DE542766C - Three-core cable with single leaded and stranded cores - Google Patents

Description

In the case of three-core cables with stranded cores, it has proven to be advantageous instead of one the stranded insulated cores jointly enclosing lead sheath each insulated Providing the core with a lead sheath and stranding the three single-core cables created in this way. In order to protect such three-core cables with single-leaded cores against external influences protect, these are provided with a reinforcement. The gussets are between the three stranded single-core cables through an inlet made of tarred jute or a similar one Material filled in and thus the cross-section of the cable expanded to a circular shape. About that there is a reinforcement, which is made of paper, compound, jute wrapping, Strip iron or flat wire armor and another layer of jute, compound and similar materials is made.

ao The filling of the gusset between the three Individually leaded, stranded single-core cables are of no importance for the electrical ones Properties of the cable, as the interstices are in a field-free space.

It also does not mean any improvement in protection against chemical attacks, since that is not the case Beilaufstrangen filled with impregnating compound can easily soak up with water. On the other hand the weight of the cable is increased unnecessarily and the price rises. In the event of a cable breakthrough, the easily flammable gusset fillings still have the big one Disadvantage that the electric arc occurring during the breakdown sets the gusset filling on fire and thereby the fire effect propagates from the point of failure.

Based on the knowledge that a runaway in the three-wire cables with single leaded Veins has less useful than harmful effects, is therefore according to the invention suggested making these cables without any clutter.

In the drawing, two exemplary embodiments according to the invention are shown, namely shows:

Fig. Ι the cross section of a cable with bare lead sheaths around the wires, Fig. 2 the cross section of a cable in which the lead sheaths around the wires are still protected by a compound layer. Here A means the copper conductor, B the insulation, C the lead sheath of each individual wire, D the common iron band armoring, which is laid directly over the stranded single leaded wires in the execution of the cable according to Fig. 1. Then there is a layer E of jute, soaked paper, asphalt and lime. Since with normal armoring machines the armoring can only be applied with the application of considerable tensile forces, the cross-section of the armored cable will deviate more or less from the circular shape if the filler fillings are omitted.

In the embodiment of the cable of Fig. 2 is otherwise the same design as according to Fig. Yet ι via the lead sheath of each wire F of a layer impregnated jute or similar fibrous material or strip material, and

Layer E made of jute, soaked paper, asphalt and lime is only provided over the "common iron band armoring D and F. The embodiment according to Fig. 2 can be selected for cables with a larger cross-section in order to prevent the iron band armoring from resting directly on the lead jacket. In all cases, the lead sheaths can be protected against chemical influences by tar or similar substances.

In addition to the cheaper cable and the reduction in weight, which by the execution of which can be achieved without the need for a run-up, there is another essential advantage in the greater thermal load capacity of the cable when it is laid in the ground. While the thermal conductivity of the impregnated drainage is very low, will turn out to be a Three-core cable with individually leaded cores without draining the cavities between the lead sheaths expected to fill with water, and so it will dissipate much better heat be effected. The current carrying capacity of a three-wire cable with individually leaded The cores and with the drain will hardly be larger than that of a Höchstädter cable with the same core insulation. A three-core cable with individually leaded cores without drainage, on the other hand, the current carrying capacity is almost the same like three single-core cables laid side by side.

The omission of the gusset filling still has the great advantage that in the In the event of a breakdown, the resulting arc does not contain any flammable material in the interstices so that the fire does not have an effect after the arc has been extinguished can continue to reproduce.

Claims (1)

Claim: Leaded three-core cable with 'eiijzel and stranded cores, characterized in that the gusset between the three cores are empty and the reinforcement in a known manner over the three stranded Veins is arranged. 1 sheet of drawings