DE1465878C3 - High voltage transmission line - Google Patents

Description

The invention relates to a high-voltage overhead line cable with an opposite the conductor in the Much larger jacket diameter to reduce the edge field strength. The transmission of high Electrical output over long distances is generally carried out via high-voltage overhead lines. Taking into account the edge field strength and the associated corona and HF interference the electric field strength on the overhead cable must not exceed a certain value. Because the field strength is essentially dependent on the rope diameter, can be done in a known manner by increasing the rope cross-section reduce the edge field strength. However, a cable cross-section that is too large leads, as it is usually in terms of current cannot be exploited, leading to an increase in the cost of the line and, under certain circumstances, to considerable weight, which are no longer justifiable.

It is known to use large diameter hollow ropes in such cases. So shows z. B. the DT-PS 3 92 076 a high-voltage overhead line cable, which is used to reduce corona losses on the conductor a metal jacket with a circular cross-section and with a significantly larger than the current conductor Diameter is postponed subsequently. The metal jacket of the outer waveguide rests directly on it the suspension cable, the inner conductor.

This known rope has, inter alia. the disadvantage that the Crosswinds cause the outer waveguide to swing around the suspension cable and thus increased wear and tear evokes. In addition, the circular cross-section of the waveguide is transformed into a elliptical warps.

To avoid these disadvantages, it is bekanntge- ^fi 5 been the supporting cable relative to the outer hollow conductor by spacers of various shapes to be centered (DT-PS 8 88 876, DT-PS 4 82 210 DK-PS 41 794, US-PS 19 55 468). These spacers are preferably made of conductive material.

For mechanical reasons, however, such hollow ropes are known to be disadvantageous and not all Requirements grown; their use is therefore not appropriate in all cases. When using hollow ropes and the like, the enlargement of the conductor surface is only possible to a limited extent, since the hollow ropes for reasons of strength and weight, they cannot be increased at will. In addition, because of this, that the outer sheath is conductively connected to the current inner conductor, the distances between the individual ropes are relatively large among each other on the overhead line.

The use of bundle conductors does not bring the desired fringe field strength either Success, since the diameter of the single conductor remains the determining factor for the edge field strength.

The invention is based on the object of the high-voltage overhead line cable according to the preamble of claim 1 so that it is mechanically easy to handle, and a relatively small rope distance the phase ropes on the overhead line. The solution to this problem succeeds according to the characterizing Features of the main claim.

The plastic sheath allows good mechanical handling of the overhead line cable. Combined with The insulating spacers and the insulating gas can reduce the field within the rope, so that a relatively small distance between the individual phase cables on the overhead line is possible. the Electric conductors can be exposed to a high edge field strength, since the insulating gas is responsible for suppression the corona discharges.

The use of insulating spacers and insulating gas is known per se (US-PS 23 55 111, 24 69 445, OE-PS 2 22 210). Due to the smooth surface of the casing and the plastic material used the formation of hoarfrost and icing, to which overhead lines are heavily exposed, counteracted.

The invention is explained in more detail with the aid of the drawing.

In the drawing, 1 denotes the conductor, which consists of a steel cable 2 (supporting cable) and current-carrying Consists of 3 aluminum wires. You can also use threads made of glass fibers, boil-proof Plastic and similar materials are used. The conductor 1 lies within a plastic jacket 4, which has a low electrical conductivity. The diameter of this plastic jacket is a multiple of the conductor diameter.

The plastic jacket 4 is centered with respect to the conductor 1 by means of spacers 5. Since the Spacers 5 are designed as fully insulated parts, they also take on the task of the plastic jacket to insulate against the conductor 1. This reduces the potential from the conductor to the plastic jacket possible (capacitive voltage division), so that corona losses from the plastic jacket into the surrounding Atmosphere are practically irrelevant, especially since the plastic jacket continues to homogenize of the electric field around the conductor. To improve this property of the Plastic jacket, the plastic forming the jacket can have a conductive additive.

In the space between the conductor 1 and the plastic jacket 4 there is an electrical insulating means

serving, pressurized gas, whereby it is possible for the conductor 1 itself an increased Allow edge field strength. Due to the fact that the gas is guided in a flowing manner, cooling of the Achieve current conductor.

1 sheet of drawings

Claims (3)

Patent claims: 1. High-voltage overhead cable with a diameter compared to the conductor in a substantial amount larger jacket to reduce the edge field strength, characterized by the combination of the following features: a) that the jacket (4) consists of a plastic with low electrical conductivity, b) that the jacket (4) by means of electrically insulating spacers (5) on the conductor (1) is arranged, and c) that between the jacket (4) and the conductor (1) there is an electrical insulating means' 5 serving, pressurized gas is located. 2. Overhead cable according to claim 1, characterized in that the sheath (4) forming Plastic with low electrical conductivity to increase its conductivity a conductive Has addition. 3. Overhead cable according to claim 1, characterized in that the gas for cooling the conductors flowing through the cavity of the jacket (4).