DE404870C - Arrangement of air voltage fuses with auxiliary electrodes - Google Patents

Description

ISSUED
ON OCTOBER 25, 1924

(A 41527 VIII / 21 c ³ )

Three-electrode voltage fuses are known for discharging single lines, where one electrode is connected to the line and the second to earth, while the third, separately excited auxiliary electrode is through a permanent auxiliary ionization is supposed to lower the breakdown voltage of the discharge tubes. For multiple lines increases only the number of line electrodes accommodated in the same discharge space corresponds accordingly the number of lines.

The present invention relates to some arrangements of several three-electrode voltage fuses, which all respond simultaneously despite the use of a special fuse for each line.

The usually dead auxiliary electrode present in every fuse tube is used however, in contrast to the device mentioned at the beginning, not for the permanent ionization of the space between the ducts. and ground electrodes of your own fuse, but only for temporary ionization the space between the main electrodes of the fuses that have not yet responded. This process will caused by the fact that all discharge spaces by means of the auxiliary electrodes connects directly or inductively with each other. The auxiliary electrode can also be used as a capacitive one Be formed covering, whereby the same effect is achieved. The conductive connections of the Auxiliary electrodes non-inductive resistors switched to the first between Main and lead electrode onset of spark transition after ionization has taken place the space between the line and earth electrodes, the resistance of which is then lower than that between the auxiliary electrodes is to be transmitted.

The invention is described below and shown in the drawing, for example; here shows:

Fig. Ι a circuit diagram of air-free voltage fuses according to the invention,

Fig. 2 the connection of the auxiliary electrodes to each other,

Fig. 3 shows a modified circuit diagram.

The two lines 1 are shown in Fig and 2 with the electrodes 5 and 6 of two evacuated or gas-filled tubes 3 and 4, respectively connected, which serve as discharge spaces. Opposite the line electrodes are the Ground electrodes 7 and 8, respectively. In addition, there is an auxiliary electrode 9 in each tube or 10, which are directly connected to each other.

In the case of spark transmission in one discharge tube (e.g. in 3), the train

*) The inventor is indicated by the patent seeker.

Dr. Frit ^ Albrecht in Potsdam.

associated auxiliary electrode 9 and thus also the auxiliary electrode 10 of the neighboring pipe 4 earth potential, whereby a spark transition between the auxiliary electrode 10 and the lead electrode 6 of the second fuse is created. This spark transition already causes the actual discharge of the second branch; however, since it is more advantageous Letting the discharge take place between the main electrodes is in the connecting line of the two auxiliary electrodes a non-inductive resistor 11 (e.g. a Silitstab) switched on. This resistance causes the auxiliary electrode 10 to turn on! put the auxiliary discharge has a voltage against the electrode 8, so that after Ionization of the gas space between the electrodes 6 and 8 the main discharge between the lead electrode 6 and the earth electrode 8 takes place. Most of the discharge will therefore take this route, as the route via the auxiliary electrodes is made more difficult by the switched-on resistor.

The arrangement of Fig. 1 can be used to secure any number of lines by a serve corresponding number of discharge tubes; all auxiliary electrodes are included, if necessary with the interposition of resistors 11 (Fig. 2), blind with each other.

A second arrangement, the simultaneous activation of two air voltage fuses is shown in Fig. 3. The formation of the discharge tubes itself corresponds to that of Fig. 1. However, the discharge of each branch of the line goes not directly, but rather through the primary coils 12, which contain only a few walls or 13 each of a transformer to earth; the many turns containing secondary windings 14 and 15 are crossed on the one hand with the auxiliary electrodes 9 and 10, on the other hand connected to the earth.

Now hits a wave front z. B. the fuse 3, it is when passing through the primary winding 12 in the secondary winding 14 and thus on the auxiliary electrode 10 of the other Discharge tube 4 generate a high voltage, which, as in the first case, a spark transition between the electrodes 6 and 10 and thereby a strong ionization causes, so that a discharge occurs between the electrodes 6 and 8. Here too is the switching on of high resistances 11 in the connections between the secondary windings and the auxiliary electrodes expediently in order to limit the discharge current initially flowing through the auxiliary electrode.

In any case, the internal auxiliary electrodes be replaced by external evidence, which has a capacitive effect when a fuse is triggered and thus in the rest Electrode tubes cause ionization.

Finally, the circuit diagram could can be modified according to Fig. 2 so that the connection point of each secondary winding routed to the earth line in the discharge space of your own auxiliary electrode and yourself forms as a second auxiliary electrode. In this case the discharge would be in one tube the effect of the transformer creates a spark transition between the two auxiliary electrodes cause the other tube and thus an ionization of the second discharge space, so that now also its main electrodes respond.

Claims (5)

P ATENT claims: ι. Arrangement of air voltage fuses with auxiliary electrodes, thereby characterized in that the usually non-current carrying auxiliary electrode of each fuse to which the leakage current of another fuse leading line is arranged such that it responds the voltage supplied to the one fuse of the auxiliary electrode of the other fuse is also used to respond brings. 2. Arrangement according to claim 1, characterized in that the auxiliary electrodes are formed by capacitive documents. 3. Arrangement according to claim 1 and 2, characterized in that the discharge spaces all fuses are connected directly to one another by means of auxiliary electrodes that are usually not live stand. 4. Arrangement according to claim 1 and 2 for the protection of double lines, characterized characterized in that the auxiliary electrodes with the interposition of secondary windings two transformers are cross-grounded, with the primary windings of these transformers in the Circuit of the main electrodes are switched on. 5. Arrangement according to claim 1 to 4, characterized in that in the conductive Connections of the auxiliary electrodes non-inductive resistors, e.g. B. Silit rods, are switched on. 1 sheet of drawings.