SU875490A1 - Submersible gang capacitor - Google Patents

Description

The invention relates to the manufacture of electric turbine equipment and can be used as a phase-shifting device for single-phase capacitor electrical leveling used in linearly single-phase electric drive motors of centrifugal pumps for pumping oil from a well. A known loading block of capacitors, mainly for drilling rigs, comprising a cylindrical body with capacitors. The only known device is design complexity and low reliability. The purpose of the invention is to simplify the design and increase reliability. This goal is achieved by the fact that the submersible block of condensers, mainly for drilling rigs, comprising a cylindrical case with capacitors, is equipped with a thin couw with protective elements in which the capacitors are placed, and the protective elements are rectangular in section and form their outer surfaces together with the inner surface the cylindrical body of the channels for the washing liquid, in addition, the thin-walled casing of the rectangular section is made in the form of an elastic shell. FIG. 1 shows the loading unit of capacitors, general view; in fig. 2 - EE) without AA in FIG. in fig. 3 shows a section BB in FIG. one; in fig. 4 - section BB in FIG. 1 (rotated). The submersible capacitor unit contains a cylindrical case 1, inside of which a thin-walled rectangular section housing with capacitors 2 is installed, which is made up of a liquid dielectric. At the ends of the cylindrical housing 1, supports 3 and 4 are placed, which include terminal boxes 5 of capacitors. Outlet boxes 5 are made in the form of a cup 6, current-carrying rods 7, sealed with plastic 8, between the capacitors 2 are intermediate supports 9, in which the plug connector 10 is placed. The plug connector 10 makes an electrical connection and simultaneously seals the junction with elastic rings 11 The side surfaces of the capacitors 2 are protected from erosion by the protective strips 12, which are attached to the supports 3 and

4 with the help of 13 peshtsev and tentative devices. 14. On. Both ends of the cylindrical body 1 have threaded adapters 15 in which electrical terminals 16 are placed. Sealing the electrical leads 16 is carried out by rings 11. The thin-walled casing forms, with its outer surfaces, together with the inner surface of the cylindrical body 1, channels for flushing fluid. The capacitor 2 is placed in an elastic shell 17.

The presence of the supports and the protective shell protects the capacitors from erosion, and the proposed implementation of all types of electrical connections ensures complete tightness of the unit, which makes it possible to work in a moving abrasive solution.

The proposals for a loading capacitor unit consists of a set of rectangular sealed capacitors filled with a liquid dielectric, where the hydrostatic pressure is transmitted to. the internal cavity of the capacitor due to the elastic deformation of the wide walls of the capacitor casing and this allows to reduce the length of the block due to the lack of hydraulic devices; OHTtd,

Besides. The proposed design possesses permeable vibration resistance compared to capacitors, made of annular, concentrically wound sections, as the plates of capacitors are located not perpendicular to the lines of vibration, but perpendicular to it.

Claims (2)

1. The submersible block of condensers, mainly for drilling rigs containing a cylindrical case with capacitors, is so necessary that, in order to simplify the design and increase reliability, it is equipped with a thin-walled casing with protective elements in which the capacitors are placed and the protective elements are made of rectangular cross section and, with their external surfaces, form, together with the internal surface of the cylindrical body, channels for the washing liquid. . 2. The unit according to claim 1, which is based on the fact that the thin-walled casing of the pulley section is made in the form of an elastic y-ball. Sources of information taken into account in the examination 1. USSR author's certificate 30 127736, cl. H 01 G 1/02, 1962.