DE594264C - Disc coil wound from parallel conductors with the inner end of each conductor connected to the outer end of the following conductor - Google Patents

Description

Disc coil wound from parallel conductors, in which the inner End of each conductor is connected to the outer end of the following conductor at Disc winding transformers are given to the primary and secondary disc coils the same outer and inner diameter. They then act on each individual coil as a whole only axial thrust forces produced by a suitable coil press without further can be rendered harmless.

The transformation ratio of such a transformer is supposed to be regulated can be, then with fine control levels there will be taps within individual Do not allow disc bobbins to be avoided. During operation then leads intermittently only the inner, closest to the iron core, or the outer part of the coil current. The diameters of the current-carrying part of the coil that can be tapped then also agree the diameters of the neighboring coils no longer match. It therefore occurs in in a manner known per se, radial thrust forces that burst the coil or seek to squeeze. However, the coils are not particularly good at dealing with this stress protected. In the event of a short circuit, the insulation of the coils can be easily damaged as a result crushed or otherwise damaged the coils.

The invention eliminates this risk. At least the transformer has a disc coil wound from parallel conductors with the inner end of each Conductor is connected to the outer end of the following conductor. This coil will used according to the invention as a control winding by the free ends and the connection points of the individual conductors serve as tapping points.

This design of the winding has the advantage that in use of the taps of the current-carrying part of the coil that can be tapped at least approximately has the same inner and outer diameter as the whole coil, the radial one The winding height remains the same throughout. This will reduce the radial shear forces eliminated or at least greatly depressed. It is most useful to place the Coil made of ribbon-shaped conductors. These are then superimposed in the radial direction, wound together into a spiral.

Figs. R and z schematically show a primary coil and a tapped secondary coil in which half of the turns are switched off. The live parts are hatched. Fig. Z shows the old, Fig. 2 the new version. Z is a piece of the iron core of the transformer, 2 a primary coil, 3 the secondary coil. In Fig. Z the outer end of the coil 3 is at the tap ao, the middle at a1, the inner end at a. connected. The inner tap divides the coil into two halves 3d, 3b. In the case shown, part 3a is de-energized. This has the effect that a radial thrust force acts on part 3b in the direction of the arrow, on the coil 2 an equal and opposite force in the direction of arrow 5. The force 5 tries to blow the coil 2, the force q. to compress the coil 3.

This disadvantage is avoided in the new embodiment (., IM. 2). Here the two halves of the coil 3 are wound bifiiar as it is. is indicated schematically in Fig. 3. The band-shaped conductors 6, 7, which are insulated from one another and lie one above the other in the radial direction, are wound up to form a spiral. The outer end of the conductor 6 is connected to the tap a, the outer end of the conductor 7 to the tap a1, at the same time with the inner end of the conductor 6. The inner end of the conductor 7 is connected to the tap a. The turns of the conductor 6 thus lie between the taps a and a1, between the taps a1 and a. the turns of the conductor 7. Only the part of the coil located between turns a and a1 is switched on (Fig. 2); in spite of this, no axial thrust forces can occur, since the switched-on part of the coil 3 has practically the same winding height as the entire coil.

In Fig. D. and 5 the taps divide the coil into three parts. here three conductors lying one on top of the other in the radial direction are wound spirally. The inner conductor is designated with ä, the middle one with g, the outer one with io. Corresponding The Fig.3 is to the first tap a, the outer end of the conductor io, to the second Tap a1 the inner end of this conductor and the outer end of the conductor g the third tap a_ the inner end of the conductor g and the outer end of the conductor 8, the inner end of the conductor 8 is connected to the fourth tap a3. Fig. d. shows in axial section the current distribution in the coil when the between a "and a1 located part is switched on.

For disc coils with a relatively large number of turns of thin wire you can, for example, if a tap is to be installed, the two Coil head bifilar. The turns of the conductor are then both on top of each other than side by side. However, one or more layers of turns can also be used first Wind the one conductor, then with a corresponding number of turns the other conductor over it and so alternately until the coil is completely wound is.

In order to have the first group of turns with the second to connect, the conductor becomes expedient after making the outermost Winding position of each group from the winding level to the side of the winding layers of the other or the other ladder passed and then for the purpose of producing the next winding layers bent back into the winding level.

Claims (2)

PATENT CLAIMS: i. Disc coil wound from parallel conductors, where the inner end of each conductor connects to the outer end of the following conductor is connected, characterized by its use as a regulating winding of a regulating transformer, by using the free ends and the connection points of the individual conductors as tapping points to serve. 2. disc coil according to claim i, characterized in that it consists of two or more band-shaped ones isolated from one another and lying radially one above the other Ladders is wrapped.