DEP0009814DA - Electrical feed-through capacitor in an insulating housing - Google Patents

Description

Siemens & Halske Munich, September 27, 1948

Public limited company PA 9/17513

Postal address:. PA 13/48 21®8

Siemens & Halske A ₈ Q. _β *

Patent department
Munich 1
^ ittelsbacherplatz 4

Electrical IUr cn condenser in the insulating housing,

Feedthrough capacitors are "known to be those capacitors through whose winding body a conductor is passed, which is provided with connection devices on both sides and is in direct contact with a capacitor layer, while the other cover is connected to the housing in a concentrically conductive manner, which in turn is concentrically conductive in a breakthrough in a shielding wall or the like, the bushing is inserted into the separated line to be kept and thus represents a part of the line from which any interference, in particular interference, is to be discharged As a result of the practically non-existent supply lines to the condenser ducts, these capacitors have very little attenuation, or their so-called core is resistant and particularly small, so that even very high frequencies can be capacitively diverted. In addition, another important property is the condensate ars the that he between de n parts connected to it, the current line acts as a decoupling element, provided it is inserted into a shielding wall that is concentrically conductive and is connected to the housing of the capacitor without holes shielding wall is present, completely decoupled and shielded ^{from the other side of the shielding and the continued part, so that & törfelder 3 on} one side cannot create any separations in the conductors on the other side of the shielding wall »

S ζ AiiAi
23.9.1943

ΡΛ 9/17513

the known constructions now exist, in particular! Because of the use of the housing as a connection pole of the capacitor, the housing is always made of metal, "The need has now emerged to accommodate feedthrough capacitors in non-metallic housings, for example insulated cups, and still retain the properties inherent in the feed-through capacitor, ils * · se claim is actually to perform, since it does not matter j to make the, entire housing conductive, but lediglioh make sure a concentric between a plate of the capacitor and the AbschirnMand lochfreiü _s shortest possible connection "IJm this at However, it is sufficient to form the housing with the metal wall at the clamping point only if in accordance with the characteristic of the invention the cover or the housing jacket or both have metal parts used for electrical connection, the problem can be solved in a simple manner because, on the one hand, a good mechanical connection between metal and insulating material is ensured and, on the other hand, the necessary electrical connections can be provided without difficulty when assembling the capacitor «

One of the previously widespread and electrically flawless embodiments ύοώ feed- through capacitors has an eyelet screw connection on one end of the housing for fastening the capacitor, which has a smaller diameter than the capacitor housing, between the actual thread insert and the end face of the container is a conical or spherical one Annular surface is provided, which when screwing the concave in a hole in the shielding wall presses firmly against its Eaiid and thereby produces the desired electrical, hole-free concentric connection. If this proven and both electrically and practically advantageous embodiment is linked to the idea of the present invention, constructions arose as shown schematically in the drawing, which allow the use of insulating materials and still have the same electrical effects such as feed-through capacitors in metal housings.

In Fig. 1, a denotes the condensate body and b drr D'jrchführungßleiter «The housing is made up of 3 parts c, d and e, where c is a hollow cylindrical sleeve and d and e are the cover parts, according to the Rule of the invention is a disgusting part and that e, as well as the housing eniantel c with metal inserts f, g, which are used for electrical connection, f is a metal sleeve that is pressed into the threaded connector cover part e and is in her Shape design adapts to the cover and is intended with the conical ring part for the clamping connection with the shielding wall, not shown in detail »g is pressed into the housing jacket c and stands around a

fc , connected is. The leadthrough conductor b is pressed into the connector part e, i and k are insulating material inserts, which are used to isolate and secure the condenser body a »1 int another soldering plate that connects the opposite pole to the diaphragm lead b» during construction of the capacitor t, ehb one proceeds in such a way that the winding body provided with the soldering baskets h and 1 is inserted into the housing φ _? put on the cover part e and solder g with h and f at m * Daiaaoh the connection between 1 and b and close v & rd the cover d put on _f which is connected to b and c using a suitable adhesive «

In Fig. 2 and 3, with Fig. 3 showing a section of Fig. 2 along the line A ... B, only the de ugly il η is provided with a pressed-in metal part ο «ο penetrates the cover n, as shown in Fig * 3 shows at different symmetrically distributed points and is inside with the soldering basket ρ in concentric conductive connection ^ η is with the housing q. connected by gluing, in this version; Although the recesses in the metal part o, which are caused by the cover construction, do not give a completely hole-free, concentric connection between the BeIa ₁ T ₁ dps capacitor and the Absohirmwandy with which ο is in pressure connection, but this is the case with arrangements At which very high frequencies are not available, or do not need to be diverted, portable "But if it is a question of interference suppression miniem, where even the very highest frequencies must be safely kept away from the interference suppression section of the conductor, then only versions as in Fig." I given as an example usable »The version according to Fig * 2 only has the advantage that it is easier and cheaper to create»

Fig. 4 shows a further embodiment of the erfinduri_sgemäasen bushing condenser. The bushing conductor 3 is connected by means of the metallic soldering basket 2 to the one assignment of the capacitor winding 5 . The other assignment of the capacitor is in metallic connection with the conical metal part 7 of the deck by means of the solder basket 6, which is pressed in a known manner against the shielding of the condenser when the condenser is used, part 7 is the insulating part 8 befeatrVt. Part 7 and part 8 together form the cover, the Durair.i'hrun ^ eleiter 3 runs through a metallic socket 9? <: .. '. ^ ine η hollow rivet, with which it is soldered, together ngcns It ^ / i the capacitor is through the insulating housing 1 * lab

PJi 9/17513

^ for mounting a protective GGEN twist is desired, the housing z _o £ "may be a 6-edged mantle obtained * Optionally, the housing via the De ekel part 7 and the lotkorb 2 also slightly be extended to the capacitor at both To be able to measure ends.

Investments:

7 claims

3 figures

Claims (5)

P., 9/17513 claims 1. Electrical bushing capacitor in the insulating material housing, in which the implementation principle, in particular the decoupling properties are preserved, was characterized in that a hole-free, concentrically conductive connection between a coating of the capacitor and the opening in the shielding wall, in which it is used, is characterized It is ensured that either a cover part or the housing jacket or both of the metal parts used for electrical connection have _e 2 »Feedthrough capacitor according to claim 1, characterized in that a cover part has a conical or ku ^ eli ^ e bin _L surface, which is covered with a, for example, pressed-in metal part adapted to the surface, which on the one hand with one BeIa ₁ -, the capacitor is connected and on the other hand, when the capacitor is fastened, a hole in the insulation wall is pressed " 3 «feed-through capacitor according to claims 1 and 2, characterized in that with the cover part united piece of metal reaches through the deodorant and is directly connected to the capacitor plate «, 4 »Feed-through capacitor according to claims 1 and 2 _? characterized in that the united with the lid part metal piece engages around the lid and T ₆ of the condenser communicates with the BEIA indirectly via a jammed between cover and cup-shaped Gchäuseisantel solder plate or the like in conjunction " 5. Feedthrough capacitor according to claims 1-4, characterized in that in your housing jacket a Rin ^ ö'rmig closed metal insert is provided, which with the metal part of the deodorant by soldering or such is connected " 6, "sk implementation ond Ensat or according to claims 1-5, characterized in that the Accomplishment _L is Sleiter pressed into a part Deokel" 7 «feed-through capacitor naoh the claims 1-5, characterized {^ indicates that otherwise with each other mechanically Parts to be connected, for example the second cover with the housing bezvv «with the leadthrough are glued "