DE1003865B - Ignition switch-free operating device for low-pressure arc discharge tubes - Google Patents

Description

The invention relates to an ignition switch-free operating device for two low-pressure discharge tubes, in particular fluorescent tubes, with two activated main electrodes and at least one arranged in the discharge space along the wall of the discharge vessel, with one of the main electrodes electrically conductively connected inside the discharge space and against the other main electrode insulated auxiliary electrode running parallel to the discharge path and with a noble gas filling underneath a pressure of a few millimeters,

If such a tube known per se is connected in series with an adequate stabilization impedance a current source of appropriate voltage is connected, then between the cathode connected th main electrode and the end of the auxiliary electrode, which is insulated from it, acts as an anode on, which moves from the cathode along the auxiliary electrode and finally on the ao main electrode electrically connected to this auxiliary electrode arrives. As soon as as a result at least If only one of the main electrodes has an emission temperature, the glow discharge goes into a much stronger arc discharge between the main electrodes.

It is a stroke of luck that the most common one for the transition from glow discharge to arc discharge Mains voltage of 220 V is sufficient. As a result, these tubes are used without a so-called ignition switch; H. without one Switch that is parallel to the tube and in series with the resistance body of the activated glow electrodes Megt and when closed it sends a strong heating current through the glow electrodes.

It has been found that the life of this Tubes is adversely affected by the number of times the tubes are switched on. With a mains voltage of around 220 V, the tube can only be switched on a few hundred times on average, which is particularly important in cases in which the tube is only kept in operation for a short time, which is far too short for practice Lifetime results.

It was also found that the number of switch-on options increases as the time span between switching on the tube and the occurrence of the arc discharge decreases. This period of time is due to the supply voltage. Extensive tests have shown that this time span is reduced to a small fraction of a second at an effective AC voltage of about 240 V and more, and as a result the number of switch-on options is significantly increased ¹ . At the same time it was found that rms AC voltages in excess of about 280 V in this ignition switch-free operating device
for low pressure arc tubes

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
Netherlands May 15, 1952

Jozef Cornells Moerkens, Eindhoven (Netherlands),
has been named as the inventor

Do not offer any noteworthy additional advantages.

AC voltages of about 240 to 280 V are seldom available, so that generating such voltages would leak on the use of a step-up transformer. These Solution is costly.

The invention aims to provide simple and inexpensive tools to create for this purpose.

The invention, concerning the ignition switch-free operating provisions for two low-pressure arc discharge tubes of the type indicated above, is characterized in that the one discharge tubes in series with a first self-induction, the other in series with a second self-induction and a capacitor, whose reactance is greater than that of the second self-induction, as well as in series with one Part of the former self-induction is due to an alternating current source, with that of the first self-induction reactance turned away in series with an auxiliary reactance opposite to this reactance the power source.

609 838/305

By using the. Auxiliary reactance is achieved that the tube connected in series with the capacitor at one over the supply voltage Exceeding voltage ignites, and as a result of the fact that the discharge current of this tube a part of the first self-induction flows through, carries over to that with the whole first Self-induction tube connected in series produces an increased voltage.

The part of the first choke coil and the common to the two tube circuits are preferably Auxiliary reactance impedance. . so dimensioned that the The ignition voltage of the tube connected in series with the capacitor is greater than that of the others Tube. - - -

With a supply voltage of around 220 V, the number of turns inserted in both tube circles of the first self-induction 10 to 20% of the total number of turns of the first self-induction be.

The invention will now be described in greater detail using an exemplary embodiment shown in the drawing explained.

1 and 2 are two approximately 120 cm long low-pressure arc discharge tubes with a clear diameter of approximately 35 mm which, in addition to a small amount of mercury, also contain an argon filling under a pressure of approximately 3 mm. The coated tubes layer on the inside of the discharge vessel to an unillustrated phosphor are each provided with two activated by means of barium strontium compound Häuptelektroden 11 and ¹ 12 or 21 and 22 and one each auxiliary electrode 13 and the 23rd The auxiliary electrodes consist of a mixture of graphite and glaze, are applied to the inside of the tube wall in the form of a strip approximately 3 mm wide extending practically the entire length of the tube, connected to one of the main electrodes and have a resistance of approximately 20 to 30 ohms / cm. If desired, each tube can also be provided with a second auxiliary electrode connected to the other main electrode.

The tube 1 is via a choke coil 3, the tube 2 via a capacitor. 4, a choke coil 5 and a part 6 of the choke coil 3 are connected to poles 7 and 8 of an alternating current source of 220 V, 50 Hz. An auxiliary choke coil 9 is connected in parallel with tube 2, choke coil 5 and choke coil part 6 and in series with the capacitor 4.

The choke coil 3 has 1480 turns and, at a voltage of 175 V, allows a current of 0.42 A to pass through at its ends, so that its impedance in this state is approximately 420 ohms. The part 6 has 235 turns, ie about 16% of the total number of turns of the choke coil 3 _;

The capacitor 4 has a capacity of 5 µF, i.e. H. an impedance of about .635 ohms.

The choke coil 5 allows a current of 0.44 A through at a voltage of 100 V, so that their Impedance in this state is about 230 ohms.

The auxiliary choke coil 9 leaves at a voltage of V a current of 0.07 A and at a voltage of 180 V a current of 0.03 A through, so that their impedance in these states is about 3850 ohms and about 6000 ohms, respectively . Relevant VA product is very low.

The operation of the device is like; follows: When closing one in one or both connection lines with the poles 7 and 8 inserted switch, not shown, flows through the capacitor 4 and the auxiliary choke coil 9 a current of 0.07 A, which is applied to this auxiliary choke coil and thus also to the Tube 2 gives a voltage of 270 V.

The tube 2 ignites at this voltage and reaches the arc discharge state within a a fraction of a second. The leading discharge current flowing through part 6 of choke coil 3 results in a voltage of 255 V at the tube 1, whereupon this tube also has the practically immediate effect Arc state reached. This takes place so quickly that the glow periods of the tubes only can be perceived at a greatly reduced voltage.

The number of turns of the choke coil part 6 and the impedance of the auxiliary choke coil are deliberate 9 dimensioned so that the capacitively stabilized tube 2 receives a higher ignition voltage than the inductively stabilized tube 1.

This avoids that the tube 1, which is before the ignition of the tube 2 at 220 V and this could ignite, remains in the glow discharge state for too long.

In the normal operating state, the voltage across the tube 1 is approximately 110 V for a tube current of about 0.42 A; the voltage at the tube 2 is about 110 V with a tube current of about 0.44 A. The current flowing through the auxiliary choke coil 9 is now about 0.03 A, which is the The current flowing through capacitor 4 is about 0.475 A and that from the power source! total current supplied approx 0.45 A.

With regard to the direction, the wattless currents of the tube circles are opposite to one another, so that the The power factor of the device has a high value. The stroboscopic effect of the device is small because the dark periods of the tubes do not occur simultaneously.

The service life of the tubes is a few thousand circuits under the circumstances mentioned.

Claims (3)

PATENT CLAIMS: 1. Ignition switch-free operating device for two, an inert gas filling under a pressure of low-pressure arc discharge tubes of a few millimeters, in particular fluorescent tubes, with two activated main electrodes and at least one in the discharge space along the Wall of the discharge vessel arranged, conductively connected to one of the main electrodes Auxiliary electrode, characterized in that one discharge tube (1) is in series with a first Self-induction. ' (3), the other (2) in series with a second self-induction (5) and a capacitor (4) whose reactance is larger than that the second self-induction, as well as in series with a part (6) of the first self-induction an alternating current source, the reactance (4) averted from the first self-induction in series with an auxiliary reactance (9) opposite this reactance at the power source lies. 2. Device according to claim 1, characterized in that that the two tube circles common part (6) of the first self-induction (3) and the impedance of the auxiliary reactance (9) are dimensioned so that the ignition voltage of the capacitor Sator (4) series-connected tube (2) is larger than that of the other tube. 3. Device according to claim 1 or 2, for a supply voltage of about 220 V, characterized in that that the number of turns (6) inserted into both tube circles of the first Self-induction (3) 10 to 20% of the total number of turns of the first self-induction. References considered: U.S. Patent No. 2,004,585; British Patent No. 369 060. 1 sheet of drawings © 609 838/305 2.57