Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Indication or control of braking – acceleration – or deceleration
Reexamination Certificate
2001-10-29
2004-01-20
Cuchlinski, Jr., William A. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
Indication or control of braking, acceleration, or deceleration
C701S070000, C701S073000, C701S078000, C701S079000, C701S080000, C701S082000, C180S197000, C303S146000, C303S148000, C303S149000, C303S139000, C303S156000, C303S192000
Reexamination Certificate
active
06681168
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a traction control device for a vehicle that has at least one axle, which has two driven wheels assigned to it, the traction control device, in response to a tendency for one of the driven wheels of the axle to spin, regulating the kinematic behavior of the wheel tending to spin by building up a first wheel brake pressure such that the axle wheel tending to spin remains in a permissible slip range. In addition, the present invention relates to a method for controlling the slip of at least one driven wheel of an axle of a vehicle, the method including the following steps: a) detecting a tendency to spin of one driven wheel of the axle, and b) regulating the kinematic behavior of the axle wheel tending to spin by building up a first wheel brake pressure such that the axle wheel tending to spin remains within a permissible slip range.
BACKGROUND INFORMATION
It is known that in traction control devices, when the regulation begins, to overcome the system-specific dead times, a long, first sustained build-up is carried out, which is termed a filling pulse.
From German Published Patent Application No. 34 23 063, by way of example, a traction control device for vehicles is known in which a wheel is braked if that wheel demonstrates a tendency to spin. In this context, to achieve a rapid response of the brakes when a tendency to spin is detected, the brake is applied already in the preliminary stages of the tendency to spin by initiating a small brake pressure. In this context, the supplying of the small brake pressure is triggered as a function of the change in the throttle valve position, as a function of the vehicle speed, or as a function of the slip thresholds which lie beneath the response thresholds for the actual anti-slip regulation. The supplying of the small brake pressure is accomplished by a filling pulse of constant time duration. This means that when there is a necessity to supply the small brake pressure, the latter is fed into the corresponding wheel brake cylinder for a fixedly predetermined time. As a result of the small brake pressure which is supplied before the actual brake operation, the reaction time is shortened that elapses from determining the tendency to spin until the beginning of the braking. Because the filling pulse in accordance with German Published Patent Application No. 3423063 has a fixedly predetermined time duration for all wheels of the vehicle, tolerances that can be different for the individual wheels, for example, are not taken into account.
To assure that the wheel brakes of all the wheels are in the same state before the actually necessary, foreseeable braking operation, it is already known from German Published Patent Application No. 196 15 294 to individually adjust, for each individual wheel of the vehicle, the time duration during which an activation of the actuators assigned to the respective wheel is undertaken before a foreseeable driver-independent braking operation, and during which, for example, in a hydraulic braking system, a small braking pressure is supplied to the respective wheel brake cylinder and therefore a braking force is applied. In this manner, the mechanical play that is different for the individual wheel brakes is compensated for, the mechanical play coming about, for example, as a result of the mechanical tolerances of the components used. The result of this is that when a braking operation is necessary, all of the wheel brakes demonstrate the identical regulation behavior.
It is also known that a relatively long filling pulse can make uphill driving easier (for example, 15% &mgr;-split slope). At the end of a relatively long filling pulse of this type, the wheel brake pressure can be roughly 5 to 10 bar. Based on this pressure, the locking ratio can be rapidly increased through a further pressure build-up, so that the vehicle can be prevented from rolling backwards. On a level surface, a smaller braking pressure is sufficient due to the absence of a downward force. In general, the filling pulse, especially in single-sided regulation, for example, when starting up on &mgr;-split, results in a worsening of the regulation comfort, because the wheel brake torque that is built up on one side by the filling pulse is perceptible as a disturbing torque. To reduce this disturbing torque, the filling pulse in general is carried out in a shorter time. Usually, a compromise is struck between the adjustment for traction during uphill driving and the adjustment that has a small disturbing torque.
The disturbing torque caused by the filling pulse and especially affecting the vertical axis of the vehicle has an direct effect, for example, on the steering in response to a regulation at the front axle, and in response to a regulation on the rear axle, the result is a vehicle that pulls to one side.
SUMMARY OF THE INVENTION
As a result of the fact that in the traction control device according to the present invention it is provided that, for reducing disturbance torques caused by the first wheel brake pressure for an axle wheel that is not tending to spin, a second wheel brake pressure is built up which is adjustable independently of the first wheel brake pressure, the disadvantageous effects of the disturbing torque can at least be significantly reduced.
The same applies to the method according to the present invention, which also includes the step: c) building up a second wheel brake pressure, that is adjustable independently of the first wheel brake pressure, for an axle wheel that does not tend to spin, to reduce a disturbing torque caused by the first wheel brake pressure.
In the traction control device according to the present invention, it is provided that a first filling pulse contributes to building up the first wheel brake pressure, and that a second filling pulse contributes to building up the second wheel brake pressure. As a result of a second filling pulse which is carried out synchronously at the unregulated drive wheel, which due to higher coefficient of friction &mgr; is also termed the high wheel, the disturbing torque is significantly reduced.
In the traction control device according to the present invention, it is advantageously also provided that the length of the second filling pulse is selected such that the vehicle is not limited in its forward motion. Relevant in this connection is the appropriate wheel brake pressure reduction undertaken after the end of the second filling pulse.
The traction control device according to the present invention is also advantageously designed so that the length of the second filling pulse is selected such that, when there is a road incline, a rolling back motion of the vehicle is reduced or prevented. The first slip bulge typically lasts approximately 1 to 1.5 seconds. When there is a road incline, the rolling back motion of the vehicle begins during this time. If in this time period, a wheel brake pressure is present at the unregulated high wheel, this wheel brake pressure does not impair the start-up process, but it does reduce the rollback tendency.
In this connection, the traction control device according to the present invention advantageously provides that the second wheel brake pressure is slowly reduced until the vehicle is clearly moving in the forward direction. To reduce the wheel brake pressure, it is advantageous to use an appropriate reduction pulse, for example, a leakage pulse, using which the second wheel brake pressure at the unregulated high wheel can be slowly reduced. As the threshold value for a clear forward motion, it is possible to use, for example, a vehicle speed of more than 2.75 km/h. At this time point, the second wheel brake pressure can function to prevent instability in the high wheel, an instability of this type being able to be triggered, for example, by a differential change effect. Nevertheless, if instability should arise at the high wheel, the second wheel brake pressure can be quickly built up on the basis of the residual pressure still present.
In connection with the traction contr
Broadhead Brian J
Cuchlinski Jr. William A.
Kenyon & Kenyon
Robert & Bosch GmbH
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