Fluid-pressure and analogous brake systems – Speed-controlled – Having a valve system responsive to a wheel lock signal
Patent
1990-10-26
1992-08-04
Butler, Douglas C.
Fluid-pressure and analogous brake systems
Speed-controlled
Having a valve system responsive to a wheel lock signal
180197, 188181T, 303103, 303104, 303112, 303 95, 36442602, 36442603, B60T 832, B60T 866, B60T 2816
Patent
active
051352907
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
From DE-OS 35 35 843, for example, it is known to estimate parameters by using the measured speed of a wheel and the measured brake pressure in successive sensing times . . . (T-1), T, (T-1) . . . by means of a difference equation and by using known identification algorithms. These parameters are used to determine estimated values .mu..sub.(t) for the friction coefficient between tire and road. The .mu.-values serve to determine the slope of the slippage curve ##EQU1## in the operating point and can be used in an anti lock brake control to achieve an optimal control. The slope K.sub..mu. of the .mu.-curve serves as a control value, and the brake pressure is controlled such that K.sub..mu. corresponds to a small, positive value. The slippage selected is always one that is to the left of the maximum (on the stable portion) of the .mu.-slippage curve, however, very close to the maximum.
SUMMARY OF THE INVENTION
The invention is based on the known control system and broadens it to include the ASR case and improves the system in that it makes the gain additionally dependent upon the determined .mu. and correspondingly calculates the control amplifier.
In the ABS case, the continuous manipulated variable (e.g. the proportional valve) influences the brake pressure In the ASR case, in order to change the drive torque, the amount of fuel supplied per time unit, the ignition or the brake pressure at the driven wheels in dependency upon K.sub..mu. are varied. In both cases, the wheel speed is measured and, further, a value corresponding to the brake torque and/or drive torque is determined (e.g. the brake pressure and/or the amount of fuel injected per time unit).
Since the manipulated variable is continuous, the control is hence also continuous.
Moreover, the control is adaptive since K.sub..mu. is not measured directly but determined by parameter estimation. Further, the control parameters are constantly adjusted to the instantaneous .mu.-values.
The control of the invention makes optimal or nearly optimal use of the frictional connection. Since there are no gear change thresholds, this control is user-oriented.
BRIEF DESCRIPTION OF THE DRAWING
The single figure shows a control circuit in an ABS application.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
In the figure, the vehicle-tire-road-system bears reference numeral 1. A brake pressure P.sub.B is supplied to this system. The wheel speed V.sub.R is indicated as an output value on the right side. Signals corresponding to the values P.sub.B and V.sub.R are supplied to an estimator 2. The latter supplies at successive sensing times K estimated values .mu..sub.(t) and T.sub..mu. the instantaneous friction coefficient and/or the instantaneous slope of the .mu.-slippage curve. This is carried out in a manner known from DE-OS 3535843 or in any other known way or in ways still to be found. The estimated value K.sub..mu. is supplied to the subtractor 7 as an actual value. Also supplied thereto is a small positive value K.sub..mu.tar as a target value. Then, the difference of the actual value signals and the target value K.sub..mu.tar is, as a control value, supplied to a control amplifier 3. Preferably, the control amplifier 3 exhibits proportional and integral behavior. As will be shown later, it will be adjusted to the instantaneous .mu..sub.(t). The output signal P.sub.H thereof is filtered in a filter 4. The so resulting value P.sub.M influences a continuously adjustable final control element, e.g. a proportioning valve, via which the necessary brake pressure P.sub.B is supplied to the wheel brake (in I).
In order to achieve an improved dynamic behavior and an improved stability of the control loop, an adjusting element 6 is used to continuously adjust the gain factor K.sub.R of the control amplifier 3 in dependency upon the determined .mu..sub.(t). This is preferably done according to the following rule: selection, e.g. for .mu.=0.1) ##EQU2##
Based on the initial setting K.sub.R,O of the gain factor, an adjustment factor G.su
REFERENCES:
patent: 3967862 (1976-07-01), Hunter et al.
patent: 4733760 (1988-03-01), Inagaki et al.
patent: 4794538 (1988-12-01), Cao et al.
Butler Douglas C.
Robert & Bosch GmbH
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