EP1464834A1 - Method for optimizing the ignition of an air-fuel mixture for direct-start of combustion engine - Google Patents

Abstract

The optimization method has a standard value (IPTD) for the ignition energy during normal operation corrected for each instant starting of the IC engine, via a correction value (IPTDCOR) provided by a correction function in terms of the temperature and/or pressure of the air-fuel mixture within the combustion space, with ignition of the air-fuel mixture with an ignition energy corresponding to the corrected value (TD).

Description

The present invention relates to a method for optimization the ignition of an air-fuel mixture for direct starts a spark-ignition internal combustion engine with fuel injection.

Under a direct start, in English as "instant start" or "Fast-Start" means the start-up process an internal combustion engine with fuel injection without use of a conventional electric starter. After this Switching off the internal combustion engine is restarted by that in a cylinder a certain amount of fuel the fuel is injected under pressure with that in the cylinder existing air forms an ignitable mixture, this Mixture by an ignition process (usually the spark a spark plug) and the internal combustion engine started by the resulting torque becomes.

Such starting methods are known and for example in DE 197 41 294 A1 and DE 197 43 492 A1. she are an integral part of a start-stop strategy for the internal combustion engine and come mainly in city operations for use (stop and go). They serve to save fuel and avoiding or reducing pollutant emissions.

It goes without saying that to bring about a direct start certain conditions must be met. One of these Conditions is for a proper ignition of the air-fuel mixture to care. It is known that the Generate a satisfactory spark required Ignition energy from the pressure and turbulence in the combustion chamber hangs. However, during a direct start there is pressure and turbulence in the combustion chamber significantly different from those during normal operation of the internal combustion engine. The normal one Operation of the internal combustion engine used ignition energy Therefore, a direct start may only lead to unsatisfactory results Results.

The present invention is based on the object Procedure for optimizing the ignition energy for direct starts one spark ignition internal combustion engine with fuel injection specify.

This object is achieved by the method defined in claim 1 solved according to the invention.

In the method according to the invention, for each direct start from a standard value for the ignition energy by means of a predetermined correction function a corrected value for the ignition energy is determined and the Ignition of the air-fuel mixture with an ignition energy according to this corrected value.

During direct starts, the pressure in the combustion chamber is the first commissioned cylinder comparatively low. This reduced pressure compared to normal operating conditions in the combustion chamber leads to other combustion properties and / or operating states of the internal combustion engine. To the Combustion and ignitability of the air-fuel mixture to improve, therefore, usually needs a greater ignition energy than applied during normal operation of the internal combustion engine become. Through the correction function provided according to the invention it ensures that for each direct start the optimal ignition energy is provided, which is special is important for the first combustion in the first in Commissioned cylinder.

The method according to the invention is for every type of ignition system including flame beam, plasma and laser ignition systems suitable. However, it is preferably used in conjunction with coil ignition systems with electrical ignition coil and spark plug used. In the case of coil ignition systems, that of Ignition coil to be delivered to the spark plug by the properties and charging time of the ignition coil determined. Because the coil properties are unchangeable, is therefore usually the charging time of the ignition coil is used to change the ignition energy. In a further embodiment of the invention, therefore as standard value and corrected value for the ignition energy a standard value and corrected value of the charging time of the ignition coil used.

The predefined correction function can be any correction function be how to correct and adjust others Operating parameters of internal combustion engines are generally known is. For example, the correction function can one additively or multiplicatively linked to the standard value Correction value or from an interpolation two maps obtained during calibration exist. in the The simplest case is one of the operating parameters of the internal combustion engine independent correction function, e.g. B. a fixed multiplicative or additive correction value, used. In order to refine the method according to the invention, in Another embodiment of the invention provided that the Correction function of pressure and / or temperature of the air-fuel mixture dependent in the combustion chamber of the internal combustion engine is.

The method according to the invention ensures that the right ignition energy for direct starts a safe ignition of the air-fuel mixture is provided to trigger self-sustaining combustion. In the case of a coil ignition system, this is achieved by the invention intended correction of the charging time of the ignition coil reached. In addition to a perfect ignition and The mixture according to the invention burns the mixture The protection of the ignition coil against overheating is also achieved. Another advantage of the method according to the invention is that it is extremely simple from the electronic Operating control unit (EMS) can be carried out can. Even if the correction function is adapted to pressure and / or temperature of the mixture in the combustion chamber is only one relatively low computing effort of the electronic operating control device required.

Fig. 1

ein Diagramm, in dem die Spannung V bzw. Energie E einer Zündspule über der Zeit t aufgetragen ist und das zur Erläuterung von mit der Ladezeit einer Zündspule zusammenhängenden Parametern dient, und

Fig. 2

eine schematische Darstellung eines Ausführungsbeispiels des erfindungsgemäßen Verfahrens.

Further details of the method according to the invention are explained on the basis of the drawings. It shows:

Fig. 1

3 shows a diagram in which the voltage V or energy E of an ignition coil is plotted against the time t and which serves to explain parameters related to the charging time of an ignition coil, and

Fig. 2

is a schematic representation of an embodiment of the method according to the invention.

In the diagram in FIG. 1, curve a represents a voltage signal which requests a specific charging of an ignition coil (not shown) of a spark-ignition internal combustion engine with fuel injection. The charging of the ignition coil thus begins at time t ₁ and ends at time t ₂ . Curve b shows the energy generated in the ignition coil, which according to curve c is emitted to the spark plug (not shown) in an energy surge in order to generate a corresponding ignition spark.

The time period t ₂ - t ₁ thus represents the charging time TD (dwell time) of the ignition coil, which determines the size of the energy stored in the ignition coil.

It is assumed that the time period t ₂ - t _{1 represents} the standard value for the charging time IP_TD in normal operation of the internal combustion engine. For a direct start (instant start), this standard value is corrected according to the invention (normally increased) in order to ensure that the air-fuel mixture is properly ignited despite the comparatively low pressure in the combustion chamber.

The correction function used for this exists, for example from a fixed correction factor. For example, B. the default value for the loading time 3 milliseconds and the correction factor 1.5, the corrected loading time is 4.5 milliseconds. The diagram in FIG. 1 shows that the corrected (increased) loading time at a corresponding one Increases the energy generated in the ignition coil leads.

As already mentioned at the beginning, that for the invention Any correction function used for the purpose Correction function as it is used to correct other operating parameters the internal combustion engine known in great diversity are. In particular, instead of a multiplicative Correction value also an additive correction value, an interpolation two maps obtained during calibration, etc. be used.

To further refine the method according to the invention it is possible to use a correction function by certain operating parameters of the internal combustion engine, in particular of pressure and temperature in the combustion chamber of the internal combustion engine during a direct start. Fig. 2 illustrates for this an embodiment in which an additive Correction factor of the temperature and pressure in the Combustion chamber depends.

At input 2 there is a standard value IP TD of the loading time the ignition coil during normal operation of the internal combustion engine entered. Will the internal combustion engine in the usual way Started with the help of an electric starter, so called charging time TD the ignition coil uses the default value IP_TD.

In the case of a direct start, however, the default value IP_TD becomes the Corrected loading time with an additive correction value IP_TD_COR. This additive correction value becomes apparent during calibration extracted map 5 in which the correction value over temperature and pressure (inputs 3 and 4) is applied. The one obtained in step 6 by addition corrected loading time TD is then at output 1 for the purpose of further Processing available.

In this way, the loading time for each direct start and thus optimize the ignition energy for the ignition process in order to for a perfect ignition of the mixture, especially with the first combustion without unnecessarily much ignition energy to consume. The resulting benefits such as perfect combustion, reduction of pollutant emissions, Protection of the ignition coil etc. have already been explained at the beginning.

Claims (6)

Method for optimizing the ignition of an air-fuel mixture for direct starts of a spark ignition internal combustion engine with fuel injection, for everyone Direct start from a standard value used in normal operation for the ignition energy by means of a predetermined correction function a corrected value for the ignition energy is determined and the ignition of the mixture with an ignition energy accordingly this corrected value is carried out. A method according to claim 1, characterized in that the correction function is independent of the operating parameters of the internal combustion engine. A method according to claim 1, characterized in that the correction function is dependent on the pressure and / or temperature of the air-fuel mixture in the combustion chamber of the internal combustion engine at the respective direct start. Method according to one of claims 1 to 3, characterized in that the predetermined correction function consists of a correction value linked additively or multiplicatively with the standard value. Method according to one of claims 1 to 3, characterized in that the predetermined correction function consists of an interpolation of two maps obtained during calibration. Method according to one of the preceding claims for a coil ignition system with ignition coil and spark plug, characterized in that a standard value and a corrected value of the charging time of the ignition coil are used as the standard value and corrected value for the ignition energy.

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