DE638890C - Device for periodic switching on and off of various circuits - Google Patents

Description

The invention relates to a device for periodically switching on and off a number of circuits, especially for advertising and display purposes, but which are also for switching electrical devices on and off, for controlling motors and the like. suitable.

It is known to switch operations, especially those that take place in certain time segments repeat, by means of electrically or mechanically driven motors or oscillating switching devices to effect. Such devices are large and in most cases expensive equipment, which not only needs to be purchased, but also to be maintained and maintenance is expensive.

The invention relates to a device which has no moving parts is working.

According to the invention, at least one a series of counter electrodes connected to one pole of the power source, which are assigned to the individual circuits to be maintained, opposite each other arranged in such a way that they form a gradually widening overlap gap, that between them a lengthening The opposing electrodes are switched on one after the other and then torn off at the last end of the electrode Closes and re-opens circuits in a desired order and for a desired duration.

If the switching device is installed in a transparent container, then through between the electrodes In addition to the switched indicators, arcs are another eye-catcher for the viewer.

Further details of the invention are explained in more detail with reference to the * drawings, in which several embodiments of the invention are shown.

Fig. Ι shows a switch form for three neon tubes with a transformer as a power source.

FIGS. 2 and 3 show modified embodiments of the switch.

4 shows, on an enlarged scale, part of an electrode with its holder.

In Fig. Ι three individual neon tubes are shown, which together form the word »EAT«, the individual letters of which are vertical, for example are arranged. Also is an arc switch intended. This consists of the electrodes 1, 2, 3 and 4, which in one Carrier 5 are fastened from insulating material (see Fig. 4). The electrodes are with one

End of the secondary winding of a transformer 13 connected; They are also connected to terminals 17, 18, 19, 20, 21 and 22 of the letters! ^ 15 and 16 'formed from the individual neon tubes. Depending on the ^ / ^{at of} the character to be displayed, any number of fields can be used.

Another electrode 6 is arranged opposite the electrodes 1, 2, 3 and 4, namely useful vertical. This electrode is connected to the other side of the secondary winding of the Transformer 13 connected. Between the electrode 6 and the remaining electrodes Flashover paths of different lengths are formed as the short electrodes result Remove the inclined position from the electrode 6. The various rollover paths essentially lie vertically one above the other, namely the narrowest gap on the ground, so that the ao gap width increases in the ascending direction. The individual columns are numbered 8, 24, 25, 26 and 11 designated; its width is adjustable, as shown in FIG. H. the distance between the electrode 6 and the other electrodes is changeable. The setting depends on that Resistance of the various circuits as well as those connected to them and to be controlled Devices.

The operation of the devices described above is as follows:

Due to the high voltage generated by the secondary winding connected to • electrodes 1 and 6 of the transformer is generated, with a suitable conductivity of the flashover path 8, an arc is formed between the electrodes 1 and 6 at point 8. The arc 23 then travels along the path, which is formed by the conductors 1 and 6 until it arrives at the air gap 24 of the conductor 2. Here he leaves conductor 1 and continues his way along conductors 2 and 6 (see arc 23), this process is repeated on electrodes 3 and 4. Finally the Arc up to the air gap 11, the Resistance is so great that the arc breaks. It then arises again from that Gap 8, and the process described is repeated. ■

The arc 8 closes the circuit of the secondary winding of the transformer without however, include one of the neon tubes.

In contrast, the arc at the gap 24 closes a circuit from the secondary winding the transformer to the neon tube 14, d. H.

the letter E, and back to the other side of the secondary winding, the voltage _t here is large enough to reduce the air resistance

'to bridge the gap and cause the tube to light up. The arc at the gap 25 closes the circuit from the secondary side of the transformer of the neon tube 15, i.e. the letter A, via the terminal 20, the tube 15, the terminals 19 and 18, the tube 14 and via the other Si terminal 17 the letter E back to the pjjjfeansformator. So the two letters: v, E and A- are connected in series and ^T both light up. The arc at the gap 26 similarly closes the circuit from the transformer to the terminal 22 of the neon tube 16, i.e. the letter T, and from its terminal 21 to the terminal 20 of the letter A, from the terminal 19 to the terminal 18 of the letter E and from its terminal 17 back to the transformer. All three letters are now connected in series so that they light up. The letters are then turned off all together. As soon as the arc re-forms at the gap 8, which it does immediately, there is a short pause in which it runs up to the end of the electrode 1; none of the letters is enlightened during this period. Such an arrangement of letters and circuits explains one of the numerous practical uses of the arc switch. The electrode 7, which is fastened in the insulator 5, forms an advantageous addition to the arrangement, by means of which the effect is improved in the following way:

After the arc has arrived at the gap 11, the ionized gas reduces, which surrounds the electrodes 4 and 7 at the points of closest approach, the resistance of the gap 10, so that its resistance together with the resistance of the gap 9, which is connected in series with it, is smaller than the resistance of the gap 8. As a result arcs arise at the gaps 9 and 10. The arc at the gap 10 remains at the specified place, but the arc at the gap 9 migrates as a result of the heat effect along the diverging ladder to a point near the gap 12 where he rips off. Since the arc is connected in series with it at point 10, consequently extinguish both arcs. An arc arises again at point 8, which is shown in at this moment has the lowest resistance of the air gap in question. The whole process now begins all over again. The advantage of the electrode 7 is this Embodiment in that the word "EAT" remains lit as long after the letter for letter is made to appear by means of electrodes 1, 2, 3 and 4 until the on The arc formed in the gap 9 in the vicinity of the point 12 breaks off. The terminal 27 of the Electrode 7 can be used to connect a number of other circuits and apparatus as well different arc switches can be used.

The electrodes are surrounded by a housing 30 which is carried by the insulator 5 and suitably consists of transparent material, so that the rise of the successive Arc can be observed and can be used for viewing purposes. The arc switch is expediently visible arranged, so that this increases the visual effect of the actual ^ symbol will. The housing 30 is at both ends, as shown in FIG. 1, open and so of one ascending column of air flowed through it. A flap 29 is at point 28 on the upper part hinged or otherwise adjustable attached to the housing. This allows the Speed of the ascent of the arc and thus the sequence of the switching processes be managed. If you z. B. the flap more than shown in Fig. 1 opens, rise the arcs faster. As a result, the mark is made to light up more quickly. If you move the flap or the damper in the opposite direction, the result is the Switching processes delayed. The damper can also be placed at the lower end, or a damper flap can be provided on both sides.

As is well known, it is a characteristic property of neon tubes or other gas-filled ones Discharge tubes that their resistance is relatively very high and consequently a high one Voltage is necessary to cause the discharge and complete the circuit; When supplying the usual alternating current, the voltage at the The secondary side of the transformer must be high enough for the discharge to start. The flow of electricity will then continue until the voltage has become too low, d. H. until the Voltage curve approaches the turning point. During the transition from the positive half-wave to the negative half-wave or vice versa no current will flow and the arc will only re-ignite when the voltage is applied has become large enough in the next half-period. In the arrangement according to the invention the arc now passes from one contact to the next, while no current flows at the time of the current reversal. So the arrangement works automatically, so that initially the arc bridges the shortest discharge path and after each half-cycle always reignites the next path of least resistance. Fig. 2 shows a magnetically controlled arc switch. The electrodes 1, 2, 3 4 and 4 are similar to and opposed to those shown in FIG. 1 as previously described an approximately vertical electrode 6 is arranged. The electrodes are in a housing 47 surrounded, which is cylindrically shaped in the embodiment. Around this cylinder is a coil 48 of insulated wire wrapped. The ends of this coil are connected to terminals 49 and 50. Through this a magnetic field is created, which tends to reduce the formation between the electrodes To move the arc, all the way from the lowest point at which the The rollover gap is smallest, up to a top point where the gap is widest is. At this point the arc breaks off and forms again between the electrodes 1 and 6.

Since the displacement of the arc between the electrodes is due to electrodynamic we-. It is possible to reduce the speed of the arc's ascent through a to influence surrounding solenoid coil.

The electrodes 1, 2, 3 and 4 can with a Neon system and an electrical power source, as shown in Fig. 1, are connected. It but can also use any other apparatus through such a magnetic arc switch be operated. The speed of the switching movement can be adjusted by adjusting the Coil supplied current are regulated, namely the arc movement is so faster, the stronger the magnetic field becomes, and vice versa. Do you want the magnetic Keep the field constant so the speed of the arc movement can be changed by changing of the current generating the arc can be changed.

In the embodiment according to FIG. 3, a number of electrodes 52, 53, 54, 55 and 56 are arranged stepwise and overlapping opposite one another, but without touching one another directly. Each electrode is inclined away from the immediately opposite electrode. The rollover path formed between the center of the electrode 52 and the lower end of the electrode 53 is the shortest and gradually becomes longer. When the arc occurs first at the lower air gap, it completes the circuit from the transformer to the two lower electrodes without energizing any of the neon tubes or other current sensitive devices that are connected. But when the arc travels up and creates a circuit across electrodes 53 and 54, the transformer current flows through the letter E. The next higher air gap controls the circuit of the letter A on one side of the circuit and that of the letter E on the other side. As a result, both letters will light up. The topmost gap controls the circuit for the series-connected letters T and E on one side and the letter A on the other side of the circuit. This will make that

whole word lit up. ' The arc then goes out and forms anew at the lowest gap. The electrodes, which are shown schematically in the figure can be mounted in the housing 57. The attachment can in each individual case either on On the foot or at the head of the electrode. Likewise, in the other embodiments, which are shown in Figs. ι and 2, the electrodes attached to the head or foot will.

Furthermore, the short electrodes do not necessarily need to be in one plane with the long electrode, but they can be inclined with respect to this plane will. The container shown in some embodiments can also be closed in a vacuum-tight manner and filled with various inert or other gases. This applies to the container for the magnetic and the electrostatic embodiment of the switch. Furthermore, the container can be filled with fluorescent substances in order to have a luminous effect to produce, which are made visible to the eye in different colors and shades is, so that the advertising effect of the whole system is increased.

This is especially useful when looking at see-through or partially open, or translucent Housing used. Furthermore, one can also use material for the housing which transmits such light rays that light up fluorescent fabrics. Objects, models, designations made fluorescent O. The like. Can be arranged in or around the container, so that new Effects are created that serve to create the visual and advertising effect of the entire facility to increase.

Claims (6)

Patent claims : - i. Device for periodic input and Switching off different circuits by means of high voltage, especially for Advertising and display purposes, characterized in that at least one with the one pole of the power source connected '"■ fixed electrode a series of counter electrodes, which are assigned to the individual circuits to be switched, opposite one another are arranged that they have a gradually widening rollover gap form in such a way that an elongating counterelectrode is formed between 5fihnen successively switching on and tearing off at the last end of the electrode Forms an arc that sets the various circuits in a desired order and closes and reopens for a desired duration. 2. Apparatus according to claim 1, characterized in that each circuit has one Electrode (1, 2, 3, 4) and also a common electrode (6) for all circuits assigned. 3. Device according to claim 1 or 2, characterized in that each circuit is assigned a pair of electrodes and the individual electrodes are arranged overlapping stepwise one above the other and without mutual contact in such a way that a rollover path with itself is enlarged between the electrodes for each circuit Width is formed (Fig. 4). 4. Device according to one of claims ι to 3, characterized in that an additional electrode (7) is arranged so that an additional rollover path is made between this electrode (7) and the last individual electrode (4). 5. Device according to one of claims ι to 4, characterized by a the motion of the arc controlling the solenoid, the magnetic field of which controls the. Arc moved between the electrodes. 6. Device according to one of the claims 1 to 4, characterized in that the arc switch is arranged in a housing that is open at the top and bottom its open sides means for changing the cross-section of one or both Openings in the housing, in particular a damping flap (29), for regulating the speed of the upward movement of the arc are provided. For this purpose ι sheet of drawings