DE1415925A1 - Arrangement for carrying busbars for high currents - Google Patents

Description

Arrangement for carrying busbars for high currents. The invention relates to an arrangement for carrying high current rails in busbars multi-phase design, where the high currents cause a split the current rails per phase in at least two, single or double-profile conductor rail systems, which are arranged one above the other or next to one another is provided. Through the constant The arrangement prepares for an increase in the power of transformers and generators the busbars, with regard to their insulators, present great difficulties. The known Arrangements are partly constructed in such a way that the supports that carry the busbars be claimed for upheaval. In the case of high short-circuit currents it is with this arrangement before that the truss as a result of the large mechanical forces break away. One has tried to avoid this by adding more to the side Stutzer ordered, but this led to a considerable amount of effort. The stress of insulators on bending has always proven to be disadvantageous and is after Avoided possibility in technology. For manufacturing reasons, such Insulators cannot be produced in any dimensions either.

An arrangement is already known to avoid these disadvantages which provides post insulators between the busbars of the individual phases, which in the event of a short circuit are only subjected to compression or tension. Simultaneously Stutzer must be provided to carry the whole system, which is a proportion Requires a large amount of isolators, especially if they are in a phase belonging busbars for the transmission of high currents from several, e.g. two superimposed Busbar systems exist.

Both the top and bottom busbars must be used here be supported against the other phases by post insulators.

It is also known to carry multi-phase busbars a Provide arrangement of the busbar distribution in hexagonal shape. One Such an arrangement causes difficulties in the approach to the generator or transformer, as the generator or transformer terminals are arranged horizontally are. In addition, the hexagonal shape causes difficulties in mastering the forces generated by short-circuit currents.

In the event of a short circuit, namely those arranged between the rails Unevenly loaded isolators. Depending on where the phase short-circuit occurs has an effect, the insulators are subjected to bending or compression or tension. Bending stress is inexpedient for insulators, however, as it is seldom can hold this stand. In addition, the sub-conductors must be designed in such a way that that they can absorb the full short-circuit load, so that another specified The advantage of the hexagonal shape is also canceled out by this. The invention lies the underlying task of maintaining the advantages of the known arrangements and beyond in addition to a substantial saving in insulator bodies and a simple one Assembly to lead. According to the invention, the busbar systems are for each phase attached to a common insulating body by means of a busbar bracket and the insulating bodies designed as bushing insulators for all phases pushed onto a common metal pipe, with the metal pipe on one, on earth potential lying support structure is conductively attached. With the saving on Isolators eliminate a number of sources of error and, on the other hand, that Ground potential brought up between two insulators, so that the destruction of one Partial insulator can at most lead to a simple earth fault. To be another the insulators between the phases in the event of phase short circuits only subjected to compression or tension and not to bending.

The metal tube is expediently attached to a supporting structure in a conductive manner wherein the supporting structure is at earth potential, so that the supporting pipe at the same time is grounded. If necessary, the load-bearing pipe can be positioned at all protruding points be insulated so that a conductive connection to the supporting structure is unnecessary. the Bushing can be designed as a cast resin bushing.

The invention is explained in more detail on the basis of drawing examples. In. Figure '! a known embodiment is shown. While FIG. 2 shows the embodiment reproduces according to the invention. In Figure 1: 1 denotes the busbars, 2 denotes the lateral post insulators, 3 the load-bearing insulators, 4 lying at ground potential Partition walls, 5 the busbar supports in non-insulating design.

Figure 2 shows the embodiment according to the invention. It means here 1 the busbars, 2 the bushing insulators, 3 the 1Crduhgerrohr, 4 the support frame lying on earth potential, 5 , the conductor rail holder and 6 the attenuators, the. are advantageously arranged at the end of the two outer insulating bodies and have the purpose of argening the mechanical compressive stress on the insulators in the event of a short circuit.

Only from the comparison of these two arrangements can be recognized one that in the embodiment according to the invention a substantial saving in insulators entry. While with the same number of busbar systems in the known Embodiment 11 insulators are provided at each support point, requires the inventive Only 3 isolators per support point.

The arrangement according to the invention can be both horizontal and vertical be arranged and the number of busbar systems per phase selected arbitrarily will.

Claims (4)

P a t e n t a .n s p r ü c h e 1. Arrangement for carrying busbars for high currents in a multi-phase version, in which due to the high currents, a division of the busbars per phase into at least two single or double profile Busbar systems, which are arranged one above the other or next to one another, are provided is, that the busbar systems for each phase on a common insulating body by means of a busbar holder are attached that the insulating body designed as bushing insulators for all phases are pushed onto a common metal tube and that the metal tube is conductively attached to a supporting structure at ground potential. 2. Arrangement according to claim 1 d a d u r c h g e k e n n -z e i c h n e t that the metal pipe is insulated on all sides. 3. Arrangement according to .Anspruch 1 d a d u r c h e k e n n n e i n e t that the insulating bodies are cast resin bushings are trained. 4. Arrangement according to claim 1 dadurchgekenn -zei chnet 9 daB at the ends of the two outer insulators attenuators are provided.