SU868849A1 - Capacitor - Google Patents

Description

(54) CAPACITOR

Claims (2)

The invention relates to electrical engineering, in particular, to high-voltage pulsed power capacitors and can be used to create powerful impulse current generators operating in the mode of electrical discharge in a liquid. A capacitor is known that contains a two-layer case of an electrically insulating material, the inner layer of which is made of a solid material, for example, a getinax, an outer one, with a small inner diameter, of elastomer. Covers are installed along the body creeps, and in the places of their connection there are collars with an annular recess tl3. The disadvantage of this design lies in the fact that it is not applicable to power capacitors, since it is structurally impossible to provide the necessary equal force to fasten the cover of relatively large dimensions in the elastomer. In a liquid-impregnated capacitor, with sudden changes in operating temperatures at the interface of the lid with the elastomer, as a result of the necessary deformation, the elastomer appears to flow, and it is almost impossible to eliminate it in the finished condenser. The closest in technical essence is a capacitor containing an insulating body with sections with protruding foil plates in it that are not displaced and two metallic covers 12 in contact with them. body, unreliable in conditions of sudden changes in operating temperatures due to irreversible deformations of thermoplastic. In addition, this design cannot be used for liquid-impregnated capacitors, since when installing the cover, liquid impregnation falls between the cover and the thermoplastic material of the housing, and it is impossible to ensure a reliable seal. The purpose of the invention is to increase reliability. This goal is achieved by the fact that the capacitor containing the insulating body with sections with protruding foil covers and two metal covers in contact with it is equipped with an elastic ring and plate springs, and with grooves in the roofs of the perimeter , inside which the elastic ring is stretched, and on the outer side of the collar there are slots, and on the inner surface there are plate springs around the perimeter, while on the edges of the leaf springs and the inner side e body made benches placed one in the other. FIG. 1 shows a capacitor, appearance; in fig. 2 - side view, section; in fig. 3 - top view, section. The condenser contains an insulating body 1, inside which sections 2 with protruding foil plates 3 are installed, and two metal covers 4 in contact with them. The covers 4 are provided with a collar 5 having a groove 6 on the side of the body. Noah 7 located along the perimeter is made on the surface of the shoulder 5. On the inner side of the collar 5, lamellar springs 8 with slots 9 are installed along the perimeter. A ledge Yu, placed in a ledge made on the inner side of the housing 1, is made along the edge of each leaf spring 8. During assembly of the section condenser under a special press {not shown) without additional clamps are inserted into the housing 1, while the housing 1 acts as a yoke, providing the required ratio of loading. Then, an elastic ring 6 is installed in the groove of the shoulder 5, and both covers 4 are mounted on the housing 1, and shown under a conventional VHe press) they are pressed out to be hooked onto the ledge U located on the inner side of the housing 1. The shoulder. 5 With slots 7, it is easy to install the covers 4 on the housing 1, while ensuring the compression of the insulating capacitor case and its immobility with respect to the covers 4. The proposed design of the capacitor provides for the electrical connection of the covers 4 to the protruding plates of the sections (in this case all the capacitor sections are connected in parallel), and the capacitor is connected to an electrical circuit by clamping, cooled contacts (not shown). . The application of the proposed design allows, without bolting or additional pouring with plastics, to quickly ensure the assembly of the capacitor while creating a reliable sealing of the capacitor current leads in the insulating housing. The assembly time of the proposed capacitor design is reduced by 40% compared with the construction of hermetic epoxy resin. Claims of invention flanges with a groove, inside which is placed an elastic ring, with slots on the outer surface of the collar, and lamellar springs are fixed on the inner surface, along the chrome Kakh lamellar springs and the inner side of the body are made ledges, razmacennye one to another. Sources of information taken IN attention in the examination 1. German patent number 2624335, l. H 01 q, 1979. 2. US patent number 3244953, l. 317-260, 1972 prototype).