DE864807C - Flashlight device with several gas discharge paths and suitable flashlight tubes for this - Google Patents

Description

Flashlight device with several gas discharge paths and therefor suitable flash tube. More recently, flash units have become known, which generate short, very intense flashes of light in a gas discharge path. to for this purpose a charging capacitor is charged by a high voltage source and briefly discharged via the discharge path. The duration of the discharge flash is less than 1 / looo second. The recharging of the charging capacitor is stressed a time of 5 to 10 seconds.

The relatively long charging time is great for some areas of application such a flash device, e.g. B. in technical or certain sports recordings, very cumbersome.

It has already been suggested that the operability thereby to increase that at least two charging capacitors or capacitor groups from one and the same high-voltage source are charged simultaneously or one after the other are and by a switching device, which in turn from the current pulses of the Discharges is reversed, alternately connected to a gas discharge path will; this shortens the waiting time according to the number of used Charging capacitors. The disadvantage of this arrangement is that the switching the charging capacitors or capacitor groups made by a high voltage contactor must be at which the full high voltage is present at the moment of discharge and A peak current of a few 100 amps flows through its switch contacts. aside from that got to switch the high-voltage contactor with such a delay that the Ionization in the gas discharge tube eliminated by the previous discharge so that the discharge does not occur when the new charging capacitor group is switched on can continue. The measures required for this also make the circuit more expensive.

According to the invention it is therefore proposed that the operational readiness to increase by having at least two charging capacitors that operate simultaneously or can also be charged in succession from one and the same high-voltage source are and each one is permanently assigned to a gas discharge path and that the ignition electrodes of the individual gas discharge paths from a switching device, which in turn is reversed by the current pulses of the discharges; successively in cyclic Interchangeability can be connected to an ignition circuit. This shortens the waiting time corresponding to the number of gas discharge paths used.

According to an advantageous embodiment of the invention, the individual Gas discharge paths with their ignition electrodes on a common, known in Way arranged with terminal contacts provided base, so that it is a replaceable Form unity. The discharge paths are expediently in a glass bulb for protection housed.

To explain the concept of the invention, an advantageous one is shown with reference to FIG Formation of a multiple flash tube with two gas discharge paths and on the basis of Fig. 2 describes a suitable relay circuit for a double flash tube.

Fig. I shows the structure of a double flash tube with two discharge paths i and 2, which are constructed as U-shaped glass tubes on a base 3, which is shown in is provided with pin contacts 4 in a known manner. The two U-tubes will be on most expediently arranged so that their central planes are perpendicular to each other. The glass bulb serving as protection is not shown. In the same way can also use a multiple flash tube with three discharge paths without great difficulty be constructed whose mid-planes intersect at 6o or i2o °.

Fig. 2 shows a circuit for a double flash tube, which is indicated by the dashed border 5, "with the two discharge paths i and: 2 and the ignition electrodes 6 and 7. The two charging capacitors are indicated with 8 and g, each with a discharge path The high-voltage source, which is assumed to be known in this context, is connected to terminals io and ii. In the two discharge circuits thus formed there is a current direction relay 12 with two windings, one of which is each in a discharge circuit The two ignition transformers of the ignition circuits are shown at 14 and 14. The common point of the primary windings is at the switching contact 15 of the converter relay z2 of the photographic camera The circuit is chosen so that one of the primary windings is short-circuited by the contact 15. If an ignition pulse occurs at terminal 16, it triggers a discharge via the free ignition transformer - (in example 13) and the ignition electrode connected to it. The current direction relay is switched to the other end position by the discharge current, so that now the ignition transformer 13 is short-circuited in the example and the next ignition pulse reaches the transformer 14. -Instead of the relay arrangement, the switching can also be carried out by a step-by-step mechanism known from circuit technology, which therefore does not need to be described in more detail. The use of a stepping mechanism is particularly advantageous if the invention is to be carried out for more than two discharge paths, the ignition electrodes of which are connected to the ignition circuit one after the other in cyclic exchange after each discharge.

The invention is not limited to the two described for illustration Circuits are limited, rather one can choose to implement all of them use of circuit technology known means that make it possible to use a number of similar switching elements alternately or in cyclic exchange of the To bring to effect one after the other.

Claims (5)

PATENT CLAIMS: i. Electric flashlight device with gas discharge path, characterized by two or more charging capacitors or groups of capacitors, which are charged simultaneously or one after the other from a high voltage source and each of which is assigned a discharge disk, and one of the current pulses the discharges controlled switching device, which the impulses of an ignition circuit on the ignition electrodes one after the other in cyclic exchange. 2. Electric Flash light device according to claim i, characterized by a stepping mechanism; this when excited by the discharge current of a charging capacitor or a capacitor group switches the ignition circuit to the next ignition electrode. 3. Electric flashlight device according to claim i with two discharge paths, characterized by a current direction relay with two windings, one of which is in the circuit of each discharge path, and a changeover contact with two end positions in the ignition circuit, each when energized of the relay by the current of a discharge path the ignition transformer for short-circuits this discharge path. q .. Flash tube, characterized in that that two or more separate gas discharge paths with ignition electrodes on one common base provided with connection contacts in a known manner are. 5. Flash tube according to claim q., Characterized in that the gas discharge paths are arranged in a protective flask.