DE667551C - Flat capacitor winding with an elastic core and process for its manufacture - Google Patents

Description

Flat capacitor winding with elastic core and method for its Manufacture The flat capacitor winding is used very much because it is opposite the round has significant advantages. However, its manufacture is more difficult and more expensive, because wrinkles are easy to wrinkle with flat wrapping and the wrapping speed a far lower one. Inserting a flat core does not change that. The wraps were also made round and then laid flat, but with the loose ones Wraps that have no hold in themselves, are easily damaged and around are at risk. To reduce this risk, it has been proposed to use an elastic Put the core on the round winding core, soak it in the round state and then it get laid. However, this results. a new difficulty which is that when laying flat, especially on the winding head, there is a considerable shift in the individual turns against each other results, which is strong in the soaked state Oppose adhesive forces. Another disadvantage is that the elastic core placed on the round mandrel is either severely kinked when it is laid flat or has to be cut into several parts.

According to the invention all these disadvantages are avoided in that the winding first on a multi-part core, whose individual plates in their Width about twice its thickness smaller than half the circumference of the Winding mandrel, is wound round or oval and then even before watering gets laid. Here it is also possible to put the winding in its final pressing Soak and clamp device. In the known methods, there is assembly the soaked compress still runs the risk of being affected by the influence or the Air and moisture penetration suffer while one is after the method according to the invention no longer the winding package after soaking needs to take out of the impregnating agent.

It is essential in production that the roll after it has been pulled off is immediately tensioned taut by the winding mandrel. The multi-part core allows this an effortless lay-flat when not soaked. The core plates will be like this cut long so that they stretch the wrap; therefore they must already at the beginning of winding can be placed on the round mandrel and wrapped with it, as in the Fig. I of the drawing is shown. There a is the round mandrel, b is the one two parts of the elastic core, and c is the actual coil, which in is made in a known manner from layered dielectric and coating. Fig. z shows the same wrap in the final flat form in which the two diverging parts of the core are held together by rivets. Instead of The rivet could also be a staple pushed or a glue or a clip pushed over the core any other suitable means can be used. Bonding is then appropriate if you don't let the core protrude from the coil want. But you can also get by without connecting the cores if you put the wrap after the Laying flat by stacking on top of each other or burdened with weights.

The two-part core can be used advantageously as the power supply lines v To lead one side to the other is often very desirable. He can too serve to hold the end face of the roll from the container or from the other live Isolate parts. A core plate suitable for such a design is shown in Fig. 3. She wears the lobes e, which are placed in front of the face of the roll. By the slot f is pulled the power supply and between the two plates to other side of the coil. Fig.q. shows a winding, which on a such a core is built up in the finished state. g is the one put through the wrap Power supply, k is the other power supply that has just been brought out; i represents the above coverings. Fig. 5 shows the wrap from the side.

To isolate the front side as well as to fix the core in the Wrap can also be an insulation strip on the protruding part of the core transversely riveted to its longitudinal axis or pushed between the two parts of the core will. Such a design is shown in Fig. 6. k is the one presented and inserted here Stripes.

The method according to the invention not only enables a quick one Production of wrinkle-free wraps, but also facilitates the assembly of several Winds to form larger units and improves their electrical properties (losses, Insulation, breakdown).

Claims (6)

Pi @ TFNT: @ NspnücIIr: z. Method of making a flat capacitor coil with elastic core, characterized in that the winding is initially on a multi-part Core, the individual plates of which in their '' width are about twice their , Thickness less than half the circumference of the nickel mandrel, wound round or oval and is then laid flat before watering. 2. Capacitor winding, made according to the method according to claim r, characterized in that the core on a or protrudes from the roll on both ends and the protruding part for fastening of connecting lines, power supply lines, fuses or the like. Or for preservation the distance from other conductive parts, e.g. B. the container wall is used. 3. Capacitor winding according to claim 2, characterized in that the core plates after stretching the Coils connected by rivets, staples, glue or other suitable means and thus be held in the stretched position. q .. Capacitor winding according to claim 2 or 3, characterized in that the core plates have tabs at their ends, which stand in front of the front side when stretching the wrap. 5. Capacitor winding according to claim 2 or the following, characterized in that at least one core plate Has slots or recesses through which the power supply lines are laid. 6. condensers: satorwickel according to claim 2 or the following, characterized in that on the end faces of the roll, namely-on or between the core plates Insulating strip is attached, which protrudes beyond the core and an axial displacement of the core in the coil.