DE941142C - Electrolytic capacitor - Google Patents

Description

Electrolytic capacitor In electrolytic capacitors it is known the power supply to the anode made of a metal forming a barrier layer, e.g. B. Aluminum, manufacture and outside of the condensate atom housing for this power supply ' an easily solderable metal, e.g. B. tinned copper to use. It is there required the electrolyte from the junction of these two different Keep metals away. For this purpose it is known to be the two different Join parts of the Strolm feed using a pinched metal sleeve, which are located within a rubber stopper that closes the housing of the capacitor is located. In another known embodiment, the one is connected to the anode Aluminum wire outside the housing by means of butt welding with a tinned Copper wire connected.

The invention relates to .ein electrolytic capacitor in which this problem is solved in the form that one by an insulating wall part rivet passing through forms the connection of the anode, with the outside. a solder tail end between Isolieirteü and closing head as well as inside eäi connected to the anode power supply strips between. The rivet head and insulating part is clamped and the power supply strip and the rivet are made of a barrier metal. It has shown that with such a capacitor in the long run the electrical Contact between the power supply strip and your rivet with no detectable mechanical Causes can be interrupted. It is assumed that this interruption -on the formation of an insulating barrier at the contact points as a result of the action of the electrolyte penetrating into the remaining capillary gap between the two parts is due. This can be avoided by pre-assembling of the capacitor, the power supply strip and the rivet are welded together. However, this has the disadvantages of additional processing and a difficult one Assembly. In addition, there is a great risk that when handling the winding, before it is inserted into the housing, the rivet from - the power supply strip breaks off.

The invention aims to provide a type in which the mentioned Evil are avoided and the manufacture of the capacitor, not appreciably etschwert or becomes more expensive.

According to the invention, the rivet covers between the rivet head and the closing head a layer of non-barrier metal completely covers the power strip and rests against the rivet and electrically connects both parts.

The fact that in this way there is no interruption of the anode connection occurs more can be explained as follows: The in the long run in the penetrating capillary gap between the rivet and the power supply strip Electrolyte has a negative potential in relation to the anode and thus in relation to the Lead-in strip and the rivet so that current flows from the electrolyte to the lead-in strip and flows to the rivet. As a result, a barrier will form on top of these two. In that there is a layer of none between the rivet and the feed strip Barrier-forming .metal is attached, the electrolyte, if so has penetrated far into the gap between rivet and feed strip that he reaches this metal layer, discharges through it. As a result of the nature of the material this layer creates no barrier = layer, so that no interruption of the electrical contact occurs. Since the rivet completely covers the additional layer, the amount of electrolyte that can touch this layer is small, so that of the Electrolyte after this layer flowing current, which is a leakage current of the capacitor is kept very low.

The layer of non-barrier material is preferably made from a sanded intermediate piece pushed onto the rivet, e.g. B. a metal ring or a socket with a flange resting against the feed strip. This intermediate piece can also be coated with a layer of a suitable metal, e.g. B. tin or silver, be covered.

The invention is explained using a drawing in which Fig. i a section through part of an embodiment of an electrolytic ., Capacitor according to the invention and Fig.2 greatly enlarges a detail of this Example shows.

The winding i of the electrolytic capacitor shown is located in a cylindrical metal case, se 2, which on the upper side by a Closure plate is complete, which consists of an insulating washer 3 and a rubber cover 4. exists. The edge of the disk 3 lies on an inner shoulder 5 of the housing 2 and is pressed onto it by the fact that the edge of the housing is flanged is and on the edge of the rubber washer q. presses.

In a central hole of the disks 3 and q. there is an aluminum rivet 6. The end of an aluminum feed strip lies under the head 7 of the rivet facing the coil i 8, which is connected to the anode in the capacitor winding i, the feed strip 8 is clamped between the head 7 of the rivet and the lower side of the insulating washer 3-. On the side of the rubber washer q., D. H. on the outside of the capacitor between the closing head 9 formed when the rivet is upset and the rubber washer q. a soldering lug ok

Between the rivet 6 and the feed strip 8 on the one hand. as the Isoliererschefe 3 and the rubber cover. q. on the other hand there is a layer made of a material that does not form a barrier layer; in the example shown this layer consists of a tinned brass bushing i i with a flange z ,. where .the diameter of the flange is smaller than the diameter of the head 7. As a result of this difference between the diameters, the material flows through the Head 7 when upsetting the rivet over the edge of the flange 12, and the socket is completely covered by the rivet ;: -In your example, the layer is from the non-barrier material in the form of a pushed onto the rivet shank Socket provided. Instead of this, however, a metal ring can also be used attached between the feed strip and the rivet head.

Claims (3)

PATENT CLAIMS: i. Electrolytic capacitor with a connection in the form of a rivet through an insulating wall part for an anode, with a solder tail end clamped on the outside between the insulating part and the closing head and a power supply strip connected to the anode between the rivet head and the insulating part on the inside and the power supply strip and the rivet made of a barrier layer forming metal, characterized in that the rivet (6) between the rivet head (7) and the closing head (9) completely covers a layer (ii) of a metal which does not form a barrier layer and which rests against the power supply strip (io) and rivet (7) and electrically connects both parts. 2. Electrolytic capacitor after Claim y; characterized in that the surface of a separate, intermediate piece pushed onto the rivet, e.g. B. a ring or one with a Flanged socket, is used. 3. electrolytic capacitor according to claim 2, characterized in that the layer of egg-no galvanic metal coating of the intermediate piece, for. B. from your tin or silver coating. References: British Patent No. 55o535; U.S. Patent No. 2355788.