DE606035C - Closed high-performance fuse - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
November 23, 1934

REICH PATENT OFFICE

PATENT LETTERING

JVi 606 CLASS 21c GROUP

General Electricity Society in Berlin *)

Closed high-performance fuse

Patented in the German Empire on October 8, 1931

With closed fuses, especially those with a high current rating for high short-circuit power, re-ignition occurs easily after the short-circuit has been switched off on. The reason for this is that the fittings, which are under full return tension, are located at the ends of the cartridges generate an electric field whose lines of force are parallel to the connecting line between

ίο the fittings. The melted Fusible metal particles as well as the molten filler, which is a second class conductor, form under the action This field is a current bridge over which the backfire takes place.

It is known to embed two metal screens in fuses for high voltages, one of which is conductively connected to one pole and the other to the other pole of the fuse. The purpose of the self-contained and overlapping cylindrical electrodes is that the potential to earth does not appear at the small radius of curvature of the fusible conductor, but at the large radii of the shields. This reduces the radiation. During operation, an electrical "field corresponding to the potential difference along the fusible link is formed between the electrode overlays. During the melting process, this field increases as the voltage on the fuse increases, but has no effect on the arc extinguishing, since the field between the fusible link concentrically arranged electrodes and thus cannot penetrate the melting chamber.

This arrangement therefore does not serve to extinguish or prevent arcing the re-ignition, but only to reduce the radiation that is generated by fuses can assume considerable values for high nominal voltages. The emergence of an electrical one that penetrates the melting chamber As already explained above, a transverse field is not possible because the closed cylinders are outside the melting chamber.

With another protective device, the in special circuit used fuses a magnetic blow is applied, which is generated by additional blow coils. So there are magnetic aids here used. A supporting effect through the electric field is neither aimed for nor achieved.

According to the invention, backfiring is prevented by avoiding it special additional blow coils o. the like. When responding by inside the cartridge appropriate devices attached

*) The patent holder has indicated as the inventor:

Dipl.-Ing. Arthur Lohe in Annaberg, Erzgeb.

transversely to the fusible conductors or transversely to the connecting line of the feed points for The electrical field lying on the fusible link, which continues even after the melting process remains, is generated in such a way that the equipotential surfaces at least in the middle Part of the melting area in the direction of the connecting line of the contact caps of the cartridge or run parallel to the cartridge axis.

In Fig. Ι, for example, a fuse according to the invention is shown schematically in longitudinal section. The z. B. cylindrical cartridge body α has at the ends contact caps b, b _lt between which the fusible conductors c are stretched in a known manner. According to the invention are now to the. Caps are conductively attached to metal strips d, J ₁ , these being guided as closely as possible along the inner wall of the cartridge body in such a way that their longitudinal axes lie in a main longitudinal section of the cartridge. They extend from opposite directions to roughly the cross-head section of the a5 cartridge. The ends can expediently be provided with projections, between which the electric field can preferably develop because of the smaller distance.

The mode of operation is as follows: As long as the fusible conductors are intact, the caps b, b _t and strips d, d _± only have a potential difference corresponding to the low voltage drop along the fusible conductor. There is therefore only a very small field thickness, the equipotential surfaces of which are perpendicular to the fusible conductors. However, as soon as the cartridge as a result of z. B. short circuit has responded, the voltage difference between the caps b, b _x and strips d, d _{x increases} to the level of the mains voltage. Between the closely adjacent ends e, e _{±, there} is a strong voltage gradient in the direction of their connecting line, so that the equipotential surfaces run parallel to the cartridge axis. Of course, a corresponding field is formed, but with a perpendicular course to the former between the caps b, b _t . Because of the greater distance b, b _x , however, the field is weaker than the first mentioned, so that a resulting equipotential surface course results, as indicated in Fig. 2 in a main longitudinal section of the fuse by line yi-yä. It is therefore at least a central region gi gi ~ present, WO 'run parallel in the cartridge inside the equipotential surfaces of the cartridge axis.

In place of the fusible conductors, the known fusible tubes / have taken the place of response, which run parallel to the equipotential surfaces in the area g-fgi , so that no electricity can be transported here.

Claims (3)

Patent claims: i. Closed high-performance fuse, characterized in that, while avoiding special additional blowing coils or the like., when responding Suitable devices installed in the interior of the cartridge are transversely to the fusible conductors or transversely to the connecting line The electrical field lying at the feed points for the fusible conductors, -that even after the melting process is still retained, is generated in such a way that the equipotential surfaces at least in the middle part of the melting area in the direction of the connecting line of the contact caps of the cartridge or parallel run to the cartridge axis. 2. Closed high-performance fuse according to claim 1, characterized in that the two contact caps (b, bj) with strips (d, ^ ₁ ) which run near the inner walls of the fuse body and extend in opposite directions to approximately the middle part of the fuse, are conductively connected. 3. Closed high-performance melt go Fuse according to Claims 1 and 2, characterized in that the lateral The strips protrude into the interior of the fuse at the free ends. 1 sheet of drawings