CS259201B1 - Spark gas spark plug connection with Oas limitation of series of spark sparks - Google Patents

Abstract

the circuit solves the time limitation of the series of ignition sparks, where the working interval length is set to reliably ignite the gas mixture and not last longer than one second. The solution concerns all gas burners and is based on the design of electronic circuits.

Description

The present invention relates to the engagement of a gas spark lighter with a time limitation of a series of igniters where it is used as a source of 220 volts and a high voltage transformer with a timing circuit is used.

He sent the known lighters to ignite the gas with a temperature element or a spark that is induced by a high tension that results from the elastic deformation of the piezo-crystal element or the spark induced by induction. The gas igniters of the element include a certain temperature requiring a source of auxiliary energy, e.g., a galvanic cell, while the life-heated element is severely limited and these lighters do not ignite all kinds of gaseous mixtures used. Lighters ignite demands on the operator's operation and functionally undergoes considerable wear. Piezocrystalline Lighters There is a drawback that their use in gas fired heaters is limited because of their mechanical control.

Lighters, which are connected to the electrical network and ignite the gas by spark induction, can be a source of interference.

The above drawbacks are eliminated by the engagement of a spark gas lighter with a time limitation of the series of igniter sparkers, the principle of which is that the anode of the first diode is connected to the first resistor to the first contact of the actuator through which it is connected to the first pole of the alternator while its cathode is connected to the siesta a resistor which is in series connected by a seventh resistor and an eighth resistor to which a second condenser is connected, one outlet connected at the coupling point of the seventh resistor and the eighth resistor, to the collector of the first transistor and one outlet of the diacid while the other outlet of the second condenser is a cathode thyristor connector which is a control electrode connected through a ninth resistance to a second diac and anode cathode connected to the first diode cathode, as well as one parallel combination of a third capacitor and a fourth condenser while the other third capacitor and fourth condensate ora is connected to the primary winding of the high-voltage transformer to which the diode cathode is connected parallel to the second low-voltage winding of the high-voltage transformer, where it is simultaneously connected to the thyristor cathode with one eighth resistance lead, along with one second capacitor lead, also the second anode A Zener diode and a negative first capacitor field, Lead to the anode of the first Zener diode and through a second resistor and a second actuator contact on the second pole of the alternating current second actuator contact connected to the positive pole of the first condenser to the transistor base whose emitter is coupled to a second Zener diode cathode, a control resistor connected in series with a fourth resistor is also connected to the base of the transistor and a positive pole of the first capacitor, the second terminal of which is connected to the first Zener diode and a third resistor, while the second diode is the cathode coupled to the second terminal of the third resistor and the anode via the first switching contact of the controller to the first pole network.

By engaging a spark gas lighter with a time limitation of the series of igniters according to the invention, reliable ignition of all kinds of gas mixtures used is achieved while avoiding interference with the network.

An exemplary embodiment of the circuitry of the invention is illustrated in the accompanying drawing, which is a block diagram of a gas spark lighter with a time series of spark ignition duration.

In the drawing, the anode of the first diode VD 1 is connected via a first resistor to a first metering contact 21 of the controller S1 through which it is connected to one pole 10 of the AC network, while its cathode is connected to a resistor R6 which is in series with the seventh resistor R7. and an eighth resistor R8, to which a second capacitor C2 is connected, one outlet connected at the junction of the seventh-pot R7 and the eighth resistor R8, to the collector of the first transistor VT1 and to one outlet VD6, while the other outlet of the second capacitor C2 is connected to the thyristorVY 1 cathode, which is the control electrode connected through a ninth resistor R9 to the second diacaVD 6 outlet and an anode connected to the cathode of the first VD 1 diode as well as one outlet of the parallel combination of the third capacitor C3 and the fourth condenser C4, while the other end of the third condenser

Claims (1)

3 259201 toro C3 and a fourth condenser C4 coupled to a primary winding inlet of a mains transformer 1A, to which a fifth diode VD 5 is connected by cathode to a second primary winding outlet of a high voltage transformer TA 1, where it is simultaneously connected to the cathode of the thyristor VY 1 and with one an 8th resistor R8 simultaneously with one terminal of a second capacitor C2, also with the anode of the second Zener diode VD 4 and with the negative field of the first capacitor C1, to the anode of the first Zener diode VD 3 and via the second resistor R2 and the second switching contact 22 of the actuator S1 to the second pole 20 of the alternating current simultaneously via a second break contact 12 of the controller S1 connected to the positive pole of the first condenser C1 and to the base of the transistor VT 1, the emitter of which is connected to the cathode of the second Zener diode VD 4, wherein a control fifth resistor R5 is also connected to the base VT 1 and the positive pole of the first capacitor C1. d o series with the fourth resistor R4, the second terminal of which is connected to the cathode of the first Zener diode VD 3 and the third resistor R3, while the second diode VD 2 is connected by cathode to the second terminal of the third resistor R3a by the anode via the first switching contact 21 of the controller S1 at the first pole 10 alternating network. Upon actuation of the controller S1, the third capacitor C3 and the fourth capacitor C4 are charged through the first resistor R1, the first diode VD1 and the second resistor R2. At the same time, through the first resistor R1, the first diode VD1, the Siesty resistor R6 and the seventh resistor R7, the second capacitor C2 is attached. The red capacitor C2 reaches the switching voltage levels of the VD 6, which is opened and thyristor VY1 is brought into a conductive state, thus discharging the charge from the third capacitor C3 to the primary winding of the high voltage transformer TA 1. In the secondary windings of the high voltage transformer TA 1 induces high-voltage & and sparks in the large sparkles. The plot is periodically repeated during the switch-on of the S1 controller for less than one second. Upon actuation of the controller S1, the first capacitor C1 is simultaneously charged from the source of the unidirectional voltage formed by the second diode VD 2, the third resistor R3 and the first Zener diode VD 3 through the fourth resistor R4 and the fifth resistor 5 until the charge is greater than that of the other Zener the VD 4 diode, once the VT 1 transistor is brought into a conductive state, this will appear on the second capacitor C2. Since this voltage is less than the switching voltage of the VD 6, the DDC does not open, thus interrupting the series of sparks. To carefully create a series of sparks, actuate the actuator S1 into a rest position, thereby disconnecting the lighter from the power supply network, the first capacitor C1 discharging through the break contact 12 of the actuator S1, which guarantees the accuracy of the set working interval length and actuates the actuator S1 to the operating position. PRECAUTIONS A spark igniter lighter with a series of igniter spikes is characterized in that the anode of the first diode (VD 1) is connected via a first resistor (R1) to the first contact (21) of the actuator (S1) through which it is connected to the first pole (10) alternating, its cathode is connected to a sixth resistor (R6), which is in series connected by a seventh resistor (R7) and a resistor (R8) to which a second condenser (C2) is connected, connected in one outlet at a location the seventh resistor (R7) and the eighth resistor (R8), to the collector of the first transistor (VT1) and to one of the diaca / VD6's terminals, while the second condenser (C2) is connected to the thyristor (VY1) cathode, which is the control electrode connected through a ninth resistor / R9 / to the other diaca / VD 6 / and an anode connected to the cathode of the first diode (VD 1) as well as to one outlet of the parallel capacitor / C3 / and the fourth condenser (C4), while the other end of the third condenser (C3) and the fourth condenser (C4) is connected to the primary vincouyeye-ion transformer (TS'1) inlet, to which the fifth diode / VD 5 / cathode is connected to the second high-voltage primary winding outlet transformer (TA 1), where it is simultaneously connected to a thyristor / VY 1 cathode and one 8th resistor (R 8) terminal, along with one second capacitor terminal (C2), also with a second Zener diode anode (VD 4) and a negative field the first capacitor (Cl /, -3) to the anode of the first Zener diode (VD 3) and via the second resistor (R2) and the second make contact / 22 / actuator / Sl / to the second pole / 20 / I 259201. a contact (12) controls (S1) connected to the positive terminal of the first capacitor (C1 and the transistor base (VT1), whose emulator is connected to the cathode of the second Zener diode (VD4), with a transistor base ora / VT 1 / and the positive pole capacitor (C1) is also connected to the control plate resistor (R5), connected to the series by the fourth resistor (R4), whose second terminal is connected to the cathode of the first zener diode (VD 3) and to the third resistor / R3 while the second diode (VD 2) is connected by cathode to the second leads of the third resistor (R3) and the anode via the first switching contact (21) controls (S1) the first pole (10) of the alternating terminal. 1 drawing