EP2922069A1 - Overhead line - Google Patents

Abstract

It is an overhead line for power transmission lines with at least one metallic core wire (1) and a plurality of wire layers around the core wire (1), wherein at least the outer wire layer (2) as a metallic wire layer (2) exclusively of metallic wires (3) and wherein several of the inner wire layers (4) arranged between the core wire (1) and the outer wire layer (2) as mixed wire layers (4) consist respectively of metallic wires (5) on the one hand and non-metallic wires (6) on the other hand.

Description

The invention relates to an overhead line for power transmission lines with at least one metallic core wire and a plurality (concentrically) arranged around the core wire (stranded wire) wire layers.

A constant problem with overhead power lines are corona discharges, which occur at high electrical voltages and lead to energy losses and disturbing noise. It is known that this effect can be reduced by increasing the rope diameter, because an increase in the diameter leads to a reduction of the edge field strength and thus to the reduction of the corona effects described. However, a mere increase in the rope diameter in conventional standard ropes usually leads to a significant increase in the rope weight, which in turn leads to other disadvantages, in particular high mast loads or high sag.

For this reason, it has already been proposed to design overhead cables as hollow cables (see. EP 1 220 235 B1 ). Due to the considerably larger rope diameter, the corona effect is reduced without increasing the total weight of the line. In practice, such hollow cables have proven very well. However, this requires the use of a pipe inside the pipe, so that there are certain challenges in terms of production and installation. There is therefore a general need to provide alternative overhead lines that are designed to avoid or reduce corona discharges without pipe or hollow rope. This is in the CH 86777 A proposed a conductor of a plurality of individual wires, wherein at least a portion of the individual wires to be hollow. Hollow wires and solid wires are to be combined with each other in order to increase the outer diameter for the same metal cross-section.

A similar rope, which is to lead to the reduction of corona discharges, is in the FR 931 195 described. Around a core, a plurality of layers of individual wires are arranged, wherein the individual layers are formed either completely from solid wires or completely from hollow wires.

In the US 2,046,978 a cable is described in which a plurality of layers of individual wires are arranged around a core, wherein the individual layers each consist alternately of hollow wires and solid wires. The problem of corona discharge is not addressed.

Incidentally, one knows from the WO 88/01 430 A1 a self-supporting overhead line having a plurality of metallic wires and at least one strain relief of a plurality of strand-like reinforcing fibers arranged to each other, wherein the reinforcing fibers are impregnated with a binder material and form a composite element.

Finally, electrical overhead cables with integrated optical waveguides are known, wherein optical waveguides or optical waveguide bundles are introduced into a stainless steel tube ( EP 0 286 804 A2 ). A similar transmission line, in which optical fiber elements are arranged in tubes, is shown in FIG DE 44 25 464 A1 described.

In practice, the overhead wires designed from solid wires on the one hand and hollow wires on the other could not prevail. - This is where the invention starts.

The invention has for its object to provide an overhead line for high voltage overhead lines of the type described above, in which not only corona discharges are avoided or reduced, but which moreover simply finished with high stability and easy to install (relocate) leaves.

To solve this problem, the invention teaches an overhead line for high voltage power lines with at least one metallic core wire and a plurality (concentrically) arranged around the core wire (stranded wire) wire layers,
wherein at least one outer wire layer as a metallic wire layer consists exclusively of metallic wires and
wherein a plurality of the inner wire layers arranged between the core wire and the outer wire layer consist of mixed metallic wire layers on the one hand and non-metallic wires on the other as mixed wire layers.

In this case, all inner wire layers between an outer metallic wire layer and the metallic core wire are particularly preferably designed as mixed wire layers. Optionally, however, it is also within the scope of the invention that z. B. a plurality of outer wire layers are formed as metallic wire layers, that is, the outermost wire layer and one or more directly underlying wire layers.

Particularly preferably, the non-metallic wires of the mixed wire layers are formed as plastic wires. In this way succeeds in reducing the weight compared to metal wires. The weight can be reduced particularly efficiently if the non-metallic wires are designed as hollow wires, preferably as hollow plastic wires, which can also be referred to as "plastic tubes". Metallic wires means wires that are made of metal.

The invention is based on the knowledge, which is first known, that corona discharges can be reduced by increasing the rope diameter. According to the invention, the hollow space of the generally known hollow cables is divided into a plurality of individual cross sections, which are formed by the non-metallic wires, particularly preferably by the hollow wires. These non-metallic wires, which are particularly preferably designed as hollow wires and preferably as hollow plastic wires, are used exclusively as a placeholder, they are therefore mitverseilt in the course of production as a placeholder without line function and without tension. It has been found that these placeholders, which are mitverseilt during production, after installation have no effect during operation any more. Apart from the fact that they do not have a line function, they also need not realize any mechanical improvement (traction takeover). The finished stranded overhead line is stable and functional after installation even without these placeholders, so that even the "fate" of the placeholder after installation does not matter. This can also placeholder wires are used, which then rot, so that z. B. degradable plastics can be used. After the stranding and laying (installation of the rope) they have no function. They also do not accept optical fibers or similar components, ie in the case of hollow wires whose interior remains free (during stranding). These are unfilled hollow wires.

The rope according to the invention can also be easily installed and consequently laid. In contrast to conventional hollow cables, no special fittings and devices are required for installation and clamping, but laying can be carried out with conventional standard fittings and devices.

According to the invention it is provided that on the one hand the core wire as a metallic conductor and on the other hand, the outer wire layer consists of metallic conductors. The layers in between may be formed as a mixed wire layers, with a correspondingly high proportion of placeholder wires, so that increases as much as possible with appropriate transmission power of the cable cross-section. Consequently, according to the invention it is not only important that solid wires and hollow wires are combined with each other, but the combination of the measures described is in the foreground. The metallic core wire ensures a high stability of the rope and the metallic outer layer leads to a high functionality in the application.

Preferably, in the mixed wire layers, the metallic wires on the one hand and the non-metallic wires (placeholders) on the other hand alternately arranged side by side, so that in addition to a metallic wire in pairs on both sides non-metallic wires are arranged and vice versa. Alternatively, it is also within the scope of the invention to sort the mixed wire layers in other ways, so that in a position z. B. on a metallic wire several non-metallic wires or on several metallic wires have several non-metallic wires or more metallic wires each have a non-metallic wire.

Moreover, it is advantageous if all the wires of a wire layer have a (substantially) identical outer diameter. This also applies to the intermediate layers in which then all the metallic wires and all non-metallic wires (dummy wires) have a (substantially) identical outer diameter. This means that the rope can be easily manufactured and that the placeholders actually do not have to take over any function after installation. Basically, it is within the scope of the invention that then all wire layers are made of wires with substantially identical diameter. Alternatively, however, the individual layers may each be formed of wires with different diameters, that is, a wire layer with wires of identical diameter can then follow a wire layer with wires with different diameter, the diameter within each wire layer is again preferably identical.

Preferably, the metallic wires are made of aluminum or an aluminum alloy. However, it is also within the scope of the invention to manufacture the metallic wires of other metals or alloys or sinterings.

In the following the invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment.

The single FIGURE shows an inventive overhead line in cross section.

In the figure, an overhead line for high voltage overhead lines is shown that in its basic structure has a metallic core wire 1 and a plurality of wire layers 2, 4 arranged concentrically around the core wire.

The outer wire layer 2 is made as a metallic wire layer 2 exclusively of metallic wires 3.

The arranged between the core wire 1 and the outer wire layer 2 inner wire layers 4 are formed as mixed wire layers 4, each consisting of metallic wires 5 on the one hand and non-metallic wires 6 on the other.

The non-metallic wires 6 are formed in the embodiment as plastic hollow wires and thus plastic tubes. They form only placeholders in the course of production and thus lead to an increased cable cross-section with the same transmission power. Important is the fact that the core wire 1 and the outer wire layer 2 consist of metallic wires.

In this case, all the wires 1, 3, 5, 6 are formed with identical outer diameter in the illustrated embodiment, that is, the placeholder wires 6 have substantially the same outer diameter, as the conductive wires 1, 3, 5. It comes in particular Measure on the fact that the wires of a single (concentric) wire layer and in particular the mixed wire layers each consist of wires with identical or substantially identical outer diameter, that is, the outer diameter within a wire layer should be substantially identical. Basically there is the possibility of a To combine a variety of wire layers together, although each formed of wires with identical outer diameter, but whose outer diameter may vary from layer to layer. Such an embodiment is not shown.

Claims (6)

Overhead cable for power transmission lines with
at least one metallic core wire (1) and a plurality of wire layers (2, 4) arranged around the core wire (1),
wherein at least the outer wire layer (2) as a metallic wire layer (2) consists exclusively of metallic wires (3) and
wherein a plurality of the inner wire layers (4) arranged between the core wire (1) and the outer wire layer (2) as mixed wire layers (4) consist respectively of metallic wires (5) on the one hand and non-metallic wires (6) on the other hand,
wherein the non-metallic wires (6) are stranded as a placeholder without line function and without Zugkraftübernahme. Overhead cable according to claim 1, characterized in that the non-metallic wires (6) of the mixed wire layers (4) are formed as plastic wires. Overhead cable according to claim 1 or 2, characterized in that the non-metallic wires (6) are formed as hollow wires, preferably as hollow plastic wires. Overhead cable according to one of claims 1 to 3, characterized in that in the mixed wire layers (4), the metallic wires (5) and the non-metallic wires (6) are each arranged alternately side by side. Overhead cable according to one of claims 1 to 4, characterized in that all the metallic wires (5) and non-metallic wires (6) of an intermediate layer (4) have an identical outside diameter. Overhead cable according to one of claims 1 to 5, characterized in that the metallic wires are made of aluminum or an aluminum alloy.

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