DE864806C - Electric flashlight device with a gas discharge path - Google Patents

Description

Electrical flashlight device with a gas discharge path In More recently, flash units have become known, the short, very intense flashes of light generate in a gas discharge path. For this purpose a charging capacitor is used charged by a high voltage source and briefly via the discharge path unload. The duration of the discharge flash is less than 1/100 of a second. The recharge of the charging capacitor takes 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. According to the invention it is therefore proposed that the operational readiness to increase by having at least two charging capacitors from one and the same High voltage source can be charged simultaneously or one after the other and from a switching device, which in turn is reversed by the current pulses of the discharges will be alternately connected to a gas discharge path; thereby shortened The waiting time depends on the number of charging capacitors used.

In the case of a flashlight device with two charging capacitors, one Arrangement particularly advantageous in which the two charging capacitors are attached to the contacts a changeover relay with two windings, which is in each switching position connects one or the other with the gas discharge path, and further in each of the discharge circuits there is a winding of a current direction relay, so that its contact depending on whether the one or the other charging capacitor is on the Gas discharge path discharges, which excites one or the other winding of the changeover relay. It is useful to use an auxiliary current to increase the Magnetization out via the converter relay.

The essence of the invention will become even clearer from the following description of a flashlight device with automatic switching for two charging capacitors by means of relays: In the drawing i denote the gas discharge tube, the ignition electrode of which is: 2 on an ignition circuit that is not detailed, 3 and 4; two groups of charging capacitors in a voltage doubler circuit, which are charged simultaneously by rectifiers 5 from the secondary windings 6 of a high-voltage transformer 7 as a high-voltage source. The high-voltage transformer is operated from a low-voltage source 8 via the inverter 9. The charging capacitors are alternately connected to the gas discharge tube by the movable contact 14 of the high-voltage contactor. The high-voltage contactor has two windings ii and 12; If one of them is switched on and excited by the relay 13 to the voltage source 8, the contact 14 is moved from one end position to the other. The relay 13 has two magnetizing windings 15: and two further windings z6, 17, which are in the supply lines of the charging capacitor groups 3, .4 to the high-voltage contactor io.

The circuit works as follows: Assume that both Capacitor groups are charged and group 4, at the moment to the gas discharge tube i is switched on. When the ignition electrode 2 from the ignition circuit receives an ignition pulse receives, group 4. discharges through the tube and creates an intense one in it Flash of light. The current through winding 16 energizes the converter relay in such a way; that the protective winding ii is applied to voltage and the contact 14 in the other Switches the end position, so that group 3 is now connected to the discharge tube is. Simultaneously with the discharge, the current in the inverter circuit increases strongly and supports and extends the contact of the converter relay. Switching from charging capacitor group 4: to group 3 takes place in less 'as foo m / sec, so that. then a second lightning discharge is immediately available. Weizn ignites the tube a second time with a new ignition pulse, repeatedly the game starts, and group 4 is switched back on to the gas discharge tube. By known means, the high voltage contactor can be delayed so far that the ionization in the gas discharge tube is eliminated by the previous discharge so that the discharge does not occur when the new charging capacitor group is connected can continue. -The contact arrangement of the contactor io must be designed to be high-voltage safe be. The current direction relay is a known low-voltage relay. Instead of the relay arrangement, the primary circuit can also be implemented using a circuit technology known stepping mechanism can be made, which is therefore not described in detail needs to become. The use of a stepping mechanism is particularly important Advantage if the invention is carried out for more than two charging capacitors target; which are cyclically exchanged in sequence after each discharge to the Gas discharge tube are switched on.

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 cyclical swapping of the To bring to effect one after the other.

Claims (5)

PATENT CLAIMS: i. Electric flashlight device with converting device electrical energy in a gas discharge path, characterized by two or more charging capacitors or groups of capacitors, at the same time or one after the other charged from a high voltage source and alternately from a switching device be connected to the gas discharge path. 2. Electric flashlight device according to claim i, characterized by a switching device which is activated by the current pulses the discharges is controlled. 3. Circuit for an electrical flashlight device according to claim i and 2 with two charging capacitors or capacitor groups, characterized characterized in that the two charging capacitors or capacitor groups to the Contacts of a high-voltage contactor (fo) with two switch positions and two windings (11, 12) are performed, one or the other in each switching position connects to the gas discharge path, and that one in each of the discharge circuits Winding (16) of a direction relay (13) is so that its contact depending on whether the one or the other charging capacitor discharges via the gas discharge path, energizes one or the other winding of the high-voltage contactor. 4 .. circuit after Claim 3, characterized in that a magnetizing current, e.g. B. the inverter current the power supply, via magnetizing windings (-15) of the converter relay (13) is performed. 5. Electrical flashlight device according to claim i and 2, characterized by a step-by-step mechanism, which the charging capacitors or groups of capacitors when excited by the discharge current of one or one of them in a cyclical manner Interchange connects with the gas discharge path.