DE671702C - Automatic flashing light device - Google Patents

Description

Automatic flashing light device, especially for display the direction of a vehicle it is known to use flashing light devices, in which the flashing light is arranged on both sides of the vehicle in such a way that depending on the direction of travel one or the other to light up comes. The blinking frequency is generated by a magnetic relay in a self-interrupting circuit that works like a Wagnerian hammer. Through such a facility can be achieved with much simpler means than a flip-flop circuit achieve low frequencies. With such facilities there is now the risk of that when switching the flasher relay at the interruption contacts overvoltages occur when there are self-inductions in the circuit of the relay contacts. Through this and the opening and closing sparks make the contacts considerable stressed and thus reduced their service life.

To avoid the occurrence of switching overvoltages and sparks, According to the invention, two glow tubes including their interruption contacts connected in parallel and in series with a resistor and the mode of operation here chosen so that the circuit for a tube is already closed before the the other tube is switched off, and the ballast resistor common to both tubes dimensioned so that its voltage drop when switching on the second tube as long as the first is still in operation, in the tubes only one below the ignition voltage Lies lying tension can occur.

The arrangement of two parallel tubes and their control initially has the result that the interrupter contacts are spared, as a closing spark completely avoided; one tube ignites immediately when the other, burning is switched off. Any additional extinguishing circuits that are still present then only need a lot To be made small, as they are only intended to be effective when a tube is destroyed and the system has not yet been switched off.

The series resistor to the tubes and their parallel connection is used also to dampen any overvoltages that may occur. These surges can come from the network, for example the network voltage can even be in rail networks quite considerable fluctuate, but the glow tubes must be inclusive a safety margin for the lowest possible split values so that they aucih .: will then still ignite safely. During the burning one Tube occurring sta, `.

Such overvoltages will generally not damage the tube; on the other hand, a voltage that is too high at the moment of switch-on can lead to a wrong one Lead discharge, for example against a tube wall, and thus destroy the tube.

All of these difficulties are due to the arrangement according to the invention safely avoided, as shortly before switching off the burning tube on the not yet ignited only the operating voltage is that from the moment of switching off from in a time determined by the size of the resistance only up to the ignition voltage can increase, since then immediately ignites the tube and thus the voltage applied to it lowers.

In Fig. I a flashing light device according to the invention is shown. With i and 2 two neon tubes are referred to, which are from a DC voltage source 3 can be fed via the contacts of a relay 4. The tube i is about the Contacts 5, the tube 2 switched via the contacts 6. Parallel to the contacts are extinguishing circuits 7 and ß consisting of resistors and capacitors. Further is a blocking circuit g in the connection line of the relay 4 to the negative pole of the battery built-in. A capacitor io is in a known manner parallel to the excitation coil of the Relay 4 switched. With a switch ii, either the tubes 1 ": 2 or corresponding tubes 1 ',: 2', which are arranged on the other side of the car, with connected to the flashing light. A resistor 12 is in series with the two neon tubes placed and dimensioned in such a way that when both tubes are switched on at the same time, 2 or 1 ',: 2' on these tubes the ignition voltage cannot occur.

The operation of the device is as follows: As soon as the switch ii is inserted, the tube i Applied to voltage via contacts 5 and thus lit up: Simultaneously the relay 4 is energized so that: it interrupts the contacts 5 and the contacts 6 switches on. The contacts are there for a moment during the switching process 5 and 6 closed at the same time. Both tubes i and 2 are connected to voltage. The tube t does not initially light up, since the resistor 12 has a causes such a large voltage drop that the ignition voltage is not reached. The tube i is still lit because the operating voltage is below the ignition voltage lies. Only when the contacts 5 are finally broken does the tube go out i. As a result, the voltage drop across the resistor 12 drops so far that the Rire 2 receives a voltage sufficient to ignite. Pedaling during the switching process Surges on; then they cannot endanger the tube 2 because they are parallel lying tube i prevents the occurrence of an impermissibly high voltage drop.

The contacts 5, 6 are designed in the manner shown in Fig.2. The two contact pairs are through a dome pin 13 which is in the upper contact pair is freely movable and passed through the lower contact of the pair 5, with each other tied together. The upper contacts as well as the lower contact of the pair are below a downward spring pressure, while the actuating force is at the lowest Couple 6 contact attacks. There are stops on the upper contact of the pair 6 14 provided, which limit the downward movement. As soon as the actuating Force acts in the direction of the arrow in Fig. 2a, the contacts come first 6 in contact with one another according to Fig. 21): This means that the both contact pairs 5 and 6 closed. This condition lasts as long as to according to Fig. 2c of the coupling pin 13 with the upper contact of the pair 5 comes into engagement and this, as shown in Fig Counter contact takes off. The force of the relay armature engages in the opposite sense of the Arrow direction of Fig. 2d, then first the contacts 5 are closed without that the contacts 6 separate from each other. This is only possible if the upper contact of the pair 6 comes to rest on the stops 14 and on further movement of the lower contact will cause an interruption.

Claims (1)

PATENT CLAIMS: i. Automatic flashing light device, in the case of alternating by a mechanical relay in a self-interrupting circuit two glow tubes, in particular neon tubes, are made to light up, characterized in that that the tubes (1,: 2) including their inevitably coupled interruption contacts (5, 6) are connected in parallel in such a way that each pair of contacts that the The circuit for which a tube produces is closed before the other pair of contacts is opened, and that both tubes have a resistor (12) of such a size is connected upstream that its voltage drop when switching on the second tube, as long as the first is still in operation, on the tubes only one below the ignition voltage lying tension 'can occur. a. Flashing light device according to claim r for Operation with direct current, characterized in that it is parallel to the contact pairs (5, 6) are arranged consisting of resistors and capacitors.