SU448309A1 - Condenser ignition system of heating devices - Google Patents

Description

one

This invention relates to electronic ignition devices for heating devices, such as nozzles, operating on liquid or gaseous fuels.

The ignition systems are known, consisting of a thyristor, in the anode circuit of which the primary winding of the induction coil and the storage capacitor, a driver of pulses consisting of a key element and a successive C-depy are included. The pulse shaper is used to turn on the thyristor. The anode circuit of the thyristor is connected via a rectifying diode to the width of the alternating current source.

However, in such devices, the thyristor is switched to the conducting state in a positive half period, coming from an alternating current source. Therefore, not only the discharge current of the storage capacitor flows through the thyristor, but also the current of the pptani source. In this case, if the power source has a low output impedance and significant power (for example, when powered from an industrial network), the current from the power source flows through the thyristor except for the pulsed discharge current of the capacitor, which causes the thyristor to operate in heavy mode. If the device is powered by a dc-to-dc transistor, then at the moment the thyristor is turned on, the converter oscillates because the open thyristor switches the converter to the low-load mode. After the storage capacitor is discharged, the thyristor is lowered, and the converter is again excited, however, as is known, starting the capacitor load on the converter (charging the storage capacitor) presents a considerable difficulty, therefore the transistors in the converter operate in a heavy mode.

The purpose of the invention is to increase the operational reliability of the device and increase the efficiency.

This is achieved by the fact that the control circuit of the proposed capacitor ignition system of heating devices is formed by an additional capacitor connected by one output to the control electrode of the thyristor, the other through a resistor to the anode of the additional diode connected by the cathode to the power supply, and between the connection point of the resistor and the output of the capacitor and A thyristor is connected to the thyristor cathode, the anode of which is connected to the thyristor cathode.

In the proposed ignition system, the thyristor is switched on by the discharge of a capacitor during the negative half-period of the voltage supplied from the power source to the rectifying diode.

The drawing shows a diagram of the proposed capacitor ignition system of heating devices.

The electronic ignition system consists of a thyristor 1, an induction coil with windings 2 and 3, a storage capacitor 4, an extrusion diode 5, an additional diode 6, a resistor 7 and a control circuit consisting of a resistor 8, a dynistor 9, a capacitor 10. Power supply fed to the circuit through buses 11 and 12.

The system works as follows.

In the first positive half-period of the supply voltage, when a positive potential is connected to bus 12 on bus 11, rectifying diode 5 turns on in the conducting direction, and a circuit flows through the circuit consisting of diode 5, storage capacitor 4, and primary winding 2 of the induction coil. the current that charges the storage capacitor 4 to the amplitude value of the positive semipranus voltage of the power supply.

The storage capacitor 4 maintains this voltage until thyristor 1 opens. In the negative half-period, when bus 11 has a negative potential relative to bus 12, capacitor S is charged along a circuit consisting of diode 6, resistor 8, resistor 7 while the capacitor 10 has a polarity indicated in the drawing.

If the time constant of the circuit, consisting of diode 6, resistor 8, capacitor 10, resistor 7, is significantly longer than one half period of the power source, then the voltage on the capacitor 10 increases with each negative half period. By its magnitude, the voltage on dynistor 9 is less than the voltage on capacitor 10 by the amount of the fall on resistor 7. Until

open the dynistor 9, the voltage across the resistor 7, and consequently, the voltage on the controlled electrode of the thyristor 1 has a negative polarity, and the thyristor 1 is closed.

As soon as the next negative half-period of voltage creates a voltage on the dynistor 9 that exceeds its voltage to open (break), the dynistor 9 opens. In this case, the capacitor 10 discharges

through a dynistor 9 and a resistor 7. On the resistor 7, and therefore on the control electrode of the thyristor 1, the voltage of positive polarity and the thyristor 1 opens. Opening the thyristor 1 leads to the discharge of the capacitor 4 through the primary winding 2 of the induction coil. The current pulse in the primary winding 2 of the induction coil, caused by the discharge of the capacitor 4, leads to a high voltage pulse in the secondary winding 3 of the induction coil, which causes a spark in the spark plug.

Subject invention

A capacitor ignition system of heating devices containing an alternating current source, a power rectifier diode, a storage capacitor, a thyristor, an ignition coil and a thyristor control circuit,

connected through an additional diode to a power source, characterized in that, in order to increase reliability, the control circuit is formed by an additional capacitor connected by one output to

to the control electrode of the thyristor, the other, through a resistor to the anode of the additional diode, and between the connection point of the said resistor and the capacitor lead and the cathode of the thyristor is connected to the dynistor, anode

which is connected to the thyristor cathode.