DE162466C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

JVl 162466 CLASS 21 </.

The winding of the pole cores of rotating field magnets is often made of flat copper executed, which is placed on edge to the polar axis, around the winding against the effect to secure the centrifugal force. This embodiment of the winding requires removable pole pieces or general removal the projections on the pole cores, so that the coils to be produced on the pole cores

ίο can be applied.

With the increased demands on the strength of the rotating field magnets, the in particular are made by the high-speed turbo dynamos, it appears but not practical to make the iron frame of the field magnets from individual parts. But in order to still be able to use the flat copper winding without directly overlying having to wind the cores, which in general would hardly be feasible Use can be made of the winding form described below.

The present arrangement of the winding uses individual elements made of flat copper, which are continuously connected, as they are in the form of almost closed flat rings from others Reasons are already used. According to the special purpose, the elements are shaped here in such a way that they

zein and with an overlap around the magnetic core, perpendicular to its axis placed and inserting similarly shaped pieces of insulation material the cores can be connected to the continuous winding.

Fig. Ι shows a view and partial section of a four-pole field magnet consisting of one piece. The winding of the upper pole core is shown in the view, that of the two lateral ones in cross-section. The pole cores k are assumed here to be rectangular cross-sections with rounded corners.

Fig. 2 shows two prepared bow-like winding elements bb in opposite positions, which are pushed individually over the pole core, whereupon two of the legs, for example those labeled 1 and 2, are connected by soldering or in some other suitable manner. In a regularly alternating position, further winding elements are now pushed over the core and the legs of two adjacent elements are also alternately connected to one another in such a way that a continuous flat copper winding is created, while, as mentioned above, the parts of the winding elements that are not connected to one another are separated from one another by interposed insulation pieces being held.

The winding produced in this way is shown in Fig. 4 viewed in the direction of the pole axis, in Fig. 5 from the side with the turns slightly pulled apart.

If winding elements of the same thickness were used everywhere, the finished winding would be Double cross-section at the points of overlap and only single cross-section at the other points to have. To this for the utilization of the changing room and the appropriate

To avoid the unfavorable use of material, the winding elements can be shaped so that they are only half the thickness at the points of overlap. For example, they can in turn be composed of two parts (FIG. 2) which, partially placed one on top of the other and intimately connected, leave overlapping points of half the thickness free. In this case, recesses α and corresponding projections ν can also be provided which, after the elements are layered on top of one another on the pole core, offer increased resistance to the bending out of the free legs.

Instead of producing the elements according to FIG. 2 from two parts, under certain circumstances the weakening of the overlap points according to FIG. 3 by forging, pressing and Trimming one from the start together

ao hanging element can be achieved. Wedge-shaped sharpening can also serve the same purpose serve the elements.

The connection of the legs by soldering etc. is not necessary in all cases Rather, under certain circumstances, the pressing of the elements together can be the result of the centrifugal force is supported, suffice, with about also by inserted foils of softer metal the intimate contact of the thighs can be promoted.

The safe storage of the winding elements around the pole core can, if there is appears necessary, also by screwing it laterally against the finished winding Body are supported.

The statements made above for a rectangular core cross-section apply of course, in the same way for round and generally for cores of any cross-section. The essence of the device always consists in the use of individual winding elements of appropriate shape, which, pushed over the core perpendicular to its axis, partially overlapping connected in a continuous winding.

Claims (2)

Patent-to sayings: 1. Winding for rotating field magnets, consisting of individual flat copper elements, the individual turns of which are separated from one another by suitable insulating pieces, characterized in that that the individual winding elements are bow-shaped or angular in shape and individually on the pole core be pushed perpendicular to its axis, whereupon they only form an appropriate overlap in a known manner continuous winding are connected, for the purpose of making the flat copper winding without removing the projections of the To be able to use pole cores. 2. Embodiment of the elements in the winding according to claim 1, characterized characterized in that they weakened at the points of overlap to half the thickness are, so that after the connection of the elements, the turns have the same cross-section everywhere. For this purpose i sheet of drawings.