DE1127475B - Electrolytic capacitor - Google Patents

Description

Electrolytic capacitor The invention relates to an electrolytic capacitor with ground contact on the housing. The capacitor consists of a metallic one Housing located capacitor winding.

The purpose of the invention is to form this ground contact so that it is particularly large and resistant and, in particular, is also light can be produced during manufacture.

It is known to manufacture capacitors, their capacitor winding is connected to the housing as a ground contact.

The disadvantage. of these contacts is that they are in the majority of the cases are limited to one point - so that in time they become deficient. The capacitor is no longer usable, -when the connection of one end of the Capacitor winding with the housing comes loose. A repair is also not possible, as it would destroy the capacitor.

Another known design of a capacitor is that the capacitor winding of a slotted, resilient, metallic sheath is surrounded, at which one end of the metal foil co-forming the roll over a large area is attached and the casing with the housing by frictional connection in radial Direction contact there.

A disadvantage of this design is that although it is suitable for capacitors, but not suitable for electrolytic capacitors. With electrolytic capacitors the capacitor winding must get a special hold in the housing, there is one more Air space is required and thereby an evasion in the housing and thus a deterioration the ground contact could take place. With static condensers this becomes air space eliminated by pouring the potting compound, and it is not necessary to Fasten the capacitor winding in the housing like an electrolytic capacitor.

The object of the invention is to overcome the disadvantages of the known designs to avoid and the capacitor winding in particular an electrolytic capacitor to be fastened in the housing in such a way that even if there is an additional air space a good and resilient ground contact is still achieved.

The solution to the problem is, according to the invention, that the casing the capacitor winding protrudes so far that the crimped cover plate the sheathing presses against the housing base and thus a resilient ground contact in the axial direction Direction causes.

The resilient design of this ground contact causes expansions the housing, which is caused by pressure differences, e.g. B. when using the capacitor arise in the aircraft or at high and low temperatures, balanced. It will always ensured a safe and even contact. By pressing on by means of the cover plate there is a bracing of the housing, so that the Winding is largely protected against mechanical damage.

It is also essential that after removal of the cover plate still a substitution. of the capacitor winding is possible, d. H. Soldering or any other material connections with the housing are avoided.

The casing can be designed in different ways. You can get the grip have increasing, annular projections. Instead of these projections can Circumferential beads increasing frictional engagement with the housing may be present. as well resilient tongues are suitable to improve the frictional connection with the housing.

The contact can be improved if the sheath is down touches or forms a contact ring in the housing, onto which it is attached by the resilient, .-crimped cover plate forming the closure is pressed.

Many sharp contact-mediating elevations can also be found on the Sheathing may be provided. It is also possible that several slotted, metallic sheaths, plugged into one another with frictional connection and by itself known means, such as projections or also liquids, electrically with one another connected, establish the ground contact after the housing wall. A Embodiment of the invention is shown in the drawing. Go there from the drawing and the description still features of a further embodiment of the Invention out, Fig. 1 shows a housing: with the capacitor winding; partially on average; Fig. 1 a shows the upper part of the capacitor; Fig. 2 shows the elastic Sheathing with the inner capacitor winding-alone; Fig. 3 shows in perspective the elastic sheathing with the inserted capacitor winding and the one at the end bent metal foil; 4 to 7 show embodiments of the elastic Sheathing.

In FIGS. 1 and 1 a, the capacitor winding 1, which consists in a known manner of two metal foils and a spacer between them, is accommodated in the housing 2. The elastic sheathing 3 surrounds the capacitor winding, which is formed by metal foils and dielectric. It is recognized that one end of the metal foil forming a covering is attached to the central contact and is guided to the outside in a manner known per se. The metal foil forming the other covering, which is connected to the housing and is intended to form the ground contact, has its connection, as can be seen from FIG. 1, to the base of the housing. The connection of this metal foil to the housing takes place via the elastic casing 3, wherein the metal foil 7 forming the covering is bent at one end and z. B. is connected by welding at the points 7 a, 7 b with the elastic sheath. The elastic sheath, which is shown alone in FIG. 4, is a slotted metallic sleeve. . FIG. 5 shows an elastic casing 3 a with annular projections 4.

The elastic sheath 3 b has incisions at one or any number of points above and below which form resilient tongues 5 (FIG. 6). Another embodiment of the elastic casing 3c shows circumferential beads 6. Depending on the manufacturing process used, one of these forms will be used for the elastic casing, each embodiment being suitable if the purpose of the invention is achieved, namely a resilient fit with simultaneous support of the Capacitor winding opposite the housing.

The prepared capacitor winding shown in FIG. 2 with the casing is inserted into the housing 2. From FIG. 1 it can be seen that the elastic casing 3 has a greater height than the capacitor winding or the metal foil 7. A cover plate 8 made of elastic material, for. B. rubber, is pressed with the interposition of a ring 9 by crimping at the point 2a on the elastic casing 3, so that a contact ring is formed on the base 2 b. You can also insert a contact ring into the base, which, also provided with elevations or the like, for a. secure contact.

Claims (7)

CLAIMS: 1. An electrolytic capacitor, the capacitor winding is surrounded by a slotted, resilient metallic sheath to which the one end of the winding mitbildenden metal foil is secured over a large area, and outputs the shell, with the housing by positive connection in the radial direction of contact, characterized in that the casing (3, 3 a, 3 b, 3 c) protrudes beyond the capacitor winding (1) so far that the crimped cover plate (8 ) presses the casing (3, 3 a) against the housing base (2b) and thus creates a resilient ground contact causes in the axial direction. 2. Capacitor according to claim 1, characterized in that the casing (3a) has annular projections (4) which increase the frictional connection. 3. Capacitor according to claim 1, characterized in that the casing (3c) is the frictional connection with the housing (2) has increasing, circumferential beads (6). 4. Capacitor according to claim 1, characterized in that the casing (3b) has the frictional connection with the housing (2) increasing, resilient tongues (5). 5. Capacitor according to claims 1. to 4, characterized in that the casing (3) to the frictional connection -with the housing (2), touches a contact ring at the bottom of the housing (2) or forms, on which it is formed by a resilient, crimped cover plate forming the closure (8) is pressed. 6. Capacitor according to claim 1, characterized in that the Sheathing (3) to increase the frictional connection with the housing (2), many pointed, Has contact enhancing bumps. 7. Capacitor according to claim 1, characterized in that a plurality of slotted, metallic sheaths (3), plugged into one another with a frictional connection and electrically connected to one another by means known per se, such as projections or liquids, produce the ground contact after the housing wall (2). Documents considered: German Patent No. 838 632; British Patent No. 645,631; U.S. Patent Nos. 2,003,002, 2,414,143, 2,485,913.