DE935260C - Process for manufacturing electrical capacitors - Google Patents

Description

Method for producing electrical capacitors The invention relates to a method for producing capacitors, in particular those with a very high electrical resistance and a low loss factor. In order to achieve a high capacitance with the smallest possible volume, the well-known Mansbridge type capacitor is used, which consists of wound insulating foils with metal foils in between.

It is known to produce capacitors of this type from layered flat plates made of thermoplastic films and adjacent metal electrodes, which are connected to one another by the application of external pressure and heat. A method is also known in which the dielectric strips, which have a metal coating, are wound onto a deformable hollow core, whereupon the roll with the hollow mandrel is pressed flat between pressure bodies, optionally at elevated temperature, and is subjected to such heating within the press device that a welding dex oneina.nder lying plastic parts of the winding body protruding beyond the coverings takes place. In this known method, a thermoplastic plastic is used as the dielectric. The hollow mandrel is made of the same or a similar material, since it must be deformable under the same conditions. - It is to be understood that only Flacliwickel can be produced in such a method, which has a hollow mandrel the Rules = BAMN presupposes. It has, however, shown that cylindrical for many purposes * Konden.-sato reindeer, which! Have a hollow or solid core are preferred. Another disadvantage of the well-known method is that for the production of the capacitors, externally acting pressing devices are necessary with which the pressure required for the welding of the individual plastic layers is achieved.

The present invention relates to a method in which both cylindrical and flat coils can be made, oh-never the use of pressing devices. In the method according to the invention, the for the intimate connection of the individual windings necessary pressure by the When heated, expansion of the thermaplastic material forms by itself.

The method according to the invention. consists first of all in the fact that the Metal layers contain the band of thermoplastic material on one with means for mechanical fastening of its inner end provided hollow mandrel wound will. This mandrel wixd according to the invention after placing a wrap around it Socket and release of the inner end of the tape replaced by a second mandrel, which is released solid substance or one only at a higher temperature than the thermopilastic The material of the wrap is made of material becoming plastic and on which the heating of the Winding takes place.

By using a-it first winding mandrel, which is pre-heated of the roll is removed and decomposed by a second mandrel, is also the advantage achieved that no adhesive or the like needs to be used, to secure the beginning of the coil on the mandrel. This would have to be, for example then happen when, with the method obtained, the winding is placed directly on the The mandrel used for heating would be manufactured as a mechanical fastening not because of the following removal of the mandrel for formation, the hollow winding is possible. The adhesive would be released during the subsequent heating of the roll evaporate and cause impurities in the winding, so that the production of the high quality capacitor would not be guaranteed.

Another feature of the invention is that the heating of the coil is made of a metal mandrel, which after his in the Coil to be introduced end conical, ch is tapered and after heating the coil is pulled out of this again.

According to the invention, one can also use one made of plastic material Use a mandrel that does not remain in the roll after it has been heated. However, the mandrel made of plastic material is, as already mentioned above was only at a higher temperature than the thermoplastic material of the roll plastic so that it retains its shape when the roll is heated and welded.

It is a major advantage of the invention that the second Place used the mandrel, regardless of whether it was taken out after heating the roll is or remains in it, is conically tapered, because that arises during heating Internal pressure assumes that that part of the second, mandrel, that with the winding comes into contact, tightly closing against the winding from the inside. if but the mandrel at its insertion point would have the same diameter as in its remaining part, it could hardly be inserted into the coil, without damaging its inner insulating layers and the individual layers against each other to move. This difficulty arises from the weak conical tapering of the thorn fixed and at the same time achieved for the production of capacitors with hollow cores, that the mandrel can easily be pulled out of the coil without danger of being lukewarm, that the wrap is injured as a result.

According to the invention, a device for carrying out the method explained above is also proposed, by means of which a lateral leakage of thermoplastic material when the roll is heated is prevented.

In the drawings, an embodiment of the invention is shown for example. It shows Fig. I the capacitor in a diagrammatic, partially schematic representation on an enlarged scale, Fig. 2 shows the condenser of FIG. I in an intermediate stage of fabrication in cross-section on an enlarged scale, Fig- 3 devices for H.exstellung the Kendensators of FIG. i in an exploded view, FIG. 4 shows a further device for producing the capacitor according to FIG. i in longitudinal section.

The essential training of the capacitor can be seen from FIGS. 1 and 2. The capacitor i has the usual shape of a hollow cylinder and has plates 2 and 3 which are separated by a dielectric consisting of insulating thermoplastic foils 4. Terminal conductors 5 and 6 are connected to plates 2 and 3 , respectively.

The capacitor i is made by winding a long, thin-layered tape on a partially slit hollow cylindrical mandrel 7 (see Figs. 4-6 and 4). The tape contains the plates 2 and 3, which are inserted between a layer of thermoplastic film 4. From Fig. 2 it can be seen that the plate 2 is longer than the plate 3 and the plates are arranged along the multilayer tape so that the plate 2 envelops the plate 3 on both sides. In addition, the layer of thermoplastic film 4 consists of two film parts lying on top of one another, the ffie plate -) protruding on both sides. The inner end, d. H. the one which is first wound onto the mandrel, projects over the plate in such a length that at the beginning a sufficient insulation exists before the top - reaches the winding, while the outer end projects over the plate 2 in such a length that after winding the plate 2 on the mandrel, a final diameter is reached which is necessary for fitting a split sleeve ii (Fig. 3). It can also be seen from FIG. 1 that the thermoplastic film 4 is wider than the plates -, and 3.

The mandrel 7 is partially slit at 1 5, so that the end 8 of the thermoplastic film 4 can be held in the slot while the tape onto the mandrel 7 up, # is vickelt. As guides between which the tape is wound, loading the mandrel 7 is located a shoulder 9 and a PFLo # ck io, which is introduced before the start of winding to the end of the Darnles. 7 The connecting conductors 5 and 6 are attached to the plates 2 and 3 before winding or during winding-in.

After the tape has been firmly wound onto the mandrel 7, one half of the split sleeve is placed on the wound capacitor. The insulating foils can now be cut to the appropriate length, whereupon the other half of the split sleeve ii is placed on the capacitor. The internal dimensions of that part of the sleeve e ii which surround the condenser i are kept such that they tightly enclose the condenser i in order to prevent the same from unwinding. The free end of the tape is clamped between the two halves of the sleeve ii when they are placed on the capacitor i. To a not shown clamp the sleeve is clamped together and ii with a sharp tool, which is inserted into the hollow mandrel 7, the end 8 of the belt, which is held in the slot of the mandrel 7 cut off.

After winding the capacitor i, the peg io is removed and a polished conical steel mandrel iz pushed into the condenser ', whereby the mandrel 7 is expelled. The comical Doriii2 has a shoulder14 that prevents the outflow of the plastic material on one side of the capacitor during the subsequent Prevents heating. Each half of the sleeve i i has semicircular inward protruding collar 13, which are beyond the part of the muff e that the condensate door i umsaliess. This prevents the plastic material from flowing out of the other End of capacitor i.

The capacitor is now ready to be heated, by means of which the turns of the plastic film 4 around the capacitor plates 2 and 3 are connected to one another. It is generally necessary to heat to a temperature higher than that at which the plastic film begins to flow. There is a plastic sheet of Polystyrel, the heating in the furnace is advantageously carried out at a temperature of from ioo b 'C for a suitable duration.

The presence of the mandrel 12 guarantees that the internal molding of the condenser is maintained and that the pressure created by the expansion of the insulating material is transferred to the successive Iv connections will.

The foil can consist of any thermoplastic material, which has good electrical insulation properties and is therefore a suitable dielectric can serve.

When heated, the thermoplastic material tends to expand. This is prevented by the precisely fitting sleeve ii and the conical mandrel 12. The thermoplastic material is therefore subjected to increasing pressure with increasing temperature. This pressure causes the successive: turns of insulating material join together Wenai the temperature is maintained about your point where the thermoplastic material to flow egrinnt b.

The width of the thermoplastic film should be greater than that of the capacitor plates, so that a secure connection of the edges of the capacitor is reached when the thermoplastic material begins to flow. The safe one Connect prevents moisture from entering between successive turns, when there is high humidity.

It is desirable to have multiple layers of thermoplastic material between the capacitor plates. Thermoplastic materials usually have tiny flaws, which results in poor insulation. of the two plates from each other. When multiple layers of thermoplastic material are used, it is extremely unlikely that defects in one layer will coincide with those in another layer.

The capacitor plates can be made of aluminum, tin or silver foils be cut out.

The capacitor plates can also be made by depositing a conductive Layer made of aluminum, tin, silver or carbon on the plastic foils will.

The Stalildorn is expediently designed to be conically tapered around it easier to remove from the condenser after heating. However, it is it is also possible to use a solid plastic dome in place of the dome 12. In this case, the mandrel is not removed after heating, but remains as central core in the capacitor. It is then desirable that the temperature at which the plastic thorn begins to flow is higher than that of the plastic one Foil. In addition, the plastic mandrel should lift the necessary: electrical Properties sit down.

Instead of the dome 12, a solid dome made of non-thermoplastic material can also be used Material with suitable electrical insulation properties Use, - Such a dome is also not removed after heating, but remains in the capacitor as the central core.

Claims (3)

PATENT CLAIM: i. Process for the production of electrical capacitors by forming a winding from a multilayered, the dielectric forming and the metal layers insulating tape of thermoplastic material, in which the winding is heated for the intimate connection of its successive turns and their edges protruding over the metal layers, characterized in that the Band is wound on a hollow mandrel with means for mechanical fastening of its inner end higher temperature than the-en therrnoplastische material of the reel plastically we 'rdenden material consists and on the heating of the coil takes place. 2. The method according to claimi, characterized in that the heating of the roll a-uf takes place made of metal dome, which is tapered towards its ein.-leading end in the roll and after heating the roll from this again. 3. The method according to claimi or 2, characterized in that the heating of the roll takes place on a dome made of plastic material, which remains in this core after heating the roll. , i. Arrangement for carrying out the method according to one of claims i to 3, characterized by a mandrel (12) which is to be inserted into the hollow roll, ends with a shoulder (14) and a split sleeve (ii) serving to enclose the roll, the one end has inwardly protruding collar (13) extending around its curved inner surface which, when enclosing the roll sitting on the mandrel (12) together with the boot (14) of the mandrel (12), has delimiting surfaces. to prevent the lateral outflow of thermoplastic material when the roll is heated. Referred publications: Swiss Patent No. 218 5o6,