DE1008404B - Discharge flash tubes - Google Patents

Description

The modern discharge flash tubes operated on capacitors charged with DC voltage have been widely adopted for photo-taking purposes because of their probation. The disadvantage of the additional devices is still the relatively high capacitor voltage of 200 V and above, which is necessary to ignite the tube with relatively low energy. In general, the ignition takes place via an auxiliary electrode attached to the discharge tube, which is temporarily supplied with a short-term high voltage. So that the associated with the closure Actuating contacts located in the camera turn out to be small and light, so that the locking mechanism do not cause a significant load, the ignition energy must generally not exceed 2 mWsec !"wear.

It was not possible to fire discharge flash tubes with such a low ignition energy with the means available up to now, if the capacitor voltage should be significantly below 200 V. To achieve smaller, lighter and handy additional devices as well as to reduce the risk of electric shocks from high However, it would be very welcome when dealing with capacitor voltages of less than voltages 150 V would do without simultaneously increasing the ignition energy above the stated amount of 2 mWsec.

The only to capacitors charged with DC voltage with constant poking Operating discharge flash tube according to the invention makes it possible to reduce the capacitor voltage to less than 150 V without needing more than 2 mWsec of ignition energy. The invention relates to one exclusively on capacitors charged with a direct voltage of less than 150 V and always remaining the same Polarity to be operated discharge flash tube, which does not require more than 2 mWsec ignition energy, with a spacing corresponding to at least three times the inner pipe diameter, non-preheatable main electrodes, one of which to facilitate ignition other than the Cathode also activates the anode by means of alkali or alkaline earth metal oxides in a manner known per se is.

Surprisingly, it has been shown that the additional activation of the anode is a Reduction of the capacitor voltage down to significantly below 150 V, about 100 to HOV, allows. The ignition energy supplied to the auxiliary anode is still no more than 2 mWsec. With a discharge tube operated exclusively with direct voltage and with constant polarity This surprising fact is physically to-discharge flash tube

Applicant:

Patent Trust Company

for electric light bulbs m.b.H.,

Munich 2, Windenmacherstr. 6th

Werner Fehse, Berlin-Lichterfelde,
has been named as the inventor

next hard to interpret. So far there are discharge tubes for more general applications operated on direct voltage, in which the anode was activated in addition to the cathode. However, it was either tubes that were originally designed to operate on alternating voltage were developed and only operated on a trial basis with DC voltage, or they were activated provided on both main electrodes in order to be able to regularly reverse the polarity of the tubes and then always one to have activated cathode available. These tubes have never been observed made that the capacitor voltage required for ignition under otherwise constant conditions can be lowered if the anode is also activated. Because the tube according to the requirements According to the invention, the current can only flow through it in one direction, the effect was through Activation of the anode to lower the ignition voltage, not to be expected and therefore from the known Proposals are not to be found.

Even with discharge flash tubes, it has never been possible to reduce the capacitors at the above to reduce the specified ignition energy limitation to such low values, although one is already Already proposed to provide light-relieving means, such as radioactive substances, also at the anode. The attempt to activate the anode like the cathode with alkali or alkaline earth metal oxides, must have seemed absurd to the expert up to now.

To explain the invention, reference is made to the drawing sheet, which shows in a schematic representation a conventional discharge flash tube 1, in the present case a U-shaped curved tube. The distance between the electrodes 2, 3, measured along the discharge path (dashed line), is more than three times the inner diameter of the tube.

709 509/313

As usual, the tube 1 is provided with an ignition electrode designed as an outer metal coating 4 which the ignition voltage is applied, for example on the secondary winding 5 of the transformer 6 receives when its primary winding 7 by means of the switching contact 8 in the discharge current circuit of the capacitor 9 is switched. The switching contact 8 is generally in the camera shutter housed.

The main circuit contains the capacitor 10, which is charged with a DC voltage of less than 150 volts. A direct voltage source 11, for example a direct voltage network, a suitable battery or a rectifier connected to an alternating voltage source, is used for charging. A current limiting resistor 12 or 13 is also connected between the DC voltage source 11 and each of the capacitors 9, 10.

The cathode 3 of the discharge tube 1 is as usual activated by means of alkali or alkaline earth metal oxides. In the discharge flash tube according to the invention an activation of the same type is also applied to the anode 2. Their surprising effect occurs although the anode 2 always remains on the positive pole of the capacitor 10.

From the large number of control examinations carried out so far, to check the effect of the proposal according to the invention, let it be a characteristic Example given in more detail. In this case, the capacitor 10 had a capacity of 6000 μΡ and was charged with 130 V. The auxiliary capacitor 9 had a size of 0.2 μΡ and was with the same Voltage charged. The transformer 6 had a ratio of the primary winding 7 to the secondary winding 5 of 1: 500. The discharge tube 1 of about 4 to 5 mm inside diameter and one lengthways of the discharge path measured electrode distance of 45 mm was on the outside with one of Provided anode 2 to cathode 3 reaching, 2 mm wide metallization as an auxiliary electrode. As well as the cathode 3 as well as the anode 2 consisted of a hollow cylinder wound from tungsten wire about 3 mm in diameter and 8 mm in length. To the These hollow cylinders were activated with a mixture of barium oxide, calcium oxide and strontium oxide filled. The ignition energy supplied by the capacitor 9 is easy to calculate z> u 1.7 mWsec.

The tube was filled with pure xenon at a pressure of about 100 torr. The discharge flash tube 1 could even with the low voltage of 100 V at the capacitor 10 as often and as often as desired long pauses under any external conditions in the circuit shown for immediate ignition to be brought.

Even if the anode is activated next to the cathode in the discharge flash tubes according to the invention, both electrodes do not need to be completely identical. It can be the Cathode may be larger or different in shape than the anode.

Claims (1)

PATENT CLAIM: Only included with capacitors charged with a DC voltage of less than 150 V. Constant discharge flash tube to be operated, which does not exceed 2 mWsec Ignition energy required, with at least three times the inside diameter of the pipe Spaced, non-preheatable main electrodes, one of which to facilitate the Ignition not only the cathode but also the anode itself by means of alkali or alkaline earth metal oxides is activated in a known way. Considered publications:
British Patent No. 574 581. 1 sheet of drawings © 7O9 509 / J13 5.57