DE559183C - Short-circuit-proof three-phase current cable - Google Patents

Description

If, for whatever reason, short circuits occur in a cable network, exceed the currents flowing through the conductors multiply the values of the normal operating S currents and can vary depending on The type and size of the generators, transformers, etc. feeding the network can reach values of, for example, 100,000 amps or exceed. Even if these currents are only maintained for a relatively short time until the disturbed sections of the route are automatically switched off, as a result of their dynamic effects, they can cause permanent damage in the affected cable sections to lead.

The dynamic stresses due to the high short-circuit currents lie in that repulsive forces occur between the three conductors, which the individual cable cores push radially outwards. These forces are very important and can for example with a short-circuit current of 100,000 Amp. in the conductors about 6000 to Reach 10,000 kg per meter of cable length.

In a three-phase current cable with round armor, intermittent occurrences Displacements of the individual cores cannot be excluded from forces at this level. Here, the veins strive to make the armor a triangular shape To give shape. If the armor offers resistance to these pressures, the result is the The veins are pressed against the armor and the latter cut into the surface of the veins, and if these are surrounded by lead sheaths, the lead sheaths may be damaged.

According to the invention, this drawback is eliminated in that the three stranded individually leaded wires under the outer armor with a metal band high tensile strength are wrapped helically, with the shortest possible wrap of the three wires, so that the total cross-section of the three lead-sheathed wires with this tape wrapping is triangular receives. The cable core thus has the shape from the outset that the soul of a Endeavors to adopt cables with round armouring in the event of short-circuit surges is, so that displacements and thus damage to the wires are excluded.

Figs. 1 to 3 show an exemplary embodiment of the invention. 1 are the Cable conductors, 2 the surrounding core insulation, 3 the lead sheaths. The three veins are with a band 4 made of a material of high tensile strength, such as iron, steel or bronze, in tightly abutting spirals folds together firmly, so that radially on the veins acting forces are absorbed by this tape. To cut the feast to avoid wrapped metal tape in the relatively soft lead sheaths, a thin, flexible layer 5 of jute or similar cushioning material is provided between the band 4 and the jackets 3. This protection against mechanical forces is followed by the outer protective armoring 6 made of iron band, which is generally used for cables, Round or flat wire, which in turn is wrapped in the outer jute layer 7 will. The spaces 8 in the interior of the cable are round to achieve a round Total cross-section in a known manner through jute, paper or similar fibrous material material filled.

In order to cut the edges of the metal strip 4 into the lead sheaths with certainty To avoid this, these edges can be bent outwards, as shown in Fig. 3, so be rounded.

Claims (1)

Claim: Short-circuit-proof three-phase current cable, consisting of three stranded, single-lead wires Cores with a common armor, characterized in that the three individually leaded wires under the outer armor with a high tensile strength metal band in a helical shape shortest looping of the three wires are wrapped. 1 sheet of drawings