DE2726324A1 - Wound capacitor with metallised dielectric foils - has one metal sprayed face and other face edge free of metal deposition and foils wound in offset manner - Google Patents

Abstract

One of the face edges of the metallised dielectric foils is contacted by metal spraying. The contacted edges have an undulating course. The noncontacted face edges of the foils are straight and have an edge region (5) without conductive metallising. The foils are wound in an offset manner so that the undulating edge of each foil (1, 2, 3) lies opposite an adjacent straight foil edge, but extends over the same in the winding axis direction. The undulation of the contacted edges has a constant wavelength and a constant amplitude of at least 0.5 mm. The offset of adjacent foils is between one half and the whole of the wave amplitude. The insulating edge may be formed by local firing of the metallising. The foils may be of non-impregnated plastics.

Description

Winding capacitor and process for its manufacture

The invention relates to a wound capacitor with foils made of consist of electrically insulating material, an electrically conductive metallization wear and contacted at one of their two front edges by a Schoopierung are, wherein the contacted front edges have a wavy course. Capacitors of the aforementioned construction are described in DT-OS 2 210 711 and DT-PS 2 416 566.

Winding capacitors usually consist of two metallized tracks, the front side by a Schoopierung, i.e. by spraying on finely divided Metal in a glowing state. Essential criterion for the The quality of the capacitor is that each of the two metallized coverings is so is contacted well and over a large area as possible, but that there is a contact of the respective counter-facing the same face is omitted.

Do the tracks have wavy front edges, as in the two for example cited publications, theoretically favorable contact conditions are given. In particular, it would be expected that each layer would be at a multitude without an offset is contacted securely by points. However, it has been found that the film webs are not easily exactly parallel because of their wavy edge cut, Let it run on the winding machines without any misalignments and without swinging to the side; it no suitable reference edges JC. In practice, therefore, must have irregular transverse displacements The individual values up to the size of the wave amplitude can be calculated can accept and then to insufficient contact and thus ultimately to incalculable capacity losses. One has tried the consequences of this to mitigate unavoidable manufacturing inaccuracies by removing the waviness of adjacent film layers gave different frequencies (see the one already mentioned Offenlegungsschrift). But this additional measure also delivers - as well as efforts to vary the frequency and amplitude of the waviness along a film layer (Dt-PS 2,416,566) - not yet really satisfactory results. Wound capacitors with Corrugated film front edges have not yet acquired any economic importance can.

The object of the present invention is to provide a wound capacitor indicate in which not only the individual layers of film are good and, above all, safe are contacted, but also the risk of short circuits mentioned at the beginning while schooping, which the two cited references do not deal with at all, is practically eliminated. This object is achieved according to the invention in that the uncontacted front edges of the foils run straight so that the foils along their straight front edges in an edge area (t'isolierrand ") wear no electrically conductive metallization and that the foils with such Offset are wound that the wavy front edge of each film layer of the straight Front edge of a directly adjacent film layer is opposite and facing them the winding axis at least partially protrudes.

With the proposed capacitor design, the straight, Smooth cut foil edges serve as stop edges when winding. In order to precise winding is possible with no unintentional transverse displacement more takes place, but a deliberate offset to a predetermined extent, as is the case according to the invention is provided, can be easily implemented. If now the to be contacted Foil front edge is corrugated, can also be without any wave modulation and also with a relatively small wave amplitude and slight offset, a well-defined surface contact Produce with a firmly adhering Schoopschicht. Thus come with an inventive Capacitor fully utilizes the advantages of an edge corrugation. It also features this component due to the insulating edge and the transverse displacement over an extraordinary high short-circuit strength. It should be noted at this point that the capacity of the capacitor due to the offset is smaller than that with the same dimensions theoretically possible capacity yield. However, this circumstance is made clear by the ones enumerated Advantages more than canceled out, especially since the loss of capacity due to the offset is comparative are small and scatter little.

Advantageous refinements and developments of the invention are Subject of further claims.

The invention is now based on a preferred embodiment explained in more detail in connection with the drawing.

The only figure shows in a somewhat schematic, partially broken away view of three film layers 1, 2, 3 one of two identical film webs wound capacitor, in a state before the Schoopierung.

Each film web consists of a non-impregnated, one-sided metallized Plastic (the metallization is not shown). As an insulating material an impregnated or non-impregnated paper web or would also come along Mixed dielectric made of paper and plastic, with or without impregnation, is an option. In addition, the film webs could also be metallized on both sides.

Both film webs each have a wavy cut and one smooth cut front edge. The wavy front edges have a constant amplitude a and a constant wavelength w. Both tracks are offset one on top of the other in such a way that that the wavy front edge of one web over the straight front edge of the other Web comes to rest and by a distance v in the direction of the winding axis over the adjacent straight edge protrudes. In the present example is the wave amplitude a 0.5 mm in size and the size v has a value of about 0.4 mm, so that almost completely free-standing wave trains result. With constant amplitude and wavelength and only little or no concealed edge waves are the conditions for a safe, short-circuit-free contact and good anchoring of the Schoopschicht the cheapest.

The two are used to electrically isolate the straight cut edges Foil strips each on an approx. 1 mm wide edge strip (insulating strip 5) "burned out".

To manufacture the capacitor, proceed as follows: First one puts the two finished foil webs Fo against one another, that the wavy front edge one track comes to rest on the straight front edge of the other track and this one protrudes to the desired extent. Then both webs, with their smooth front edges as stop edges, wound. The subsequent manufacturing steps can be carried out in can be carried out in the usual way.

L e r s e i t e

Claims (9)

Claims I 1. wound capacitor with foils, which are made electrically consist of insulating material, wear an electrically conductive metallization and contacted at one of its two front edges by a Schoopierung are, the contacted front edges have a wavy course, thereby characterized in that the respective non-contacted end edges of the films are straight run that the foils along their straight front edges in an edge area ("insulating edge" 5) wear no electrically conductive metallization and that the foils so with Are wound offset so that the wavy front edge of each layer of film (1, 2, 3) the straight front edge of a directly adjacent film layer is opposite and it protrudes at least partially in the direction of the winding axis. 2. wound capacitor according to claim 1, characterized in that the contacted film front edges are corrugated with a constant wavelength (w) are. 3. wound capacitor according to claim 1 or 2, characterized in that that the contacted foil end edges are corrugated with a constant amplitude (a) are. 4. wound capacitor according to claim 3, characterized in that the wave amplitude (a) is at least 0.5 mm. 5. wound capacitor according to claim 3 or 4, characterized in that that adjacent film layers (1, 2, 3) at least half the amount and at most the entire amount of the wave amplitude (a) are offset from one another. 6. wound capacitor according to claim 3 or 4, characterized in that that adjacent film layers (1, 2, 3) by more than the entire amount of the wave amplitude (a) are offset from one another. 7. wound capacitor according to one of claims 1 to 6, characterized in that that the insulating edge (5) of the foils by local heating ("burning out") of the metallization is formed. 8. wound capacitor according to one of claims 1 to 7, characterized in that that the films consist of a non-impregnated plastic and one or both sides are metallized. 9. A method for producing a wound capacitor according to one of the Claims 1 to 8, characterized in that two similar film webs are used and in the correct position to each other, with their respective straight front edges as guide edges, to be wrapped.