DE1204322B - Power transformer - Google Patents

Description

Power transformer The invention relates to a multi-phase power transformer with a multi-leg core, the legs of which each carry the primary and secondary windings of one phase, which is built into a housing made up of several partial housings provided with flanges.

The invention aims to facilitate the installation and transport of such transformers. To this end, such a transformer is formed according to the invention in such a way that the multi-phase core-es connecting yokes are formed by parts of the individual legs each have a phase forming sub-systems and the sub-housing are dimensioned in accordance with these subsystems.

With the help of the known flange connections of the partial housings, it can easily be achieved that in the assembled transformer the core parts belonging to the individual phases lie close to one another. The gaps remaining in the magnetic circuit of the transformer can easily be made so small that the increase in the magnetizing current caused by these gaps is acceptable with regard to the advantages achieved by the special structure of the transformer. For example, in the case of very large transformers, the gap width can be 3 to 6 mm.

Single-phase transformers are known per se, the core of which is composed of two parts, one of which carries the primary winding and the other carries the secondary winding. It is also known to install such a transformer in a housing in such a way that the primary winding and the secondary winding are each located in a compartment of the housing formed by a partition wall.

According to an advantageous embodiment of the invention, the ends the yoke parts of each phase are mechanically supported by the fact that between them and the housing flanges inserts are provided, which are expediently made of insulating material or, if they are made of conductive material, an insulating interruption have so that they do not form a short-circuit winding for the magnetic flux.

The container flanges used to connect the phase housings can be equipped with a sealing partition, which over or around the End face of the phase core part runs and the relevant housing against the surrounding atmosphere. In this way, a trained according to the invention Transformer to be completed ready for use at the place of manufacture, where appropriate the insulating liquid emptied from each housing and each housing closed separately is transported to the installation site, where they are screwed together Flanges are reassembled. During transport, these flanges be provided with suitable protective cladding to prevent damage to the partition walls to prevent.

Further details and advantages of the invention emerge from the following description of exemplary embodiments with reference to the drawing. In the drawing, F i g. 1 is a view of the containers of two phases of a three-phase transformer in their mutual arrangement that they have in operation, FIG. 2 shows the top view according to FIG. 1, Fig. 3 shows the side view of one of the two phases according to FIG. 1, Fig. 4 shows a sectional view, drawn on an enlarged scale, of one of the flanges used to connect the phase containers.

As can be seen, the illustrated three-phase transformer has three groups of primary and secondary windings, two of which are labeled 11 and 12, respectively. The windings are arranged on a five-legged circuit made up of three parts, two of which are shown and labeled 13 and 14, respectively. Each core part is arranged in a separate container 15 or 16 , and the individual containers are provided with flanges 15a, 16a, 16b and so on. through which they are connected to each other. Each phase container is built on a special base frame 17 or 18, the base frames being built on a main frame 19 at the installation site.

D, «e m F i g. Gezei 1, th containers 15 and 15 shown si-- d in a position which they assume when they are screwed together at Aufstellunasort, the parts 13 and 14 of the core are adjacent. The contents of each container are protected against soiling during transport and assembly by a partition 20 made of insulating material, which is attached to an additional flange 21 by means of a clamping strap 22 and screws 23 (see FIG. 4).

During transport, the partition walls 20 can be protected against damage by steel cladding 24, one of which is shown in FIG. 1 is shown on the left. Since the material used for the partition walls 20 would probably not be strong enough to withstand the pressure of the insulating liquid in a liquid-filled transformer, the liquid will be drained from the transformer before loading and the transformer will be refilled after it has been installed on site. However, all preparatory measures can be carried out in the factory, so that after the transformer has been installed on site, only the refilling needs to be carried out. In the case of transformers with gas filling, however, the filling can also be carried out in the factory, so that the transformers are shipped with gas filling. Usually it will be desirable to provide mechanical support for the ends of the core parts of each phase and for this purpose suitable packing material can be inserted between the core parts and the flanges used to connect the phase containers. This packing material must of course not form a short-circuit turn around a core leg. To avoid this, it can either consist of insulating material or, if it is made of conductive material, have an interruption filled with insulating material.

Claims (2)

Claims: 1. In a provided a plurality of flanged, s sub-housings existing housing mono- g built multiphase Leistungstransfonnator with a multi-leg core, the legs of the primary and, secondary winding each carry a phase, characterized in that by dividing the individual Legs of the multi-phase core connecting yokes each form a phase forming subsystems and the subhousings are dimensioned according to these subsystems. 2. Transformer according to claim 1, characterized in that inserts for mechanical support of the end faces of the yoke parts are provided between the ends of the yoke parts and the housing flanges of each phase. Documents considered: German Patent No. 887 535; Austrian Patent No. 193,485. U.S. Patent No. 2,533,920.