DE3926031C1 - Adapting characteristic working of adjuster - limiting signal affecting base point of characteristic curve to predetermined min. value - Google Patents

Abstract

The method alters the characteristics of an air-supply regulator in connection with idling or RPM regulation. Depending on a pre-set and a measured value, representing the quantity of air to be delivered to the engine, a signal is formed and this signal is used to alter the datum level or base level of the characteristic curve. The signal is produced in such a way that this datum level is limited by a predetermined min. value, and this is influenced by the suction temp. of the air. USE/ADVANTAGE - Improvement in availability or applicability. Regulating air intake for i.c. engine while idling.

Description

State of the art

The invention relates to a method and an apparatus for adaptation of an actuator characteristic curve according to the Ober understood independent claims 1 and 2.

Such a method and such a device are known from the DE-OS 34 15 183 known. A control system is proposed there, with the help of an actuator characteristic curve adaptation to changes due to interference and / or signs of aging in the area of Actuator is adjusted. By comparing the be calculated, the setpoint fed to the actuator with the actual Lichen actual variable that can be influenced by the actuator becomes a difference signal obtained, which is passed through at least one integrator, the at least the base point (offset) of the actuator characteristic curve in this way changed that the difference is reduced. This kind of position Link characteristic adaptation is preferably used for a Idle charge control of internal combustion engines, the Stell the air supply to the engine in the idle state influences. This will add to that of the control system  air leakage present during the control process inspects. However, it can happen that the leakage air, for example larger than the actual idle air requirement due to aging is. In this case, the actuator characteristic curve adaptation reduces the Base point of the characteristic curve to 0, the difference between measured and calculated air volume. As a result, the position link characteristic adaptation in an implausible range, this becomes inoperative and malfunction of the internal combustion engine machine can lead.

The invention has for its object the availability of Actuator characteristic curve adaptation to increase. This task is carried out by the dependent patent claims 1 and 2 listed characteristic features solved.

From the specialist book W. OPPELT, "Small manual technical rule events ", 1972 p. 579 is known for limiting a signal in Connection with control devices an element with integral Behavior to connect a limiting device.

DE-OS 34 29 351 describes a method and a device to control the idle speed of an internal combustion engine with the help a precontrol, which influence the control signal Pre-control values from a fixed map and an in Dependency of the controller output signal and other operating parameters Put together a variable portion. This can cause concern that the controller output signal level is in the middle its control range for faster response to load changes are kept. This procedure is Called adaptation.

Advantages of the invention

The method known from the prior art or the known Device is characterized by the distinctive features of the independent Claims in this regard in a less complex manner improved that by limiting the characteristic curve adaptation  a minimum base point value the behavior of the internal combustion engine remains almost unchanged even when the air leakage rate is high Malfunction of the internal combustion engine is more implausible as a result Adaptation values is effectively avoided.

Further advantages result from the following implementation example in connection with the subclaims.

drawing

The invention is illustrated below with reference to the drawings provided embodiment explained. It shows

Fig. 1 the actuator characteristic adaptation known from DE-OS 34 15 183, while in

Fig. 2 shows the improvement of the actuator line adaptation according to the invention compared to DE-OS 34 15 183.

Description of an embodiment

Fig. 1 shows a speed controller 10 which emits a function of the difference of desired and actual speed of a predetermined amount of air -mass signal representative of a system for the characteristic curve adaptation. 11 The system for adapting the characteristic curve 11 assigns a control signal to the controller output signal for the actuator 12 influencing the air supply to the internal combustion engine 13 . The system for actuator characteristic curve adaptation forms a base point and / or slope value ( τ _o , m) from the difference between the predetermined and actually measured air mass and quantity, influencing the assignment characteristic or actuator characteristic curve. The air mass actually measured is composed of the leakage air set by the actuator 12 and the system-related leakage air.

Fig. 2 shows a detailed version of the characteristic curve adaptation system 11 and is largely known from the above-mentioned DE-OS 34 15 183, so that in the following DE-OS 34 15 183 is evaluated as part of the disclosure of the object to be described here and for reasons of tightening only goes to the improvements according to the invention in connection with the base adaptation.

Reference is also made to DE-OS 34 29 351, the disclosure of which with regard to controller 10 is considered part of this description.

Fig. 2 shows a controller unit 19 as part of the controller 10, the output of which is guided on the one via the addition point 20 on the other via the block 22, the latter representing the known from the prior art adaptive feedforward control or needs adaptation. The output of the block 22 is in the linkage 24 with the output signal of the block 26 , which denotes the actual pilot control. The two linked signals are routed to the addition point 20 and form the calculated target signal for the air mass or quantity.

The air volume setpoint signal calculated in this way is carried out on the one hand via the correction addition point S 1 to form the control signal τ for the actuator, on the other hand via the comparison point S 2 , the base integrator I 1 , the limiting unit 30 , the linking point S 3 to the addition point S 1 . At the addition point S 2 , the setpoint and actual air volume values are compared to form the difference signal, which is integrated by the base point integrator I 1 to change the actuator characteristic. The linking point S 3 serves to supply a predetermined initial value K 10 for the integrator I 1 . Furthermore, there is a function block FB , which signals are supplied from various points in the circuit and which, based on the information available, releases the base point adaptation via the release block FG 1, inter alia, under certain conditions. The output signal of the limiter unit 30 is fed to this function block, which is also fed to a comparator 32 , the second output of which is connected to an output of the function block FB . The output of the comparator 32 is connected to a lock input of the adaptation 22 . All other elements shown in Fig. 2 are described in DE-OS 34 15 183 and 34 29 351 and of minor importance for the subject matter of the Invention.

If there is a difference between the target air volume value and the actual air volume value, this is integrated by the base integrator, the integration result in the limiting unit is compared with an applied, predetermined minimum value and is led via the link point S 3 to the link point S 1 , where the value formed in this way is applied to the actuator control signal and thus the shift of the characteristic base point is carried out. The output signal from the limiting unit 30 is compared in the comparator 32 with the output signal of the function block FB , which represents the minimum limiting value. Since it is possible at the minimum value Licher base point adaptation that a target actual speed deviation is present, in this case, when the output signal of the limiting unit 30 speaks the minimum signal value, the need adaptation via the output signal of the comparator 32 22 locked. This prevents the controller from trying to compensate for the speed difference that may be present and thereby causing the adaptation of requirements to make a pre-control correction.

If the minimum value is undershot, the limiting unit 30 limits the output signal of the base integrator I 1 and thus the base of the characteristic curve to this minimum value and thus prevents the above-mentioned disadvantages from occurring.

It is advantageous to provide the minimum limit value depending on the operating parameters. This is provided by the connecting line 31 , via which the minimum limit value can be varied depending on the engine and / or intake air temperature. In this case, the minimum value preferably becomes smaller with increasing temperature and larger at the positive end of the temperature scale of the internal combustion engine.

The block diagram of FIG. 2 is chosen only for reasons of clarity, and the realization of the inventive idea in the form of computer programs is particularly advantageous.

Claims (2)

1. A method for adapting an actuator characteristic curve of an actuator influencing the air supply to an internal combustion engine ( 12 ) in connection with an idling filling or speed control, depending on a predetermined and a measured, representing a measure of the air throughput of the internal combustion engine Signal value is formed a signal that changes the base point of the characteristic, characterized in that this signal changing the base point of the characteristic is influenced in such a way that the base point of the characteristic is limited to a predetermined minimum value, the minimum value depending on the engine and / or the intake air temperature. 2.Device for adapting an actuator characteristic curve, an actuator ( 12 ) influencing the air supply to the internal combustion engine in connection with an idle charge or speed control, with means for comparing a calculated and measured signal value representing a measure of the air throughput to the internal combustion engine, and for Formation of a signal as a function of the measured and calculated signal values, with means which change the base point of the characteristic curve as a function of this signal, characterized in that a limiting unit is present which influences the play changing the base point of the characteristic curve in such a way that the characteristic curves are based on a predetermined minimum value, depending on the engine and / or intake air temperature, is limited.