DE1128494B - Bare high voltage conductor with low corona losses - Google Patents

Description

The invention relates to a bare one. High voltage conductor with low corona losses, consisting of from a central supporting element made of individual steel wires stranded around a galvanized steel core and at least one outer stranded layer of aluminum wires that form the electrical conductor.

It is known that the corona phenomena in high-voltage conductors are caused by an increase in the off the outer conductor diameter.

Various arrangements have already been proposed for increasing the outer conductor diameter been.

So it is recommended to use bimetallic cables inserted between steel and aluminum Contain elements made of impregnated textile fibers or impregnated paper as filler material.

The behavior of such an arrangement is not satisfactory, however, since in certain cases the impregnation agent penetrates to the outside, whereby the corona phenomena are favored again. Since further that Filling material is relatively unprotected against atmospheric influences and moisture, forms Condensation that eventually destroys all of the material.

Another proposal is to remedy this disadvantage, according to which the filler material with an aluminum tape is surrounded. However, this measure does not bring about any improvement, since the moisture penetrates penetrates the gaps of the overlapping tape and eventually the tape is damaged because it is not thick enough to withstand the friction and that occurring between the various conductor elements to withstand relative movements.

To avoid these shortcomings, it has been proposed to use conductors with a compact plastic core or arrangements in which the filling elements are made of textile fibers or paper, which with a fiberglass tape is occupied and which are covered by a plastic sleeve to be used.

Such arrangements, however, have the disadvantage that they are very expensive to manufacture. Furthermore, it is difficult to handle a conductor so manufactured when jaws are used have to.

It is also known to construct high-voltage cables with low corona losses in such a way that they consist of a steel strand arranged in the core and have at least one current-conducting outer layer made of spirally wound aluminum wires. With such an arrangement, the supporting element is made up of three layers of stranded aluminum wires and a bare high-voltage conductor
with low corona losses

Applicant:
ALLUMINIO SpA, Milan (Italy)

Representative:

Dipl.-Ing. Dipl.-Chem. Dr. phil. Dr. techn. J. Reitstötter, Patent attorney, Munich 15, Haydnstr. 5

Claimed priority:
Italy of July 19, 1957 (No. 575 482)

Carlo Pramaggiore, Milan (Italy),
has been named as the inventor

surrounded by an outer layer of aluminum conductors. A major disadvantage of such a cable is its heavy weight.

The disadvantages of the known constructions are avoided in the new high-voltage ladders by that according to the invention between the surface of the central steel wire core and the inner Position of the current conductor is arranged at least one further filling layer made of stranded threads, which each made of a thin steel wire and an extrusion applied to it foamed polyethylene or polypropylene.

The new high-voltage conductor is more flexible than the well-known conductors. Furthermore, it can be produced more cheaply, since you are dealing with an ordinary stranding with him. Particularly noteworthy is the comparatively considerably lower weight.

For a better understanding of the invention, it will be discussed in more detail with reference to the drawing, which represents an exemplary embodiment. It shows

Fig. 1 is a plan view of the stepwise exposed conductor layers and

Fig. 2 shows a cross section through the conductor.

The head of Figs. 1 and 2 consists of a galvanized steel wire core 1, which is made of two layers spirally consists of steel wires wound around a central steel wire. The steel wire core is made of

209 577/291

surrounded by a layer of stranded threads 2, each made of a thin steel wire and one on top by extrusion applied coating of foamed polyethylene or polypropylene exist.

On the filling layer made of the polyolefin wires are two layers of the conductor 3 made of aluminum wires spirally wound.

The polyolefins can be replaced by other thermoplastic synthetic resins that can be foamed will. However, the best results are obtained with polyethylene.

The new high-voltage conductor weighs 2.6 kg / m and withstands a tensile stress of 22800 kg if a core made of normal steel is used (135 kg / mm ² ).

The conductor exhibiting these properties was tested with an operating voltage of 430 kV and behaved like a two-core cable with a diameter of 29.3 mm and showed little signs of electrical discharges. When the voltage was increased to a maximum value of 62OkV, both systems were surrounded by a luminous ring. The ring was bigger with the double cable. When examining the current flow of the conductors had a temperature rise of 31 ° C above room temperature of 2O ⁰ C at 800A, at 1000 A such of 47 ° C and at 1200 A such of 70 ° C. The excess temperature turned in an enclosed space with still air.

Obvious would be the temperatures involved considerably less in an open space. It can also result from atmospheric influences The polyethylene do not give rise to any difficulties, since this over a wide temperature range very is resistant and is not damaged by moisture.

Claims (1)

PATENT CLAIM: Bare high-voltage conductor with low corona losses, consisting of a central support element of individual steel wires stranded around a galvanized steel core and at least one outer stranded layer of aluminum wires that form the electrical conductor, characterized in that between the surface of the central steel wire core (1) and the inner Position of the conductor (3) at least one further filling layer of stranded threads (2) is arranged, each of which consists of a thin steel wire and a coating of foamed polyethylene or polypropylene applied to it by extrusion. Considered publications:
German patents No. 393 938, 398 516,
843; French Patent No. 969 289;
British Patent No. 535,744. 1 sheet of drawings © 209 577/291 4.62