DE3828518A1 - Spark plug with integrated ion current sensor - Google Patents

Abstract

It is already known to detect the combustion process of an internal-combustion engine with the aid of the ion current by the use of ion-current probes. Arranging a plurality of sensors in the combustion chamber of an internal-combustion engine is, however, extremely difficult to carry out on grounds of space and because of demanding contact conditions, and, in addition, many probes are dear. With the new spark plug, a less expensive and space-saving article is achieved which is simultaneously capable of detecting the working of the ion currents. The new spark plug is characterised in that the earth electrode is formed as the middle electrode and the trigger electrode and at least two ion-current electrodes are made in annular form and are arranged concentrically to the earth electrode. Contacting occurs, for the trigger electrode, through a central pin led out from the spark-plug shaft and, for the ion-current electrodes, through ring contacts offset axially on the spark-plug shaft. Such spark plugs find an application in motor construction, especially in motor vehicle construction.

Description

The invention relates to a spark plug with an integrated ion current sensor.

As a result of stricter exhaust gas regulations, solutions are sought where internal combustion engines are operated in an operating area that can, in which the harmful portions of the exhaust gas are kept to a minimum can be reduced and / or in which the fuel used Minimum is. In order to meet such a requirement, it offers itself at first glance, the internal combustion engine with one if possible operate lean fuel-air mixture, i.e. at the so-called to drive lean running limit of the internal combustion engine. In this operating area is with a relatively low-pollution exhaust gas and a low one Fuel consumption. As a characteristic size for the lean The running limit is initially the fluctuation in the pressure curve in the cylinders of an internal combustion engine. In further consideration The problem described turns out, however, that the individual Pressure curves of non-controllable operating parameters of the burner engine are determined, for example, by air ratio, filling and fluctuations in turbulence.

Another method of controlling the internal combustion engine is through the Use of ion current sensors known.

This ion current sensor makes use of the fact that during combustion of hydrocarbon electrically charged molecules and Atoms, i.e. Ions and free electrons are created. Will now be at one arrangement in the combustion chamber with two electrodes a measuring voltage an ion current flows depending on the ion concentration is. This ion current is detected by the sensor and is a measure of the im Combustion chamber ongoing combustion process.  

An ion current probe used to measure the ion current is as described in OE-OS 24 43 413, at a certain distance arranged to a spark plug in the cylinder head of an internal combustion engine net or integrated directly into the spark plug.

From the publication of MTZ 39 (1978) 7/8 page 333-338 "Die Inflammation time and its effect on the course of the energy implementation in the gasoline engine ", it is known to differentiate several Lich distance to the spark plug in the combustion chamber of an internal combustion engine arranged ion current probes to use, so that from their voltage signals a statement about the ignition delay time and the flame out spreading time becomes possible.

The arrangement of several sensors in the combustion chamber of an internal combustion engine is however extremely due to space reasons and because of complex contacting difficult to implement, and moreover, several sensors are expensive.

Proceeding from this, the object of the invention is an ignition to design candle in such a way that with it the described Ion currents are detected.

This task is with those mentioned in the characterizing part of patent claim 1 Features resolved. Advantageous further developments are in the subclaims called.

When assessing the total delay from triggering the spark until the flame front (ion cloud) arrives at the sensor, the Sum of ignition delay time and flame propagation time. Ignition delay time and flame propagation time occur sequentially. Therefore can the boundary conditions for flame propagation after Ent distinguish flame from those for the ignition and the ignition delay time. With the ion current sensor according to the invention, both variables can be independent can be determined by each other and the signals obtained can be via a  Evaluation circuit are led to a control device that Parameters such as ignition timing and mixture composition influenced.

An embodiment of the invention is shown in the drawing represents and is described below.

The drawing shows a spark plug 1 , in which a ground electrode 2 is formed as a central electrode and its upper portion 3 plate or T-shaped. A bent towards the ground electrode ignition electrode 4 and two ion current electrodes 5 , 6 are formed out in a ring and are arranged concentrically to the ground electrode 2 in the order mentioned from the inside to the outside. The upper From 5 6 surmounted section 3, the electrodes 4, wherein the electrode 4 has a smaller distance to the section 3 having the ground electrode as the electrodes 5. 6 All electrodes 2 , 4 , 5 , 6 are worn by a ceramic insulating body by 7 . The ignition electrode 4 is a conventional center connection tap 8 leads out of a spark plug shaft 9 of the insulating body 7 , while the electrode 5 is connected to a ring contact 10 and the electrical de 6 are connected to a ring contact 11 which are axially offset in the lower end of the spark plug shaft 9 are.

As an alternative to this embodiment, the distance between the ignition electrode 4 and the ion current electrodes 5 , 6 from the plate-shaped or T-shaped section 3 can also be the same.

The version shown is electrically connected by a non-illustrated plug connector with mating contacts for the center connection pin 8 and the ring contacts 18 , 11 of the ion current electrodes 5 , 6 and a three-core connecting cable.

The ignition voltage is applied to the center connection pin 8 and thus to the ignition electrode 4 . The mixture is ignited by an ignition spark between ground electrode 2 and ignition electrode 4 . At sufficiently short distance between electrode 4 and electrode 5, the ion cloud achieved after an ignition delay time t ₀ the electrode 5 and bil det a low impedance connection between the earth electrode 2 and electrode ion current. 5 After a time t ₁ , the flame front (ion cloud) reaches electrode 6 and forms a low-resistance connection between electrode 2 and electrode 6 . The time t ₁ is a measure of the reciprocal of the integral flame propagation rate.

Claims (5)

1. Spark plug with center and ground electrode, characterized in that the ground electrode ( 2 ) is plate-shaped or T-shaped as the center electrode and that the ignition electrode ( 4 ) and at least two ion current electrodes ( 5 , 6 ) are ring-shaped and concentric with the ground electrode ( 2 ) are arranged, the plate-shaped or T-shaped section ( 3 ) of the ground electrode ( 2 ) at least protruding from the outer electrode ( 6 ) and the electrodes ( 4 , 5 , 6 ) in the order mentioned from the inside are arranged to the outside. 2. Spark plug according to claim 1, characterized in that the Zündelek electrode ( 4 ) as a conventional center connection pin ( 8 ) from the spark plug shaft ( 9 ) is led out and that the ion current electrodes ( 5 , 6 ) arranged as axially offset in the spark plug shaft ( 9 ) Ring contacts ( 10 , 11 ) are led out. 3. Spark plug according to claim 1 or claim 2, characterized in that the ignition and ion current electrodes ( 4 , 5 , 6 ) to the plate or T-shaped portion ( 3 ) of the ground electrode ( 2 ) have the same distance. 4. Spark plug according to claim 1 or claim 2, characterized in that the ignition electrode ( 4 ) to the plate or T-shaped portion ( 3 ) of the ground electrode ( 2 ) has a smaller distance than the ion current electrodes ( 5 , 6 ). 5. Spark plug according to claim 2, characterized in that the spark plug tap through a plug connector with mating contacts for the center connection ( 8 ) and the ring contacts ( 10 , 11 ) of the ion current electrodes ( 5 , 6 ) and a three-core connection cable is electrically connected.