CS224850B1 - Connexion for electrical ignition,especially of gas burner - Google Patents

Description

The object of the invention is a circuit for electrical ignition, in particular of a gas burner, which is suitable for combination with electronic flame detectors, with which it is possible to automate or to remotely control thermal aggregates with respective logic circuits.

Currently used wiring for electric ignition of burners does not simultaneously meet all the parameters that are required, especially for furnace burners, especially high-speed burners. Energy v

Sparks used for ignition, using a large mains leakage transformer, but the dimensions and weight of the device exclude the use of this solution in some cases. Conventional circuits using electrical circuits in combination with automotive ignition coils, in turn, do not achieve the required amount of spark energy, especially when

to achieve small dimensions. These connections usually do not allow power supply directly from the low voltage distribution. The voltage of 220 V, 50 Hz used, can endanger the operator if the primary winding breaks through to the secondary winding. This breakdown is quite probable because the insulation is heavily stressed by high spark voltage which can cause breakdown

and the resulting conducting channel can connect the mains supply voltage to the secondary coil winding and the ignition electrodes. Ignition electrodes do not have sufficient protection against dangerous contact.

These drawbacks are overcome by the electrical ignition circuit of the gas burners according to the invention in particular,

224 850

That an anode of the first thyristor, the cathode of which is connected to an AC source, is connected to one end of the primary winding of the ignition transformer, and a series combination of the first capacitor and the second thyristor, the cathode of which is connected to the same the AC terminal and its anode are simultaneously connected to the cathode of the second diode, the anode of which is connected through a series combination of the fourth diode and the third resistor to the second AC source terminal, the anode of the second diode connected through the series combination of the second resistance and the third diode to the ignition electrode the first thyristor and through the series combination of the first diode and the first resistor to the first terminal of the AC voltage source, further, the ignition cathode of the second thyristor is connected through the series combination of the seventh diode, the fifth diode and the fourth resistor to the second terminal of the source the first AC terminal is connected through a series combination of the second capacitor, potentiometer, sixth diode, and fifth resistor to the second terminal of the AC voltage source, wherein a common point of the second capacitor and potentiometer is connected to a common anode point of the seventh diode and the fifth diode.

The circuit according to the invention achieves high spark energy with small dimensions of the whole device. All components needed for realization are burdened with very little gold performance. This allows all resistors and diodes to be used in a miniature design. All the energy required to create a spark is collected in the ignition transformer, in its magnetic field. This has two significant advantages. Throughout the wiring there is no need for a capacitor that has the function of substantial energy storage. All other capacitors used are auxiliary and can be used

be small in size. The second advantage is the possibility of using a low voltage supply voltage using a common ignition coil as an ignition transformer. The wiring is adapted to utilize ionization flame arresters, the nature of which is that the ignition induces a high-voltage spark only in the negative half-waves of the AC, so that the flame arrester can be operated for a positive half-period when it is not being disturbed by high voltage sparks.

224 850

An exemplary circuit for electrical ignition of a gas burner is shown in the attached drawing.

An anode of the first thyristor 2 is connected to one end of the primary winding of the ignition transformer 7, the cathode of which is connected to an AC voltage source. At the same end of the primary winding of the ignition transformer 7 is connected a series combination of the first capacitor and the second thyristor 4, the cathode of which is connected to the same AC terminal and its anode is simultaneously connected to the cathode

From a second diode 7 whose anode is connected via a series combination of the fourth diode 10 and the third resistor 11 to the second AC voltage terminal,

The anode of the second diode 7 is further connected via a series combination of the second resistor 8 and the third diode 9 to the ignition electrode of the first thyristor 2 and via a series combination of the first diode 6 and the first resistor 5 to the first AC power supply terminal. The ignition electrode of the second thyristor is connected through a series combination of the seventh diode 17, the fifth diode 13, and the fourth resistor 12 to the second terminal of the AC power source.

The first AC terminal is connected through a series combination of the second capacitor 18, potentiometer 16, sixth diode 15, and fifth cap 14 to the second terminal of the AC power source, wherein a common throw of the second condenser 18 and potentiometer 16 is connected to a common anode point of the seventh diode 17 and anodes. fifth diodes 13. '

The energy needed to generate the ignition spark is accumulated in the magnetic field of the ignition tarter format. The magnetic field is generated by a current that increases in the primary winding of the ignition transformer 1 after opening the first thyristor 2. The first thyristor 2 is opened by current through the third resistor 11, the fourth diode 10, the second resistor 8 and the third diode 9 to the control electrode.

^ 1 '

224 850

When the current in the primary winding of the ignition transducer 1 reaches its maximum, the auxiliary second thyristor 4 opens and connects the first capacitor 3 in parallel to the first thyristor 2. The first capacitor 3 was charged through the first resistor 5, the first diode 6, the second the diode 7 and the primary winding of the ignition transformer 1 such that, when connected in parallel to the first thyristor 2, the first thyristor 2 is reversed, its blocking ability β is restored, therefore, after the voltage rises to the first thyristor 2 in the forward direction. closed. Re-opening of the first thyristor 2 by current to its control electrode is prevented by the second thyristor 4, which shorts the control electrode with the cathode. By the termination of the magnetic field in the ignition transformer 7 when the primary winding is interrupted, a high voltage for the ignition box is induced in the secondary winding of this ignition transformer.

The circuit consisting of the potentiometer 16 of the second capacitor 18, the fifth diode 13, the sixth diode 15, the seventh diode 17 _{} of the} sixth resistor 20, and the seventh resistor 22 serves to establish the correct opening time of the second thyristor 4 and thereby protect the first thyristor 2 and .

Claims (1)

Electrical ignition circuit, in particular a gas burner, characterized in that an anode of the first thyristor (2) is connected to one end of the primary winding of the ignition transformer (1), the cathode of which is connected to an AC source, further to the same end of the primary winding. of the ignition transformer (1) is connected a series combination of the first capacitor (3) and the second thyristor (4), whose cathode is connected to the same AC terminal and its anode is simultaneously connected to the cathode of the second diode (7), whose anode is connected through a series combination of the fourth diode (10) and the third resistor (11) to the second terminal of the AC voltage source, further the anode of the second diode (7) is connected via a series combination of the second resistor (8) and the third diode (9) to the ignition electrode of the first thyristor 2) and through a series combination of the first diode (6) and the first resistor (5) to the first terminal of the AC power supply, the ignition electrode of the second thyristor (4) is connected through a series combination of the seventh diode (17), the fifth diode (13) and the fourth resistor (12) to the second terminal of the AC voltage source, further the first AC terminal is connected through the series combination of the second capacitor a potentiometer (16), a sixth diode (15) and a fifth resistor (14) to the second terminal of the AC voltage source, the common point of the second capacitor (18) and the potentiometer (16) being connected to the $ anode point of the seventh diode / 17 / and the anodes of the fifth diode li “3l.