DE19537787A1 - Method and device for controlling an internal combustion engine - Google Patents

Description

State of the art

The invention relates to a method and an apparatus for Control an internal combustion engine according to the preambles of independent claims

Such a method and such a device for Control of an internal combustion engine is from DE-OS 33 43 854 (US 4,656,986). There is the driver request amount filtered using a guide former. The leader filters the reference variable (setpoint) of the control loop. Then this signal becomes one of fast ones Interference variable dependent on speed changes. This Arrangement does not deliver good in all operating conditions Results.

A motor vehicle poses due to the elastic suspension of the engine and undercarriage is a structure that can vibrate with interference to more or less damped Vibrations can be excited. Are interference for example, a jump in fuel consumption at Fuel metering into the internal combustion engine or one of moment jump caused outside, for example by a Pothole in the roadway.  

The vibrations caused by changes in speed or Relative movements between engine and body noticeable make, are usually in the range between 1 and 10 Hz and are referred to as bucking.

Object of the invention

The invention has for its object in a method and a device for controlling an internal combustion engine of the type mentioned above, vibrations in all To largely compensate for operating conditions avoid. This task is carried out by the independent Characteristics characterized claims solved.

Advantages of the invention

The procedure according to the invention has the advantage that in Vibration largely compensated for all operating conditions can be.

Advantageous and expedient configurations and Further developments of the invention are in the subclaims featured.

drawing

The invention is explained below with reference to the embodiment shown in the drawing. In the drawings Fig. 1 shows the basic structure of a fuel metering system, and Fig. 2 is a flowchart illustrating the procedure of the invention.

The invention is described below using the example of a self-igniting internal combustion engine shown. The invention is not limited to this application, it can also be used for other internal combustion engines can be used. At spark ignition engines will replace the Fuel quantity corresponding to the throttle valve position set.

In Fig. 1 the basic structure of a fuel metering system of a diesel internal combustion engine is shown. 10 denotes an accelerator pedal position sensor and 11 a speed sensor. A setpoint control 12 is connected to the accelerator pedal position sensor 10 and the speed sensor 11 . The output signal MEW of the setpoint control, which corresponds to the driver's desired quantity, reaches a guide former 13 . The speed signal N of the speed sensor 11 arrives at a disturbance variable controller 14 . The output signal MEF of the guide shaper 13 and the output signal MES of the fault controller 14 are superimposed at an addition point and form the quantity signal MEA, which is fed to an actuating device 15 . Depending on this signal MEA, a corresponding amount of fuel is metered into the internal combustion engine (not shown).

A parameter controller 16 applies signals to the guide former 13 and the fault controller 14 . The parameter control processes the output signal N of the speed sensor 11 , the signal V of a speed sensor 17 , the signal KS of a clutch sensor 18 and the signals of further control devices 19 .

The speed signal N and the speed signal V arrive at a V / N calculation 22 via a filter 20 or a filter means 21 . The V / N calculation 22 in turn applies a logic 23 to a signal. The further signals which the parameter controller 16 processes are also fed to this logic 23 . On the basis of these signals, the logic 23 makes the output signals of the parameter control 16 available.

This facility now works as follows. Based on the accelerator pedal position and the speed N, the setpoint control calculates a driver's desired quantity MEW, which is required to provide the driving performance desired by the driver. In systems without bucking damping, this signal is fed directly to the actuating device 15 . The actuating device 15 converts this signal into a control signal to act on the corresponding actuating elements of the fuel pump. In the case of in-line pumps, for example, it is provided that a control loop regulates the control rod position to a corresponding value. In the case of time-controlled systems, the control device 15 emits a control signal for a quantity-determining solenoid valve.

In order to be able to compensate for jerky vibrations, it is provided that the driver request signal MEW is filtered by means of a guide former 13 . In a preferred embodiment it is provided that this guide former is designed as a so-called first order lead lag (PDT1). Such a lead lag element has the following transfer function G13 (s).

Furthermore, the speed signal N is fed to a fault controller 14 , which is preferably a D2T2 element or another phase-correcting transmission element or a suitable bandpass filter. This fault controller, implemented as a D2T2 element, has the transmission behavior specified in the following formula.

The fault controller 14 and the guide former 13 are functionally independent of one another. This means that the parameters TZF, TNF, TDS and KDS of these two transmission elements can be set independently of one another.

According to the invention it is provided that the parameter control depending on the recognized state of the internal combustion engine corresponding parameter sets and the leadership form or the fault controller with the corresponding parameters acted upon.

It is provided that one for each gear level Parameter set of parameters TZf and TNF for the guide former and a parameter set of the parameters TDS and KDS for the Fault controller can be specified. Furthermore, it is provided that different parameter sets for the fault controller be selected if an idle controller is active or not active is. Furthermore, different parameter sets for the Guide former and selected for the fault controller if one external quantity intervention takes place. Another parameter set is intended for the disengaged state.

An external quantity intervention exists, for example, if a transmission control, not shown, a quantity request pretends. In these cases, other parameter sets chosen.  

The disengaged state is preferably detected by means of a clutch switch 18 . Depending on whether there is a frictional connection between the engine and the transmission, the clutch switch 18 supplies different voltage values. When disengaged, the frictional connection between the engine and transmission is interrupted, the switch assumes a first position and a first voltage value is present at its output. When engaged, the frictional connection between engine and transmission is established, the switch assumes a second position and a second voltage value is present at its output.

In order to be able to recognize the gear engaged, the speed and speed signals are preferably evaluated. For this purpose, the two signals are each filtered with a filter 20 and 21 , which preferably have PT1 behavior. The V / N calculation 22 then calculates the relationship between the driving speed of the vehicle and the speed of the internal combustion engine. If a gear is engaged, a value characterizing the engaged gear results for V / N.

The idle state is detected, for example, when a Idle controller provides a corresponding signal. Of the The idle state can also be evaluated by others Signals are recognized.

For improved detection of the various states, in particular the state "idle", the state "Disengaged" and the status "engaged" can be more Sizes are used. This is the driving speed V, the engine speed N, the amount of fuel QK, and the time derivatives, that is, the changes, the sizes.  

A simplified embodiment results if for Lead formers only engaged between the state and the state disengaged is differentiated, whereby in engaged state two parameter sets can be specified. In particular, a parameter set and is used for the first gear another parameter set selected for the further gears.

A particularly advantageous embodiment results if different parameter sets for acceleration and for Decelerating the internal combustion engine can be selected. That is, that depending on the sign of the derivative of the speed and / or of a power-determining signal different Parameter sets can be selected.

The procedure according to the invention is illustrated in FIG. 2 using a flow chart. In a first step, the guide former and the fault controller are initialized depending on the status. This means that initialization only takes place when certain states are recognized.

In a step 220 the status is identified is present. Based on the gear recognition V / N, a signal, that indicates whether the idle controller is active, a signal KS, that indicates whether the clutch is engaged or not and possibly further signals and their derivatives the state of the internal combustion engine is recognized.

The selected gear is based on the vehicle speed V and the speed N of the internal combustion engine are recognized. The Ratio V / N is a measure of the gear engaged.

In the subsequent step 230, the corresponding Parameters for the guide former and the fault controller determined depending on the detected state.  

It is preferably provided that the Parameters are determined and stored in a memory. Out You can then use this memory depending on the detected state can be read out in step 230. On the one hand, it can be provided be that all types of an internal combustion engine are the same Receive parameter sets. But it is also conceivable that , vehicle-specific parameter sets can be saved.

The subsequent query 240 checks whether a state transition from the state "disengaged" KA to the state "engaged" KE took place. If this is not the case, the new parameters that are assigned to the new state are used immediately in step 260. On the other hand, if query 240 recognizes that a state transition from the "uncoupled" state to the "coupled" state KE has occurred, then query 250 checks whether the sign of the output signal MES of the fault controller has changed since the last program run. If this is not the case, the old parameter set is still used in step 265. In the event of a change in state from the "uncoupled" state to the "coupled" state, the new parameter sets are only used if the sign of the MES signal changes at the same time.

Steps 260 and 265 are followed by another Program run beginning with step 220.

Claims (10)

1. A method for controlling an internal combustion engine, in which a guide shaper specifies a first value as a function of at least one driver request signal and a fault controller as a function of a second value as a function of at least one speed signal, a signal for acting on an actuator starting from the first and the second value can be specified, characterized in that the parameter sets which determine the transmission behavior of the guide former and / or the fault controller can be specified as a function of operating parameters. 2. The method according to claim 1, characterized in that different parameter sets can be selected if the Disengaged condition and engaged condition. 3. The method according to any one of the preceding claims, characterized characterized that depending on a selected gear different parameter sets can be specified. 4. The method according to any one of the preceding claims, characterized characterized in that the selected gear starting from the Driving speed and speed is recognized.   5. The method according to any one of the preceding claims, characterized characterized in that when engaged for the first Gear one parameter set and another for the other gears Parameter set is selected. 6. The method according to any one of the preceding claims, characterized characterized in that a parameter set is selected if a Idling condition. 7. The method according to any one of the preceding claims, characterized characterized in that a parameter set is selected if a external quantity intervention takes place. 8. The method according to any one of the preceding claims, characterized characterized in that when accelerating and decelerating the Internal combustion engine selected different parameter sets will. 9. The method according to any one of the preceding claims, characterized characterized in that with a change of state from the state only then are the disengaged to the state new parameter sets are used if the sign of the second value changes. 10. Device for controlling an internal combustion engine, at that a leadership form at least depending on at least specifies a command variable for a driver request signal, and a Fault controller at least depending on a speed signal specifies a disturbance variable, with means based on the Command variable and the disturbance variable a signal for Specify exposure to an actuator, thereby characterized in that means are provided which the Parameter sets that determine the transmission behavior of the  Determine the routing former and / or the fault controller, specify depending on operating parameters.