DE1824061U - HEAD OF THE WINDING OF ELECTRIC MACHINES WITH INTERNAL COOLING. - Google Patents

Description

"Conductor rod for the windings of electrical machines with internal cooling" The innovation relates to the design of conductor rods for the windings of electrical machines with internal cooling. It is known to build internally cooled conductor bars for the windings of electrical machines from twisted subconductors (flat conductors) and to connect cooling channels made of resistance material between the subconductor rows. This design is particularly simple if the rod is made up of two parts constructed according to the Röbel principle. rods is composed. Here, the cooling channels between 4th these partial rods are arranged. These arrangements allow good internal cooling of the conductor bars, but this results the potentially significant disadvantage for the winding head area, that bending the rods is difficult and only possible with relatively large forces.

The subject of the innovation is a more favorable one in various respects Conductor bar design for the internally cooled windings of electrical machines (High-voltage machines), which is characterized by the fact that the conductor bar is made up of individual compression rope sub-conductors with enamel-insulated individual wires and connected between the press rope part conductors Cooling channels is constructed, the press rope rods and the cooling channels by synthetic resin bonding are put together to form a uniform conductor structure. Which is the subject of Innovation leading training is characterized by the advantage that the Bending the rods is made much easier. The shape of the bars is also cheaper, because the press rope part ladder can be deformed and adapted to the channel profiles. Since the sub-conductors, which are designed as press rope, are made up of stranded and enamel-insulated Thin individual wires can reduce the losses within the sub-conductors can be kept as low as possible. The new ladder training also offers the The advantage of doing without twisting and parallel guidance of the press rope part ladders in the groove the cooling channels in any distribution within the Staff can be arranged and in this way even with a larger cross-section of the conductor bar ensures that the coolant channels are evenly distributed over the conductor cross-section can be achieved. 9 In the following, the innovation is to be described in more detail with reference to FIGS. 1 to 3 of the drawing are explained: Figure 1 shows an embodiment in which between two rows A and B of press rope part ladders 1 a number of superimposed, Cooling channels enclosing tubular bodies 4 made of resistance material is arranged. As the enlarged cross-section of a press rope part conductor Fig. 1a shows, the press rope sub-conductors 2 are made up of individual elements, for example by means of lacquer rollers Constructed single cords with a round or square cross-section. Every press rope part ladder is provided with an insulating cover 3, which is made of a layer of fiberglass or a pulled-on glass fiber tube. The entire ladder staff is optionally impregnated with synthetic resin after being wrapped by a further insulating layer 5 and glued, whereby not only a mechanical cohesion between the press rope part conductors and the cooling channels is achieved, but these parts are isolated from each other and the existing cavities are filled. When making the ladder bars it is recommended that the channels 4 be easily melted in a manner known per se Metal alloy, a chemically removable material or the like. To be filled. After manufacture of the conductor bar bundle this is done in the usual way with a high-voltage insulation sleeve 5a provided, their training in detail for the innovation according to the arrangement of importance is.

FIG. 2 shows another embodiment in which the cooling channels enclosing resistance tube bodies 4 between the layers 6 of the superposed Preßseilteilleiter are arranged. Finally, Figure 3 gives a further embodiment Again, the cooling channels distributed in various arrangements within the conductor bars are provided.

In order to increase the influence of the stray field that changes over the height of the groove is taken into account at the connection points of the conductor bars at the end of the winding head the connection of the press rope part ladder made so that in the individual in the course of the winding train successive conductor bars the press rope part conductor their Change position in the groove. In this way, a Twist reached. The individual press rope part conductors or bundles of the same can are soldered at the connection points while sliding connecting sleeves, however, the sleeves remain isolated from one another. Under certain circumstances it can also be expedient, the conductor bundles of the press rope rods at the connection points still to be subdivided.

The arrangement according to the innovation is suitable for both gas-cooled Machinery, as well as for liquid-cooled machines. In the latter case it is necessary at the end of the winding head the cooling channels in separate, the switching of the fluid circuits to introduce caps which enable or allow the liquid supply and drainage. 7 claims for protection 3 figures

Claims (7)

Protection claims 1. Conductor bar for the windings of electrical machines, which is made up of insulated sub-conductors and is cooled by cooling channels connected between the sub-conductors, characterized in that the sub-conductors are formed by press rope rods made of enamel-insulated individual wires and in a parallel arrangement without twisting over the entire length of the conductor bar are carried out. 2. conductor bar arrangement according to claim 1, characterized in that the individual press rope rods (press rope bundles) with an unclipped glass silk layer or a pulled-on glass fiber tube. 3. conductor bar arrangement according to claim 2, characterized in that the press rope rods and the cooling pipes arranged between them by means of synthetic resin bonding are combined into a coherent conductor structure. 4. conductor bar arrangement according to claim 1, characterized in that that the cooling channels in a symmetrical distribution over the entire rod cross-section between the press rope bars are arranged distributed. 5; Winding of conductor bars according to Claim 1, characterized in that that at the switching points of the conductor bars the individual press rope bundles for themselves, if necessary are soldered using pushed-on switching sleeves. 6. conductor bar arrangement according to claim 1, characterized in that at the soldering points a subdivision of the conductor bundles forming the press rope rods is made. 7. conductor bar arrangement according to claim 6, characterized in that a twist as a result of switching at the connection points within the winding phases the individual sub-conductors formed by press ropes is brought about.