DE941141C - Ignition assembly for electrical discharge vessels, in particular electrical discharge lamps - Google Patents

Description

Ignition arrangement for electrical discharge vessels, in particular electrical discharge lamps Addendum to patent 901562 The patent goi 562 describes a method for igniting electrical discharge vessels, in particular gas or vapor discharge lamps, with at least one electrode which is heated up before ignition and which is characterized by the fact that the ignition voltage is applied to the discharge vessel as a function of the change in resistance of the electrode or electrodes caused by the heating when the emission temperature is reached.

The invention relates to an arrangement for carrying out this method in the case of discharge vessels that come from a voltage source delivering constant current be fed. The arrangement according to the invention also provides a very fast Causes electrode heating, the ignition voltage being delayed until the The temperature of the heated electrode or electrodes has reached the desired value Has.

In the invention, the known type of preheating for The electrodes made use of one winding of a transformer in parallel is switched to the discharge path, which heating currents in one or more Electrode heating windings induced. To deal with such a transformer to an arrangement for performing .the method for the ignition of electrical Discharge vessels, in particular of gas or vapor discharge lamps with at least an electrode heated up before ignition, according to patent gor 562, is according to the invention, the transformer with a further, so connected Winding provided that after the electrode or electrodes have reached the emission temperature achieved through this winding and the increase in voltage on the electrode heating windings the voltage between the electrodes to one that ignites the discharge Value is increased.

The subject of the invention is based on the circuit diagram in the illustration explained. The discharge vessel r, for example a sodium lamp, contains the electrodes 2 and 3 designed as filaments, which when operated with alternating current work alternately as cathodes. One end of them is over the supply lines 4 and 5 'connected to the constant current supplying circuit 6, which is a conventional Includes breakdown fuse 7 between the supply lines.

A transformer ro is connected to the discharge arrangement, an whose core is the. four windings 12, 13, 14 and 15 lie. The winding 13 is with the free end of the electrodes: 2 and 3, with the electrode 3 over the contacts of the relay 16 connected so that a short circuit parallel to the discharge path lies. The current of the circuit 6 thus flows through the electrodes during the Heating-up time. During this time, the winding 13, as the primary coil, whirls the windings 12 and 14 as secondary coils of the transformer, .the parallel by their circuit in addition to the filaments of electrodes 2 and 3 as a heating source for the electrodes works. Is z. B. the current through -the electrodes of the circuit 6 6.6 amps, so the total current during the heating period is due to the additional current from windings 12 and 14 about 8.6 amps.

Since the arrangement is fed by a constant current, the increase in resistance in the electrodes, which is caused by the rise in temperature, causes an increased voltage difference between the electrodes and thus between the leads 4 and 5. The coil of the relay 16 is in series with the capacitor 17 and the secondary coil 15. The free end of the winding 15 is connected to the power supply line 5 and the free end of the coil of the relay 16 is connected to the supply line 4. During the heating season, the combined voltage from winding 1 5 with that of supply line 4, 5 does not stop in order to put the relay into operation. ' However, when the electrodes have reached the desired electron-emitting temperature, the voltage on the conductors 4 and 5 Abis increases to such a value that the relay is activated by this increased voltage in addition to the voltage on the winding 15 and thus the winding 13 enclosing short circuit opens. The discharge is ignited by the increase in voltage.

During normal operation, windings 12 and 14 lead a low current as a result of the voltage drop in the electrodes and act in this Time as the transformer's primary winding. The tension that this creates in the winding r5 is induced, in addition to the voltage lying between the conductors 4 and 5 is enough to keep the relay open. The capacitor 17 should be as small as possible Have impedance. It prevents the flow of a direct current caused by the Rectifying effect of the lamp can occur through the relay and the transformer windings.

Claims (3)

PATENT CLAIMS: r. Arrangement for carrying out the method for Ignition of electrical discharge vessels, in particular gas or vapor discharge lamps with at least one electrode heated before ignition, according to patent 9o1 562, in which the discharge vessels are powered by a voltage source that delivers constant current are fed and their electrode preheating from the voltage source via a a transformer is wound in parallel to the discharge path, which induces heating currents in one or more electrode heating windings, characterized in that the transformer (zo) is connected to a further one connected in this way Winding (r5) is provided that after the electrode or electrodes (2, 3) the Have reached the emission temperature due to this winding (i5) and the increase in voltage on the electrode heating winding or the electrode heating windings (I2, 14) between the voltage applied to the electrodes (2, 3) is increased to a value which ignites the discharge will. 2. Arrangement according to claim z, characterized in that as a function on the change in resistance of the electrodes after heating to emission temperature the circuit that is parallel to the discharge path and includes the primary winding is interrupted. . 3. Arrangement according to claim? -, characterized in that a relay is provided to interrupt the circuit, the coil of which is connected to the voltage source via a capacitor and a secondary winding of the transformer. Attached publications: Swiss patent specification no. Ao8 077; U.S. Patent Nos. 2,170,448, 2,170,447; French patent specification No. 851 895.