DE477632C - Electric capacitor of constant capacity - Google Patents

Description

Fixed Capacitance Electric Capacitor. The Invention refers to a new and advantageous design of capacitors more invariable Capacity and allows the desired amount of capacity in the manufacture of the Capacitor can be set easily and precisely - and also when the The capacitor continues to be practically unchangeable.

According to the invention, the capacitor becomes invariable capacitance built in such a way that one of the two assignments (or one essential part of the same) forming housing and the unadjustable in the same attached remaining part cavities are provided, the outer wall of which is so strong is that although the size of the cavities is correspondingly in the manufacture under pressure the desired capacity can be set, but compared to the normal, the housing is rigid during use.

The manufacture of the capacitor according to the invention can be best go in such a way that by an appropriate printing device, for. B. by pressure rollers, the housing, which was originally expediently tubular can be, so far compressed on a correspondingly large part of the surface until the capacitor has the desired capacity. This construction is suitable particularly good for capacitors with a small capacity.

An embodiment of the invention is shown in the drawing.

Fig. R shows a longitudinal section of a piece of pipe to form the at the same time serving as the outer covering of the capacitor housing.

Fig. A or 3 or q. are a longitudinal section or a side view or a cross section through the line A-A of Fig. z in the capacitor according to the invention after the merging of its parts, but before the definitive shaping.

Figs. 6 and 7 are a longitudinal section and a plan view, respectively. an end view (on a slightly enlarged scale) of the same capacitor its completion.

For the production of this capacitor is shown in Fig. Z metallic pipe piece one on both sides by insulation, z. B. by mica plates 3 covered metal plate used z. Then the pipe section is at one end, for. B. at q., Flattened so that its flattened walls with the mica plates the metal plate between them. Of course you have to ensure that the inner occupancy 2 from the outer occupancy i is well insulated everywhere. For this purpose, it is expediently arranged in such a way that that at the end of 4 their end edges are not in one plane with the end edges of the mica plates 3 and the external assignment i are, but somewhat covered by the mica plates as shown in Figure 2. Do you want the end q. to form a connection point the outside occupancy i is provided with a 'perforation 5, so one must ensure that the inner plate: 2 to avoid a short circuit from the outset with a Perforation is provided, the diameter of which is slightly larger than that of the opening 5 of the pipe section z and the mica plate 3.

If you hold the flattened end 4 between rolling rollers 6, you can depending on the required amount of capacity, a correspondingly large part of the pipe i press together until contact with the insulating plates 3; the bigger the part of the tube, which is compressed until it touches the mica plates 3, and the more the remaining part is flattened, the greater the capacity. You can see their amount during processing by the rollers 6 under the connection the assignments i and 2 to different poles of an external circuit with a Check measuring instrument.

The finished capacitor is thus, as shown in Fig. 5 can be seen, a certain part of the flattened walls directly on the mica sheets 3; the other part is also flattened, but keeps a certain distance from the mica plates 3 at, and the cavity formed thereby can, as above shown by the processing with the rollers 6 to achieve the desired Kapäzität can be set. The right end of the metal plate 2 protrudes from the mica layers 3 out, and the latter do not need to reach the right end of the pipe section i too rich. Two plate blocks can be used to mechanically stiffen the capacitor 7 made of insulating material, e.g. B. Bakelite, use between which the piece of pipe i protruding end of occupancy 2 is pinched and the corresponding Compression of the associated end of the pipe section i are held together. It is recommended to secure against shifting and to hold together better to provide the plates 7 with wells in which the corresponding warts 8 of the pipe section i protrude. To form a connection point to the plate 2, the right end of the capacitor can be perforated in a known manner and with a hollow rivet 9 are provided.

Claims (2)

PATENT CLAIMS: i. Electric capacitor of constant capacity, characterized in that between his one of the two assignments (or a substantial part of the same) forming the housing and the unadjustable in the same attached remaining part cavities are provided, the outer wall of which is so strong is that although the size of the cavities is correspondingly in the manufacture under pressure the desired capacity can be set, but compared to the -normal, the housing is rigid during use. 2. Capacitor na-eh claim i, characterized in that the one power supply through a from the housing protruding end of the plate of the inner occupancy and the other Power supply is formed through the opposite end of the housing.