DD207023A1 - END AMPLIFIER FOR SPARKING IN INTERNAL COMBUSTION ENGINES - Google Patents

Abstract

The invention relates to a Zuendverstaerker for Funkzuwender in internal combustion engines, which can be used independently of the existing Zuendanlage. It is the object of the invention to generate an ignition spark with high power conversion, which optimally initiates the ignition process in a fuel-air mixture. The task is to generate a high spark energy by means of a time-prolonged and high-current radio discharge. It is achieved by using a high-voltage connection between the ignition voltage source or the ignition distributor and the spark plug as a delay line with an adjusted characteristic impedance.

Description

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Ignition amplifier for spark ignition in internal combustion engines

Field of application of the invention

The invention relates to an ignition amplifier for generating sparks in internal combustion engines, which generates a powerful and long - lasting spark by reducing the perceptible losses in the secondary circuit of the ignition system and can be used independently of the already existing ignition system.

Characteristic of the known technical solutions

There are a number of technical solutions which aim to reduce the ohmic losses in the secondary circuit of an ignition system or to improve the ignition characteristics of sparks by generating suitable discharge forms, such as arc, glow or non-thermal pulse discharges.

It has already been proposed to arrange a capacitor parallel to the ignition electrodes, which generates a very fast and high-current discharge. Different variants include a structural unit of capacitor and spark plug (DE-OS 2400623) Other systems, as described in DE-OS 1902199, suggest the formation of the capacitor by using high dielectric constant insulating material in the plug connector or the disposition of the capacitor as discrete Component in the plug connector (DE-CS 2908051, DD-WP 143941). Although these devices represent an improvement over conventional coil ignitions, they have the disadvantage that the energy input during the capacitive discharge is greatly reduced by the breakdown voltage.

1.1, \ B

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depends, and especially in the partial load range of the engine is low, because this discharge follows a smoldering or arc phase, which is less suitable for a flame. Only in the case of a strong turbulence of the fuel-air mixture it comes to extinguishing the spark and a renewed capacitive discharge. Therefore, proposals have been made to switch the parallel capacitor via a Vorfunkenstrecke to the ignition electrodes, so as to increase the fed during the capacitive discharge energy (DE-OS 2850159, DE-AS 2363804). However, in this case the burning time of the spark is very short, so that it can not come to an optimal ignition of a fuel-air mixture.

Object of the invention

It is the object of the invention to make optimal by means of a high-current and relatively long-lasting spark with high power conversion the ignition process of a fuel-air mixture in an internal combustion engine.

Explanation of the essence of the invention

The technical reason for the low energy conversion in the ignition spark are the energy losses at the ohmic resistances of the secondary circuit in ignition systems of conventional type. In systems with a capacitor in parallel with the ignition electrodes occur very short and high-power sparks due to the small values for the inductive and ohmic resistance whose burning time is not sufficient for many purposes.

The object of the invention is on the one hand to provide a solution that provides a high spark energy, on the other hand, but not significantly shorten the burning time, so that takes place during the entire burning time of the spark a high Lsistungseinspeisung in the sparks.

According to the invention, this object is achieved in that the ignition cable as a delay chain consisting of several arranged in series LC four-poles in low-pass circuit formed

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is, in which the energy supplied by the ignition coil is cached · The characteristic impedance of the delay line is adapted both to the internal resistance of the ignition voltage source and to the resistance of Zünd'funkenplasmas ·

The inductive and capacitive stored in aer delay line energy discharges after reaching the ignition voltage through the spark plug. The characteristic impedance of the delay line determines, together with the voltage, the current of the spark, the transit time defining the burning time of a partial spark. After the breakdown of the spark plug, the resistance of the gas path is much lower, so that now reflections of the voltage pulse occur, causing more sparks. If the ignition cable designed as a delay line is then recharged by the voltage increase of the ignition coil, then the burning duration is not shorter in total than in the case of using a conventional ignition cable due to the sequence sparks. In order to avoid losses, a plug connector without interference suppression resistor is to be used, and the ohmic resistance of the internal conductor of the delay cable must be small compared to the characteristic impedance. This measure does not adversely affect the radio interference suppression with appropriate dimensioning of the delay line, since the low-pass character of the delay line suppresses the generation of high-frequency interference and the metallic outer conductor of the ignition cable has a strong shielding effect.

embodiment

The invention will be explained in more detail by exemplary embodiments. 1 shows the structure of a delay line 7 as a high-voltage connection between the primary 1 and secondary winding 2 of an ignition voltage source and a spark plug 10.

In the simplest case, the device for generating high-current and long-lasting sparks for optimum ignition of a fuel-air mixture in ßrennkraftmotoren designed so that the delay chain 7 of discrete capacitors

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5 and high-voltage insulated inductors 3 is constructed, wherein at least five LC four-poles are arranged. The capacitors, for which both feedthrough and ring capacitors can be used, must be high voltage resistant up to 30 kV · If ring capacitors are used, the coaxial outer conductor 6 is to be connected to the outer layers of the capacitors 5. The connection of the individual LC four poles is done so that the delay line 7 is partially flexible.

This structure is particularly suitable for adaptation with wave impedance changed in stages. Here, as shown in Fig. 1, the delay line 7 is connected via the terminal 12 and by means of the line 13 to the secondary winding 2 of the ignition coil. The connection 14 to the spark plug 10 takes place either directly via the plug connector 11 or additionally via the high-voltage switch 8. As a high-voltage switch, a suitably dimensioned spark gap can be used. The capacity 9 represents the intrinsic capacity of spark plug 10 and plug connector 11 or, when using additional capacitors in these components, the gas office capacity. In any case, aer outer conductor 6 must be grounded at both ends.

A second practical embodiment of the firing amplifier in coaxial design of the delay line 7 with a possible connection variant within the ignition system is shown in FIG. 2. Here, there is an integrated design of the coaxial line with an inductance 3 wound on the coil core 4, which is surrounded by the dielectric 15. This is enveloped by the flexible coaxial outer conductor 6, which serves as a ground line. Through the outer conductor 6 and through the inductors. 3 formed inner conductor with the intervening dielectric 15, the distributed capacitance 5 is formed. The capacitance values are determined by the diameter of the coaxial outer conductor 5, the thickness of the dielectric 15 and its dielectric constant as well as the length of the delay line 7. At the same time, the dielectric 15 forms the high

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Voltage insulation from the inner conductor to ground. The inductance values of the inductance 3 are determined by the number of turns per unit length, the diameter of the individual turns and the permeability of the coil core 4. This embodiment has a high flexibility. One possibility of connecting the ignition amplifier to the ignition coil and plug connector 11 can be made as in the previously discussed embodiment.

Claims (6)

invention claim Ignition amplifier for spark ignition in 3rennkraftmotoren, gekannzeichnet characterized in that one of several series-connected LC four-poles existing delay line with matched characteristic impedance is used as a high voltage connection between ignition voltage source or, ignition distributor and spark plug · 2. firing amplifier according to item 1, characterized in that the delay chain is formed in coaxial design of a wound inner conductor corresponding inductance and a separate by a high-voltage dielectric flexible outer conductor, or that the LC four-poles of the delay chain of discrete elements, inductors with high permeability cores and high-voltage capacitors · 3. firing amplifier according to item 1 and 2, characterized in that the coil cores of the inductors of the inner conductor of the delay line when reaching predetermined limit currents have saturation behavior · 4 · firing amplifier according to item 1 to 3, characterized in that at the same capacity of the individual coupled LC quadrupoles, the inductance at the connection to the ignition voltage source is substantially greater than at the connection to the spark plug. 5 «booster according to item 1 to 3, characterized in that the same inductances, the capacitances of the LC four-poles at the connection to the ignition voltage source are smaller than at the connection to the spark plug, and that the characteristic impedance of the delay chain changes continuously or in stages. 6 · ignition amplifier according to item 1 to 5, characterized in that a high voltage switch is anteordnet as a connecting element between the high voltage output of the delay line and the spark plug. For this two-page drawings