SU493555A1 - Capacitive ignition system - Google Patents

Description

one

The invention relates to electrical ignition systems, of the capacitive type, and can be used in the ignition of the fuel-gas mixture in the combustion chambers of gas-turbine engines and other engines for various purposes.

Capacitive ignition circuits are known, which consist of a high source source, a capacitive tip, and a discharge circuit with a discharge and a glow plug of a semiconductor or spark type. Sometimes, such systems contain iodine circuits with auxiliary arresters, which serve to ignite the main controlled arrester in the accumulator discharge circuit, as well as voltage stabilizers.

The disadvantage of these systems is that the discharge energy fluctuates significantly, and in the presence of voltage stabilizers there is a relatively large power consumed by the latter.

In order to increase the efficiency and the reliability of the proposed spark energy stabilization system is carried out using a comparison circuit made on a single junction transistor, the emitter of which is connected to the midpoint of the splitter connected in parallel to the storage capacitor, the first base of the transistor is connected to the bit's nodig circuit, and the second with a voltage stabilizer wives

The electrical circuit of the described system is shown in the drawing.

The system contains a high voltage power source 1, a capacitive drive 2 with a voltage divider 3, a discharge circuit with a voltage of 4 and a spark-plug 5; comparison circuit 6 on a unijunction transistor, voltage stabilizer 7 and ignition circuit 8.

The system works as follows.

When the power is supplied, the high voltage source 1 begins to charge the drive 2. When the voltage on the shoulder of voltage divider 3 connected in parallel to parker 2 becomes equal to KP-6st (where KP is the transfer coefficient of the single junction transistor ), the single junction transistor opens and the voltage that then arises on the resistor in the first base circuit, unlocks the thyristor of the nodig circuit 8.

A secondary pulse is generated on the secondary winding of the impulse transformer of the pjing circuit, which ignites the surge 4 and ultimately the discharge of the capacitive storage 2 through the interelectrode gap of the glow plug 5. The voltage on the storage capacitor by the time of discharge / st Cd-KP-F / where cd is the coefficient of division of the voltage divider.

3

The stability of the transfer coefficient of the unijunction transistor is high (less than 1%), the accuracy of maintaining Uct and the possible changes in Cd are 1-2% over a wide range of external conditions. According to the results of preliminary tests, the fluctuations in the magnitude of the discharge voltage and the discharge energy in the ignition system do not exceed 5% and 10%, respectively.

Subject invention

The capacitive ignition system for gas turbine engines contains, as well as, a storage capacitor connected to a power source, in parallel with which a resistive divider nanorine is connected, and a discharge unit formed by an arrester and a spark igniter, the igniter circuit is stabilized and the comparison circuit is different from the fact that, in order to increase the efficiency of reliability, the comparison circuit is made on a single junction transistor, the emitter of which is connected to the midpoint of the indicated elitel, a first transistor base connected to the ignition circuit arrester, and the second - with a voltage stabilizer.