DE1529131C - Electric extra-low voltage safety ignition device for gas-operated devices - Google Patents

Description

The invention relates to an electrical, flame-free, low-voltage safety ignition device for gas-powered devices, with a low-voltage transformer in the lines of a main circuit, an ignition coil and the sensor of a thermal switch, e.g. B. one Liquid switch, are switched on, its switching element in the lines of a control circuit and a gas supply regulating, also switched on in the lines of the control circuit Solenoid valve, depending on the thermal ', controls switch, and also a safety switching element and a switch-off contact for the ignition filament are provided, the safety switching element than in the ■ lines of the control circuit horizontal zero-voltage relay that is controlled depending on the thermal switch and, in turn, controls the solenoid valve as a function of the valve is, whereby in the lines of a circuit parallel to the solenoid valve a switching element with selectable switching time, e.g. B. a thermistor, and depending on this, a further cut-off relay for Disconnection of the transformer with incandescent filament and NTC thermistor is provided, according to patent i 529 129.

In the device according to the main patent, the characteristic is seen in the fact that high operational reliability occurs in that when the burner flame is extinguished by some external influences the solenoid valve is switched off immediately and the <. Gas supply is thus stopped immediately.

In order to improve such a device even further in this direction, in particular to the effect that eil * Elamm backlash is prevented when the pipe burns empty, according to the _; Invention proposed a delay, which is substantially characterized in that the zero-voltage turn-on relay formed only during Arifteizzeit as such and this is additionally arranged upstream of a switching time delaying thermistor and further that the shutdown relay additionally - during _v normal Burning operation - is designed as a zero voltage relay and controls the solenoid valve, both relays temporarily operating as zero voltage relays being switched depending on one another, in such a way that the zero voltage switch-off relay is connected downstream of the zero voltage switch-on relay during the heating-up period, while during operation the zero-voltage switch-on relay drops out and the zero-voltage switch-off relay takes over the zero-voltage monitoring and controls the solenoid valve.

This additional arrangement of an NTC thermistor which delays the switch-on process on the one hand and the dependent arrangement of the connection relay and the cut-off relay on the other hand becomes a Hitherto unachieved high operational reliability achieved by using only one of the two relays works, one relay only during the heating-up time and the other relay only during the Main burning time. This allows the zero voltage to be safely taken into account in both phases of the combustion operation will.

In addition, the structure and the mode of operation of the invention are best understood in the Drawing reproduced circuit diagram of the device.

At first 10 a low-voltage transformer, with 11 an ignition filament, with 12 the sensor of a thermal switch and with 13 on Switching element referred to.

The low voltage transformer 10 and the ignition filament 11 and the sensor 12 of the Thermal switches are in the lines 14 of a main circuit.

When the device is the line voltage 14 flows through the pressure switch 25 and the normally closed contact 16 of the liquid switch 13 to the thermistor 124. At the same time flows voltage across the normally closed contact 23 α of the cut-off relay 23 for operating contact 15 b of the connection relay 15. After heating of the thermistor 124, the relay pulls 15 and holds on to contact 15 b. At the same time, the contact 15 closes α and switches the transformer 10 on.

After the sensor 12 has been heated, the switch 13 switches over from contact 16 to contact 18 (dashed line indication). So that the voltage is now fed to the solenoid valve 19 via the closed contact 15 c, whereby this opens. The gas can now "flow through the line 21 to the mouth 22 and ignite at the heated heating coil 11." The burning flame keeps the liquid switch at its required temperature.

With the switching of the 'switch 13 from the normally closed contact 16 to the normally open contact 18 is turned on and the thermistor 24 out of the operation of the solenoid valve 19th When the thermistor 24 is heated - delayed switching - the cut-off relay 23 picks up. First, the normally open contacts 23 b and 23 c close, whereby the control of the solenoid valve 19 is taken over, from contact 23 b. The contact 23 c holds the relay 23 and 23 α and allows the connection relay 15 to drop out.
If zero voltage now occurs during the heating time, the connection relay 15 switches off the solenoid valve 19 again so that no gas can flow in. Burning operation can only be restarted when the thermistor 124 is switched on after a delay.

If zero voltage now occurs during the main burning time, the cut-off relay 23 drops out. Via the contact 23 b of the relay 23, the solenoid valve 19 drops out and closes the gas supply. The liquid switch 13 is on its normally open contact 18. As a result, the relay 23 cannot attract because the contact 15c is open. The relay 23 can only pick up again when the normal glow process has been initiated via the thermistor 124 and also brought to an end. The switching delay caused by the thermistor 124 ensures that the gas in the combustion tube can only burn out before the solenoid valve is opened again. So there can be no flame recoil.

Last but not least, it goes without saying that the illustrated and described embodiment is only is an example of the implementation of the invention. You could of course avoid one Flame recoil also select switching devices that differ from those shown.

Claims (1)

Claim: Electric, flame-free extra-low voltage safety ignition device for gas-powered Devices with a low-voltage transformer in the lines of a main circuit, an ignition filament and the sensor of a thermal switch, e.g. B. a liquid switch, are switched on, the switching element is in the lines of a control circuit and a gas supply regulating, also switched on in the lines of the control circuit Solenoid valve controls as a function of the thermal switch, and furthermore a safety switching element and a disconnection contact for the ignition filament are provided, with the safety switching element as in the cable runs of the control circuit, controlled depending on the thermal switch and, in turn, that Solenoid valve dependent controlling zero voltage relay is formed, wherein in the lines of a parallel circuit to the solenoid valve a switching element with a preselectable switching time, e.g. B. a thermistor, and depending of this, another cut-off relay for switching off the transformer with incandescent filament and thermistor is provided according to patent 1529 129, characterized in that that the zero-voltage switch-on relay (15) is only designed as such during the heating-up time and this is also preceded by a thermistor (124) delaying its switching time and that furthermore the cut-off relay (23) additionally - during normal combustion operation - as Zero voltage relay is formed and controls the solenoid valve (19), both of which are temporarily Relays (15 and 23) working as zero voltage relays as a function of one another are connected in such a way that the zero-voltage cut-off relay (23) the during the heating-up time Zero-voltage switch-on relay (15) is connected downstream, while the Zero-voltage switch-on relay (15) drops out and the zero-voltage switch-off relay (23) does the zero-voltage monitoring takes over and controls the solenoid valve. 1 sheet of drawings