DE2131328C3 - Process for the production of electrolytic capacitors - Google Patents

Description

The invention relates to a method of manufacture of electrolytic capacitors in housings with synthetic resin closure, in which after the insertion of connection parts provided soaked capacitor winding in the housing a sealing against the synthetic resin Closure of the space containing the capacitor winding from the space provided for the synthetic resin closure Space is made.

From the DT-Gbm I 898 008 it is known to complete the Wik keleinbauraum by a plate that when pouring the sealing compound is intended to prevent its penetration and also the winding connection vane clamped against the housing

This is to throw achieved that the electrolytic capacitor a sufficient seal on the one hand against a humid external atmosphere and, on the other hand, against the electrolyte located inside.

The problem with the production of electrolytic capacitors in housings with synthetic or cast resin sealing is that, according to the production methods known up to now, an absolutely reliable seal against the liquid electrolyte located in the interior of the capacitor could not be achieved. By the exiting electrolyte but then corrosion and destruction occurs at the scbkißtefleaut

It has been found that the Gte resin separator in case of electrolytic capacitor »! mostly based on the fact that the adhesion of the casting resin to the Gebäusewandong by smearing of the Electrolyte is impaired. Is even more significant also the practically unavoidable sticking the connection parts embedded in cast resin of this Ekktrotytkondensators by means of the impregnation electrolyte a Extensive tests have shown that it is reliable Connections between casting resin and the metal surfaces of the connecting parts are not to be expected, provided these connecting parts are smeared with electrolyte residues

These disadvantages are also due to the training in accordance with the German utility model mentioned above not eliminated because this is only intended to prevent the penetration of the sealing compound.

The object of the invention is therefore to provide a method for producing electrolytic capacitors create, with which the waterproofing against the inside the electrolyte located in the capacitor is improved.

This object is achieved according to the invention in that the closure is also made sealing against washing water and the space intended for the synthetic resin closure and the connection parts of the condenser to be embedded in the synthetic resin are exposed to the action of washing water jets and then the action of a drying agent, such as warm air, whereupon potted with synthetic resin and the synthetic resin is cured.
Further refinements of the method and a termination for carrying out the method emerge from the subclaims.

The method is explained in more detail using the figures
F i g. 1 shows a plastic housing 1 with a capacitor winding 2. A known cover plate 3 is inserted recessed into the housing opening, but according to the invention pressed in with a press fit in such a way that the cover plate 3 essentially seals the interior of the capacitor housing against washing water Closing disk 3 pressed by the press fit against the inner housing wall At 5, the aluminum flags are welded with copper wires 6th which make the connection parts solderable.

• According to the method according to the invention, as shown in FIG. 2, for example, the for the Synthetic resin provided casting spaces of the capacitors and the connection parts embedded in the synthetic resin from the electrolyte residues and contamination by washing out, preferably by means of water jets, cleaned and completely freed and then subsequently dried with the help of warm air Washing out the capacitors can be distilled

Water can be used.

With the help of the procedure, the conditions for reliable and contaminated free connection between cast resin and metallic connecting parts and housing created.

According to FIG. 3 the housing openings of the capacitors are also encapsulated with casting resin 7, which is then cured. The connecting wires 6 are now on a desired grid spacing

itand brought

FIG. 4 shows an enlarged disk 3 Scale that has also proven to be particularly advantageous. It is wrapped around one by injection molding prefabricated washer made of polyethylene, the partially elastic $ before has properties. The edges of the closing disk are approximately tapered in the shape of a disc, thereby increasing as a result of the press fit, an effective lip seal against the housing results

F i g. 5 shows an electrolytic capacitor according to is made by the same process and .us the capacitor housing emerging on both sides connecting parts having

The capacitor housing can have a round, oval or square cross section.

The inventive method is a by impurities mi '. Electrolyte residues on the housing wall and other connections impaired Avoided connection with the casting resin and produced a perfect electrolytic capacitor Experience has shown that the cast resin connections produced by the process are reliable and ensure a long service life of the electrolytic probe esators.

It has been found to be advantageous to use the cast resin to roughen lying connection parts of the capacitor winding to the progress achieved by the process to improve even further.

1 sheet of drawings

Claims (6)

Patent claims: ! Verification for the production of electrical condensers in housings with plastic resin cover. in which Bach inserting voa ma-provided Anschlußieilea soaked Kondensalorwkkel at <fie housing a abcfichteader against the resin AbscUuß the dea capacitor changing! containing space is made by the space provided for the synthetic resin closure, whereupon the pouring out of synthetic resin takes place, characterized in that the absent tea is also made to seal against washing water and the space intended for the synthetic resin closure and the attachment parts of the condenser to be embedded in the synthetic resin Effect of washing water jets and then the effect of a drying agent such as warm air, whereupon synthetic resin is cast and the synthetic resin (7) is cured. 2. The method according to claim 1, characterized in that for the production of the liquid-drawn Finally, a sealing washer (3) is pressed into the housing (1) with a press fit. 3. Process according to claims I and 2. characterized through the use of roughened connection parts (4) of the capacitors wrap (2). 4. Completion for the execution of the method according to claims I to 3, characterized by a prefabricated final disc (3) made of tcilelasti shear polyethylene. 5. Termination according to claim 4, characterized in that that the final disc (3) is tapered on the circumference 6. Electrolytic capacitor, manufactured according to the Process according to Claims 1 to 3 and with means according to Claims 4 and 5, characterized by a housing (1) made of plastic.