydraulic one Vehicle brake system, which is an anti-lock device owns and is also trained to improve Vehicle lane behavior, especially in curves through an acti ve brake actuation. Delivers with an active brake application an auxiliary pressure source pressure medium in an anti-lock direction by means of which brake pressures in the wheel brakes indivi are adjustable. There are between the Auxiliary pressure source and the anti-lock device cylinder with separating pistons to build up pressure in the front and rear axles axle brake circuit, the separating pistons ver with valve openings are seen that interact with lip seals. A active brake actuation serves to stabilize the vehicle, thus acts as a tendency to oversteer or understeer tendency or a risk of skidding or one already against slingshots. To win the tax signals are measured, for example, slip angle and compared to pre-selected thresholds. For example can also use a yaw rate sensor to adjust the speed speed of the vehicle can be observed around the vertical axis. Dude  natively, axis-specific transverse accelerations can be measured and converted into a yaw rate the.

A method for determining such driving dynamically relevant The size is known for example from DE 42 00 061 A1. In order to make an assessment of all critical driving situations To enable necessary brake interventions, a Ver drive to determine the vehicle lateral speed and / or of the float angle suggested. To carry out this ver driving are sensors for the steering angle of the front wheels and possibly the rear wheels, for the single wheel speeds to determine a vehicle reference speed for which Yaw rate as well as for the transverse vehicle acceleration agreement required. As an alternative to a lateral acceleration Sensor is proposed to increase the brake pressures on the wheels measure or estimate.

A generic braking system that is active Brake actuation should be suitable and a corresponding evaluation the current driving situation, therefore requires a rela tiv high additional effort in the form of additional hydraulics for selective active brake pressure build-up, this optionally on one or more of the four wheels should take place, and to additional sensors such as yaw rate sensor, steering wheel angle sensor or wheel steering angle sensor, lateral acceleration sensor and Brake pressure sensors at least in the main brake lines of the Brake circuits.  

This is particularly high for small and very small cars Effort for a full-fledged braking system with one Direction for active brake actuation to stabilize the Driving behavior must be invested due to the high price and the large installation space required is difficult on the market enforce.

The present invention is based on the object Propose braking system of the type mentioned, which is also suitable for use in small and very small cars net, so very inexpensive and easy to manufacture and can be installed without significant loss of driving to accept safety.

This problem is solved in connection with the mark the features of claim 1.

The principle of the present invention is that ins a critical driver especially for small and very small cars usually stop by oversteering the vehicle. The understeer - especially under load - is with those in the Usually small motorized vehicles a small pro blem. The invention thus limits the braking system to size which are required against oversteering. Because of the less critical driving situation when understeering functions that predominantly require against understeering are omitted. Both hydraulics and sensors can be made easier and cheaper.  

For example, there must be no yaw rate of the Vehicle can be detected more, but it is sufficient to firmly whether the tail breaks out when cornering. An entry criterion in an active brake application can So be the lateral acceleration of the rear of the vehicle, if this exceeds a certain threshold.

It is possible to speed-dependent this threshold and / or to design depending on the steering angle, in the engagement of the adapt to each driving situation.

In order to counteract a tendency to oversteer, it is sufficient to actuate the wheel brake of the front wheel on the outside of the curve. There A brake system according to the invention can be equipped in this way be that only the - which is already driven in small cars - Front axle with the possibility of active brake actuation is provided. So if, for example, a front axle Rear axle brake circuit division with a hydraulic brake system, it is sufficient to use a brake that is known per se Traction control system for active brake actuation supply for the purpose of stabilizing driving behavior use. The rear axle brake circuit would then only be with an anti-lock function. But also with one so-called X brake circuit division would be a drive slip regulated brake system suitable because such a brake system allows active brake pressure build-up on the front axle and during such an intervention by a separating valve the Hin disconnects the terax brakes from the auxiliary pressure source.  

As the criterion for recognizing oversteer, the Querbe acceleration of the rear of the vehicle is suitable, it is sufficient as the only sensor to record the driving dynamics at a To provide a lateral acceleration sensor when cornering installed as far back as possible in the vehicle. A yaw tensensor can be omitted. For fighting understeering it is not necessary to determine whether a measured greed angular velocity of a predetermined target yaw angle speed follows or not. Characteristic of that Oversteer of a vehicle is that the rear of the vehicle is off breaks, so that the lateral acceleration sensor, which is in the rear Vehicle is built, reliable information on the There is a need for regulatory intervention.

There are four wheel sensors on an anti-lock brake system ren for recording the independent wheel circumference speeds without down there. With an additional lateral acceleration sensor and a steering angle sensor and possibly a pressure switch in one of the brake circuits there is a traction control system equipped braking system in the cheapest way to one Brake system upgraded, which for active brake application for the purpose of stabilizing the driving behavior of the driver is equipped in a curve. Also the necessary one Software for determining whether active brake actuation is necessary is agile and if so which one is reduced since it is very fold criteria for a rule intervention.

The advantage of a braking system according to the invention is therefore that Reduction of effort compared to known brake systems  with devices for active braking. The driving behavior in kri table situations is significantly improved compared to such Brake systems that are only equipped with an anti-lock and traction control function are equipped. Only in driving situations that are not highly critical anyway and are more likely to be mastered by the driver does not become active intervened by brake actuation. The oversteer that in Contrary to understeer by the driver of the vehicle, not so can be easily mastered, but will undoubtedly bound.

In comparison to the significantly lower price to known brake systems of this type, there is therefore a Wide range of applications for small vehicles.

Claims (6)

1. Braking system with a device for active Bremsbetäti supply in the sense of stabilizing the driving behavior of a two-axle vehicle when driving through a curve, with targeted braking actuation and / or releasing individual wheels on the vehicle exerts a yawing moment which weles the vehicle into a desired one Path curve brings, characterized in that an active brake application is finally used against a tendency to oversteer. 2. Brake system according to claim 1, characterized in that active brake actuation only takes place when the Lateral acceleration of the rear of the vehicle a certain smolder le exceeds. 3. Brake system according to claim 2, characterized in that the threshold is speed-dependent. 4. Braking system according to claim 2 or 3, characterized in that the threshold is dependent on the steering angle. 5. Braking system according to one of the preceding claims, there characterized in that an active brake application only on the brakes of the front wheels.   6. Brake system according to one of the preceding claims, there characterized in that the only sensor for detection vehicle dynamics when cornering is the acceleration sensor that is as close as possible to the vehicle rear, at least near or behind the rear axle is arranged.