DE102009035700B3 - Method for cylinder-selective detection of missing or imperfect ignition of mixture in cylinder of internal combustion engine, involves evaluating pressure signals in exhaust-gas collection lines over time based on reference signal - Google Patents

Abstract

The method involves forming a reference signal (RS), which refers to a position of a cylinder piston at determined time. An impulse of ignition voltage of predetermined cylinders (1-12) is used as the reference signal. Pressure in exhaust-gas collection lines (AL1, AL2) is measured by pressure sensors (DS1, DS2). Pressure signals in the respective lines are evaluated over time based on the reference signal with respect to shortfall of a threshold value. The threshold value is produced from an average value of the pressure signals. A characteristic field is used as the threshold value. An independent claim is also included for a device for cylinder-selective detection of missing or imperfect ignition of a mixture in a cylinder of an internal combustion engine, comprising an evaluation unit.

Description

The invention relates to a method and a device for cylinder-selective detection of a lack of or incomplete ignition of the mixture in at least one cylinder of an internal combustion engine.

The operation of internal combustion engines can lead to undesired dropouts in the ignition of the mixture, to incomplete or delayed ignition and combustion of the mixture. The reason for this may be a failure of the spark, for example, by a defective spark plug, a defective ignition cable or the like. However, even when the ignition is functioning, the ignition of the mixture may be absent, incomplete or delayed, for example if the mixture is too rich or too lean.

From the DE 602004001064T2 For example, a method for detecting misfire by analyzing the acceleration of the crankshaft is known.

The DE 39 03 566 A1 discloses a method for cylinder-selective detection of a missing or imperfect ignition of the mixture in at least one cylinder of an internal combustion engine having at least one cylinder, wherein the exhaust gases from the cylinders via an exhaust manifold are guided. The method comprises a step in which a reference signal is used in crankshaft or camshaft synchronous manner. A detection of an ignition voltage should be avoided.

The DE 38 35 285 A1 describes a method for detecting misfires.

In this case, a pressure sensor is arranged in the exhaust tract. It is provided that, in response to a corresponding trigger signal from a timer, a sample / hold device detects the current exhaust gas pressure. This method is based on a comparison with an exhaust pressure map.

The DE 40 03 752 A1 teaches to determine an exhaust gas volume, whereby a signal emitted by the lambda probe is evaluated.

The DE 102 30 830 A1 describes a method for detecting dropouts with a return arrangement in which an exhaust gas pressure is detected.

The object of the invention is, starting from the prior art, to specify a simple method and a device for the cylinder-selective recognition of this "misfiring".

This object is achieved by a method having the features according to claim 1 or by a device having the features according to claim 6.

It proposes a method for the cylinder-selective detection of a lack or imperfect ignition of the mixture in at least one cylinder of an internal combustion engine with at least one cylinder, the exhaust gases from the cylinders are passed through an exhaust manifold, wherein a reference signal is formed, which is based on the position of Pistons of a cylinder at a certain time T0, wherein the pressure in the exhaust manifold is measured and the pressure signal in the exhaust manifold over time as a function of the reference signal is evaluated with respect to the falling below a threshold value.

The method is applicable to internal combustion engines with one or more cylinders. The absence or the incomplete or even the delayed, so the imperfect ignition of the mixture is hereinafter referred to as "misfiring". This does not mean (only) the absence of the ignition or the spark, unless this is explicitly stated. The absence of the ignition or the spark is one of several causes of misfiring. For the phenomenon referred to here as "misfire", one can also find the term "combustion misfire".

The present invention is not concerned with the typical cycle variations of the gasoline combustion process. The inventive method does not react to it and should not react to it.

According to the invention, the pulse of the ignition voltage of a specific cylinder is used as the reference signal. This is an easy-access, on the position of the piston or (in multi-cylinder internal combustion engines) referenzierendes signal as a trigger signal available. The pulse of the ignition voltage can be tapped, for example, with a measuring clamp on the ignition cable.

However, the aforementioned formation of the reference signal fails when the ignition cable is defective or there are problems with the electric ignition. Then one has directly an indication of the cause of the misfire in the cylinder at which the signal is measured, but has no reference signal for the display of the pressure curve more available. To avoid this problem, it is advantageous to use the reference signal from the To tap or otherwise generate the camshaft.

The threshold value can advantageously be generated from the mean value of the pressure signal. But it is also possible to use as a threshold a predetermined map.

An advantageous embodiment of the invention is that a suspending or imperfectly igniting cylinder is output via a display unit. It is particularly advantageous if the misfires of the respective cylinders are summed and the frequency of the misfire is displayed. The indication of a single event of a misfire is less relevant to the assessment of the operating condition of the internal combustion engine in practice. Under certain operating conditions, almost every cylinder will fail once in a while - so it is important to know at a glance whether some cylinders are subject to exceptional conditions. Therefore, it is advantageous if the dropouts for each cylinder are counted and the observer or user reads the counts after a certain amount of time.

• a. einen an der Abgassammelleitung angebrachten Drucksensor,
• b. einen Signalgeber, zur Erzeugung eines Referenzsignals, das sich auf die Stellung eines Kolbens zu einer bestimmten Zeit T0 bezieht
• c. eine Auswerteeinheit zur Auswertung des mit den Drucksensoren gemessenen Druckverlaufes in der Abgassammelleitung über der Zeit in Bezug auf die Unterschreitung eines Schwellwertes.

An apparatus for solving the problem of detecting a lack of or incomplete ignition of the mixture in at least one cylinder of an internal combustion engine has the following features:

• a. a pressure sensor attached to the exhaust manifold,
• b. a signal generator for generating a reference signal related to the position of a piston at a certain time T0
• c. an evaluation unit for evaluating the measured pressure profile with the pressure curve in the exhaust manifold over time in relation to the falling below a threshold value.

An advantageous embodiment of the device consists in that a display unit is provided for locating the cylinder or cylinders with a lack of or incomplete ignition of the mixture. The evaluation unit detects the pressure dropping below the threshold pressure and can use the reference signal to locate the cylinder (s) with the misfires, so that the cylinder (s) can be identified by the display unit. The display unit can, for. B. an LED strip with a cylinder number corresponding number of LEDs, the LED lights, which corresponds to the cylinder in which the misfire or the misfire has occurred. However, it is also possible to provide a text display which, for example, outputs "Misfiring on cylinder number x".

It is particularly advantageous, as already described above, if the display unit has a totalizer for indicating the frequency of misfiring.

An embodiment of the invention will be described in more detail with reference to the drawing. Showing:

1 : A schematic view of an internal combustion engine BKM with the

Device for detecting misfiring

2 : A diagram of the pressure measuring signal in the exhaust manifold AL2 over several working cycles

3 : A diagram of the pressure measurement signal in an exhaust manifold AL2 via a working cycle

In 1 is a schematic view of an internal combustion engine BKM shown with the inventive device for detecting misfires. This has two cylinder banks A and B, each with six cylinders 1 to 6 , respectively. 7 to 12 on. Such internal combustion engines BKM are well known to those skilled in the art. For the present invention, it is irrelevant with what type of fuel they are operated. In the exemplary embodiment, it is assumed that a fuel mixture is ignited by means of spark plugs. By way of example, such a spark plug K in the cylinder 1 shown schematically. The ignition pulse of the spark plug K is tapped at the ignition cable ZK, which serves as a signal generator, by means of a measuring clamp MZ and fed as a reference signal RS an evaluation unit AE.

The exhaust gases of the cylinders 1 to 12 Be the exhaust pipes AR (the sake of clarity, only one exhaust pipe is provided with the reference symbol AR) in the exhaust manifolds AL1, AL2 out. At the end of each of which a pressure sensor DS1, DS2 is mounted, the pressure signals S1, S2 are also fed to the evaluation unit AE. In order to allow cylinder assignment of the misfires in multi-cylinder engines, a pressure sensor must be provided for each separate exhaust line.

The operation of the method will be described below with reference to the 2 described in which the pressure curve is shown graphically. The firing order of the cylinders ( 1 to 12 ) is 1-12-5-8-3-10-6-7-2-11-4-9. It will now be the cylinders 7 to 12 the cylinder bank B considered. After opening the respective exhaust valve of a cylinder, a pressure surge, which is referred to as Vorlassstoß, takes place in the exhaust manifold. In the steady state operation of the internal combustion engine BKM, a typical exhaust gas pressure profile in the exhaust manifold AL2 thus arises (FIG. 1 ) with maxima and minima of the pressure detected with the pressure sensor DS2. Does it come in one of the cylinders 7 to 12 to a misfire, so this has a lower pressure surge in this cylinder result. This decrease in pressure below the threshold SW is recognized.

Triggers the pressure measurement with the ignition cable ZK of cylinder 1 By reference to a measuring clamp MZ tapped reference signal RS (= trigger signal), so you can unambiguously the pressure maxima the cylinders, in the example the cylinders 7 to 12 assign.

The pressure curves in the exhaust manifold AL2 are in 2 represented by the work cycles SP0 to SP3. In the working game SP0 obviously has the cylinder 11 had a misfire. In working cycle SP1, the pressure maxima and minima for each cylinder ( 11 . 9 . 12 . 8th . 10 . 7 ) are pronounced and regularly present and are all above the threshold SW. This means that combustion has taken place in all cylinders. In the work cycle SP2, one recognizes that the diagram course with cylinder 11 the threshold SW below, as well as in the working cycle SP3 at cylinder 9 , In the two cylinders 11 and 9 so there has been a misfire.

3 shows a diagram of the pressure measuring signal in the exhaust manifold AL2 over a working cycle. Here was at cylinder 12 deliberately pulled the plug of the spark plug K. Here, too, it can be clearly seen that the pressure P thus falls below the threshold value SW over the time t, so that the misfiring caused by the lack of ignition can be recognized. At this point it should be noted that by a single intentional removal of a spark plug connector, an assignment of the cylinder can be done to the maximum pressure and minimum. The assignment of the cylinders to the pressure curves can also be determined theoretically.

The threshold can be tested by testing for a given percentage of the average exhaust gas pressure, z. Ex. At 85% of the average exhaust pressure to be set. As already described above, the threshold value SW can also be interrogated from an operating point-dependent characteristic field, which is generated once when all cylinders are operating properly. The map can be formed from a collection of measurements depending on load and speed. In the present case, the speed is fixed, so that a single characteristic is sufficient. If one provokes artificial misfires (eg by leaning) one can find the threshold value SW, at which the detection of misfires works optimally, by trying. The creation of such a map is only necessary once.

Each cylinder bank A, B has its own pressure sensor DS1, DS2 and thus also its own pressure curve, which must be evaluated. However, the reference signal is valid for the whole engine and is in particular by the ignition pulse of cylinder 1 at 20 degrees crankshaft before the upper engine dead center (machine OT) generated. The "machine OT" is defined as the top dead center of the first cylinder. With reference to this TDC, all valve timing is defined. It is thus known how many degree crank angle after the engine TDC open the exhaust valves of the respective cylinders, so when there is the pressure surge in the manifold. The evaluation unit AE knows these angular positions of all cylinders and can assign at a given speed the time at which the respective pressure profile is read out.

Evaluation unit and display unit can form a structural unit comprising a microcontroller and the LED or plain text display or the like. The machine manager or the control center can then recognize via the LED display or via the plain text display which cylinder causes problems, in particular frequent misfiring.

The process is simple and inexpensive to implement. It is only for each cylinder bank, a pressure sensor required and only a display / evaluation unit to give the machinist a reliable indication of the cylinders with misfires.

Claims (8)

Method for the cylinder-selective detection of a missing or imperfect ignition of the mixture in at least one cylinder ( 1 to 12 ) of an internal combustion engine (BKM) with at least one cylinder ( 1 to 12 ), the exhaust gases from the cylinders ( 1 to 12 ) via an exhaust manifold (AL1, AL2), characterized by the following steps: a. Forming a reference signal (RS), which refers to the position of a cylinder piston at a specific time TO, wherein as a reference signal (RS) the pulse of the ignition voltage of a particular cylinder ( 1 to 12 ) is used as a trigger signal, b. Measurement of the pressure in the exhaust manifold (AL1, AL2) by a pressure sensor (DS1, DS2), and c. Evaluation of the pressure signal in the exhaust manifold (AL1, AL2) over the time (t) in Dependence on the reference signal (RS) in relation to the undershooting of a threshold value (SW). A method according to claim 1, characterized in that the threshold value (SM) is generated from the mean value of the pressure signal. A method according to claim 1, characterized in that a predetermined characteristic field is used as the threshold value (SM). Method according to one of the preceding claims, characterized in that a suspending or imperfectly firing cylinder ( 1 - 12 ) is output via a display unit. A method according to claim 4, characterized in that the misfiring of the respective cylinder ( 1 - 12 ) and the frequency of misfires is displayed. Apparatus for carrying out the method according to one of the preceding claims with a. a pressure sensor (DS1, DS2) attached to each exhaust manifold (AL1, AL2), b. a signal generator (ZK), for generating a reference signal (RS), which refers to the position of a cylinder piston at a certain time TO, wherein the signal transmitter (ZK) is a measuring cable attached to the measuring cable, the reference signal (RS) the pulse of Ignition voltage of a specific cylinder ( 1 to 12 ) is generated as a trigger signal, and c. an evaluation unit (AE) for evaluating the pressure profile measured with the pressure sensors (DS1, DS2) in an exhaust manifold (AL1, AL2) over time (t) with respect to the undershooting of a threshold value (SW). Apparatus according to claim 6, characterized in that a display unit for locating the cylinder or cylinders ( 1 to 12 ) is provided with a lack of or incomplete inflammation of the mixture. Apparatus according to claim 7, characterized in that the display unit has a totalizer for indicating the frequency of misfiring.

Images