DE1564766A1 - Electrolytic capacitor in a can housing - Google Patents

Description

Electrolytic Capacitor in a Can Case The present invention refers to an electrolytic capacitor in a can case with a through guided and with the closure plug held in the housing by means of circumferential grooves a thickened anode pin.

In the case of electrolytic capacitors, the part of the anode lead wire consists of which comes into contact with the electrolyte, made of valve metal, which with a dielectrically effective Oxide layer is coated. The one not with The part in contact with the electrolyte consists of a solderable blank Metal and is welded to the valve metal piece, for example. With the conventional Construction is the anode lead wire through a rubber or elastomer plug put through. When the component is shaken or mechanical botn; penetration of the anode lead wire, e.g. by bending, twisting or pulling at times electrolyte will leak along the anode lead wire.

From the German utility oyster 1 844 066 it is known to put the sealing plug on the anode feed wire and to hold it in the cup housing by means of circumferential beads. The anode pin has a flange-shaped thickening on which the sealing plug rests. When the anode supply wire is bent or rotated, there is also the risk that a passage for the electrolyte will be created between the sealing plug and the anode supply wire.

The present invention has the object of mechanical Stress on the anode lead wire, e.g.

by turning, bending or pulling, electrolyte build-up out of the housing to prevent.

According to the invention, this is achieved in that the sealing plug consists of an elastic material in a known manner and the thickening of the anode lead wire within the Stopper at approximately the same height as a circulating but lies. In the area of the thickening, the. Anode lead wire an extraordinarily high pressure exerted. The genesis a passage channel between the. Anode lead wire and the stopper is highly unlikely. The Verdik can zP by compressing the anode lead wire be shaped .. wotei continuous drawing grooves ir anode feed wire, which are used as passage channels for the Elc # I: troiyte =: work kcnncn, verriii # den v.erden. The invention and developments shall be based on the Pigurcn the same in more detail; send. Geni; ß Fig.; is the one with a Verdic: @. tzrg 1 verseLene @ Anode- feed wire dC- in the sealing pot :: n Die Hole, in which the anode feeder is inserted, can in the lower Hi - # i'tl 'etl.as represented .3eiri, so aer wire can easily be inserted. The circumferential groove 4 in the Housing 5 is in the area of the thickening of the closure stopper strong a rk tears the indicator lead wire. As a result:.: Ird auci: when turning the D = -ai: tes the emergence of a- through ch 1 afkana 3 s for the flexor prevented. Furthermore, the fixed entry the possibility aeJ Y e "äretiens b - rr. Avoid pulling the lead wire. f. In FIG. 2, an elastic tube 6 is drawn over the anode feed wire immediately above the thickening 1. On the finished condenser, the elastic hose and the underlying thickening are pressed into a correspondingly designed bore 7 of the sealing plug. The stopper can be made of elastic material. According to FIG. 2, it consists of a rigid body in which the recesses £ i for the circumferential annular grooves are formed. By pressing the elastic hose into the bore, which advantageously has a somewhat smaller volume than the relaxed elastic hose, the necessary sealing effect is achieved.

Instead of the elastic hose, the bore can also be fitted with a elastic rubber-like sealing race, in which the thickening of the anode lead wire is included, be filled. On the finished capacitor, the hole is both Filled with sealant above and below the thickening.

In particular, the sealing plug is made of an elastic material be,: teht, there is a risk that when the anode lead wire is bent a crater forms up to the elaotic tube. The sealing effect de :, Sciiiaucr.es is thereby reduced. This can be avoided in that, as shown in FIG Closure plug 3 on its outside with a potting compound layer 9, e.g. Epoxy resin potting, is coated. Over the housing cup there is a protruding Cuff pulled to prevent the potting compound from running during potting will.

Uni twisting of the anode lead wire inside the sealing plug to avoid, the thickening has an elliptical cross-section.

In Fig. 4, the thickening of the butt-welded, nail head-like thickened ends 11 and 12 of two wires formed. The nail head-like Thickenings 11 and 12 their beads of sweat No or by upsetting them be.

In both cases, existing drawing marks in the wires are removed. The outer wire can advantageously consist of a solderable metal and the inner wire from one.! Valve metal. This creates additional welds Avoided at the anode feed wire. In addition, if desired, the two of them can Have wires of different diameters.

Claims (1)

Patent claims 1 # electrolytic capacitor in a Becriergeti @ iu -,! E with - erren through the stopper held in the housing by means of Urilaufnuten and provided with a thickening anode pin, characterized in that the stopper (3) consists of a consists of elastic material and the thickening (1) of the anode lead wire (2) is approximately level with a circumferential groove (4) within the Ver: chlußstopfens. (Fig.1) 2. Electrolytic capacitor according to claim 1, characterized in that immediately above the Thickening (1) an elastic hose (G) is pulled over the anode pin (2) and the elastic hose and the thickening are pressed into a correspondingly designed hole (`j) in the sealing plug. (Fig. 2). 3. Electrolytic capacitor according to claim 1, characterized in that the thickening of the anode lead wire is inserted into a bore in the closure element and the bore above and below the thickening is filled with an elastic, chewing sealant. Electrolytic capacitor according to one or more of Claims 1 to 3, characterized in that the curling element is coated on the outside with a potting compound (9) which can be heat-treated. (Fig. 3) 5. Electrolytic capacitor according to one or more of claims 1 to 4, characterized in that the thickening has an elliptical cross section. Electrolytic capacitor according to one or more of Claims 1 to 5, characterized in that the thickening is molded from the butt-welded ends (11 and 12) of two wires that are thickened in the manner of a nail head. (Figure 4)