AT8011U1 - METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - Google Patents

Abstract

By dynamic correction of the injection timing in transient engine operation, a reduction of the combustion noise is achieved.

Description

2 AT 008 011 U1

The invention relates to a method for operating an internal combustion engine, in particular a self-igniting internal combustion engine.

It is known to determine the injection timing for the fuel based on engine operating parameters 5 or map-controlled. Furthermore, it is known to calculate the injection timing via a combustion position controller with feedback on the current combustion position. The injection times determined in this way are sufficient for the stationary state.

However, in dynamic engine operation, as a result of transient deviations of the cylinder charge from the steady-state desired values, a deviation of the resulting combustion noise from the stationary desired values occurs.

From DE 43 22 319 C2 a method for controlling an internal combustion engine is known, in which starting from a λ value, a first actual value and starting from the first actual value and a first setpoint value, a first control variable by a first Control means is specified. Furthermore, based on an air quantity, a second actual value and, based on a second control means, on the basis of the second actual value and a second desired value, a second control variable can be preset. The desired values are chosen such that, given the presence of certain operating conditions, the desired values for the air quantity and, in the absence of these specific operating conditions, desired values for the λ value are predefined.

It is known to determine injection start or combustion position in an internal combustion engine, for example with a cylinder pressure sensor, and to obtain control signals for controlling the internal combustion engine, such as the injection time. In DE 197 49 817 A1 it is proposed to determine the start of injection and the combustion position from the difference between the measured pressure profile and a calculated pressure profile.

The object of the invention is to propose a method for the operation of an internal combustion engine with which the combustion noise can be kept as close as possible to the values of stationary engine operation during dynamic engine operation.

According to the invention, this is achieved by the following steps: determining a desired value for an injection time and / or a combustion position determining a desired value for the ratio of fresh air mass to inert gas mass in the cylinder and / or for the air / fuel ratio in the exhaust gas Measuring or calculating an actual value for the ratio of fresh air mass to inert gas mass in the cylinder and / or the air / fuel ratio in the exhaust gas, 40 - forming the difference between the desired value and the actual value of the ratio of

Fresh air mass to the inert gas mass in the cylinder or the air / fuel ratio in the exhaust gas, - Correcting the target value of the injection time or the combustion position due to the difference between the desired value and the actual value of the ratio of fresh air mass 45 to inert gas mass or the air / fuel ratio in the exhaust gas.

The desired values can be calculated based on at least one current engine parameter or selected from data stored in a map. Thus, if the determination of the injection timing is purely controlled, ie without feedback on the current combustion position, this predetermined injection timing can be corrected dynamically. The correction takes place as a function of the deviation between the required setpoint value for the ratio of fresh air mass to inert gas mass and the measured and / or calculated actual value for the ratio of fresh air mass to inert gas mass 55 in the cylinder. If the actual value for the ratio of fresh air mass to inert gas mass is less than 3 AT 008 011 U1 than the desired value for the ratio of fresh air mass to inert gas mass and thus the inert gas mass fraction in the cylinder is too high or the fresh air mass fraction is too low, a correction of the Injection timing towards early. If, however, the actual value for the ratio of fresh air mass to inert gas mass is greater than the desired value for the ratio 5 of fresh air mass to inert gas mass and the inert gas mass fraction is thus too low or the fresh air mass fraction is too high, the injection time is corrected in the direction of late.

Alternatively or additionally, the correction may be carried out as a function of the deviation between the required nominal value of the air / fuel ratio in the exhaust gas and the measured and / or calculated actual value for the air / fuel ratio in the exhaust gas. If the current actual value of the air / fuel ratio in the exhaust gas is smaller than the target value of the air / fuel ratio in the exhaust gas and the inert gas mass fraction in the cylinder is thus too high, the injection timing is corrected in the direction of early. If, however, the actual value of the 15 air / fuel ratio in the exhaust gas is greater than the desired value of the air / fuel ratio in the exhaust gas and the Inertgasmassenanteil in the cylinder is thus too small, the injection timing is corrected in the direction of late.

If the calculation of the injection time takes place via a combustion position controller, ie in a closed-loop control with feedback about the current combustion position, then the setpoint value for the combustion position is corrected dynamically, for example as an additive. The correction can be effected as a function of the deviation between the desired value for the ratio of fresh air mass to the inert gas mass and the measured and / or calculated actual value for the ratio of fresh air mass to inert gas mass in the cylinder. If the actual value 25 for the ratio of fresh air mass to inert gas mass is smaller than the desired value for the ratio of fresh air mass to inert gas mass and the inert gas mass fraction in the cylinder is thus too high or the fresh air mass fraction is too low, the required nominal value is corrected for the combustion position towards Früh. If, on the other hand, the actual value for the ratio of fresh air mass to inert gas mass is greater than the desired value for ratio 30 of fresh air mass to inert gas mass and thus the inert gas mass fraction in the cylinder is too low or fresh air mass fraction too high, the required nominal value is corrected for the combustion position towards late. Likewise, the correction can be determined as a function of the deviation between the required target value of the air / fuel ratio in the exhaust gas and the measured and / or calculated actual value of the air / fuel ratio in the exhaust gas 35. If the actual value of the air / fuel ratio in the exhaust gas is smaller than the target value of the air / fuel ratio in the exhaust gas and the Inertgasmassenanteil in the cylinder is thus too high, there is a correction of the required target value for the combustion position in the early direction. If, however, the actual value of the air / fuel ratio in the exhaust gas is greater than the target value of the air / fuel ratio in the exhaust gas and the Inertgasmasse 40 nanteil in the cylinder is thus too small, there is a correction of the required target value for the combustion position in the direction of late.

By the correction of the injection timing and / or the combustion position as a function of the difference between the actual and the desired values for the ratio of fresh air mass to 45 Inertgasmasse in the cylinder and / or the air / fuel ratio in the exhaust gas in dynamic engine operation, a deviation between the Transient and the stationary combustion noise due to transient deviations of the cylinder filling are avoided by the stationary target value. The invention will be explained in more detail below with reference to the figures.

1 is an illustration for explaining the dynamic correction of the injection timing under controlled operation; and FIG. 2 is a diagram for explaining the dynamic correction of the desired value of the combustion position during controlled operation.

Claims (5)

As can be seen in FIG. 1, an injection timing tEs is calculated in an electronic control unit ECU on the basis of the engine rotational speed n, the engine load L and other engine operating parameters, without feedback about the current combustion position. Based on the engine operating point, the target value for the ratio of fresh air mass to the inert gas mass vs in the 5 cylinder or a target value As for the air / fuel ratio λ in the exhaust gas is calculated. The actual value V | or λ, the ratio of fresh air mass to inert gas in the cylinder or the air / fuel ratio λ in the exhaust gas is further determined or calculated by measurement. Due to the difference between the target values vs, As and the actual values V |, A | the ratio of fresh air mass to Inertgasmasse in the cylinder or the air / fuel ratio ίο λ in the exhaust gas, a correction value AtES for the target value of the injection timing tEs is determined. Is the actual value v, or Ai of the ratio of fresh air mass to inert gas mass in the cylinder or the air / fuel ratio λ in the exhaust smaller than the target value vs or As the ratio of fresh air mass to Inertgasmasse the air mass or the air / Fuel ratio λ in the exhaust gas, so takes place, for example, an additive correction of the injection time point tES in the direction of early. If, however, the actual value v (or Ai of the ratio of fresh air mass to inert gas mass or of the air / fuel ratio λ is greater than the desired value vs or As of the ratio of fresh air mass to inert gas mass in the cylinder or of the air / fuel ratio The result of this procedure is a corrected injection time tES.K-20. In the embodiment variant shown in FIG. 2, the injection time tE, K is calculated via a combustion controller Rv, which actual values From the engine speed n and the engine load L, a target value t, s for the combustion position is determined in an electronic control unit ECU Ratio of fresh air mass to Inertgasmasse in the cylinder or for the air / fuel ratio A in the exhaust specified. The actual value V | or A | the ratio of fresh air mass to the inert gas in the cylinder and the air / fuel ratio A in the exhaust gas is determined continuously or discontinuously. Due to the deviation between the desired values vs, As and the actual values V |, Ai, a correction coefficient AtvS for the desired value of the combustion position tvs is calculated and thus the target value tvs for the combustion position is dynamic, for example additive , corrected. If the actual value v (, Ai of the ratio of fresh air mass to the inert gas mass in the cylinder or the air / fuel ratio λ in the exhaust gas is less than the desired value vs or As of the ratio of fresh air mass to inert gas mass in the cylinder or the air / If the actual value V | or At is greater than the setpoint value vs or As of the ratio of fresh air mass to the inert gas mass in the cylinder, a correction takes place of the required setpoint value U for the combustion position On the other hand, a correction of the required target value tvs for the combustion position in the direction of late is carried out.The corrected nominal value tvs, K is in the combustion position controller Rv with the actual value L, i of the combustion position and from this a corrected setpoint value tEs, K is calculated for the injection time by the dynamic correction of the injection time point by comparing the actual values v (or A | with the target values vs and As of the ratio of fresh air mass to Inertgasmas-45 se in the cylinder and the air / fuel ratio λ in the exhaust gas can in dynamic engine operation, a deviation between the resulting transient and the corresponding stationary combustion noise due to transient deviations of the cylinder filling are avoided by the stationary target value. 50 Claims: 1. Method for operating an internal combustion engine, in particular a self-igniting internal combustion engine, with the following steps: 55 - determining a target value for an injection time and / or a combustion, - determining a target value for the ratio of fresh air mass to the inert gas mass in the cylinder and / or for the air / fuel ratio in the exhaust gas, Measuring or calculating an actual value for the ratio of fresh air mass to 5 Inertgasmasse in the cylinder and / or the air / fuel ratio in the exhaust gas, - formation of the difference between the desired value and the actual value of the ratio of fresh air mass to inert gas in the cylinder or of the air / fuel ratio in the exhaust gas, - Correcting the target value of the injection timing or the combustion position on the basis of the difference between the desired value and the actual value of the ratio of fresh air mass to inert gas mass in the cylinder or the air / fuel ratio in the exhaust. 2. The method according to claim 1, characterized in that the target value for the injection-15 time and / or for the combustion position is corrected in the direction of early, when the actual value for the ratio of fresh air mass to inert gas in the cylinder or the Air / fuel ratio in the exhaust gas is smaller than the target value for the ratio of fresh air mass to inert gas or the air / fuel ratio in the exhaust gas. 3. The method of claim 1 or 2, characterized in that the target value for the injection timing and / or for the combustion position is corrected in the direction of late, when the actual value for the ratio of fresh air mass to inert gas in the cylinder or the air / Fuel ratio in the exhaust gas is greater than the desired value of the ratio of fresh air mass to the inert gas mass in the cylinder and the air / fuel ratio in the exhaust gas. 25 4. The method according to any one of claims 1 to 3, characterized in that the desired value for the injection time in a purely control-technical ways - without feedback on the current combustion position - is determined. so 5. The method according to any one of claims 1 to 4, characterized in that - when using a combustion controller with feedback on the current combustion position -the injection timing determined by control technology from the difference between the desired value of the combustion position and the actual value of the combustion position becomes. 35 For 1 sheet of drawings 40 45 50 55