SU1299474A1 - High-voltage transformer-rectifier - Google Patents

Abstract

This invention relates to high voltage power supplies. The goal is to increase reliability. A high-voltage transformer-rectifier contains a 3-phase transformer placed in a corns filled with electrically insulating medium, consisting of a magnetic core, primary winding, electrostatic shield, secondary winding, divided into sections (C). The electrical connection between C is via a 3-phase circuit through valve devices. The secondary winding consists of two catunits (K) 7 and 8 mounted on a metal open ring (RK) 9. With the help of plate 10 connected to K 9 n passing between K 7 and 8. via cylindrical projections P and 12 Discs 13 are joined C 5 to form an insulating bearing carrier on the outer side K 7 and 8. Such a constructive implementation allows to reduce the working surface of the insulator surface carrying the secondary winding of the structure. 1 hp f-ly. 2 Il. to with 0 4 N

Description

The invention relates to high voltage power sources and can be used in accelerator technology as a source of accelerating voltage for direct action accelerators, as well as for high voltage electrical tests.

The aim of the invention is to increase the reliability of the rectifier transformer. FIG. I shows a transformer-rectifier with one of the variants of the carrier insulation structure, made of three columns, a transverse section; on fng. 2 shows a sectioned secondary winding and a column carrying an insulating KOFI structure, section A-A in FIG. one.

The device contains a 3-phase transformer located in the case I, filled with an electrical insulating medium, of the states of the magnetic conductor 2, the primary winding 3, the electrostatic screen 4, the secondary winding, divided into section 5. The electrical connection between the sections will be It hangs in a 3-phase scheme through venti. Devices 6, cascade. The Qi of the winding winding consists of two coils 7 and 8 fixed on a metal open ring 9. With the help of plate 0 connected to ring 9 and passing between coils 7 and 8, section 5 is joined by means of cylindrical fittings 11 and 12 with disks 13, image non-. existing insulation construction on the outer side of coils 7 and 8.

The device works as follows. With the passage of alternating current in the primary winding 3 in the mag- netic circuit 2, an alternating magnetic flux appears, which excites the induced emf in each section 5 of the secondary winding. Magnet-magnet 2 of electrical steel terminates a magnetic zero, ensuring its uniformity as well. In sections 5 of the secondary winding, an alternating voltage is excited, which is converted by the circuit

Larionov's constant with the help of valve devices 6. The output voltage, transformer-rectifier is equal to the total voltage of all stages. The electrostatic screen 4 with the primary winding 3 contained therein is at a zero potential. The secondary winding sections 5 are arranged coaxially to the electrostatic shield 4 and are insulated from it to the full voltage of the rectifier transformer. Insulation between adjacent sections is made at a voltage of one cas

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Claims (2)

Invention Formula five 0 five . A high-voltage transformer-rectifier containing a 3-phase transformer with a space-symmetric magnetic core, the secondary winding phases of which are made up of sections consisting of two coils, inside the open-ended side, placed in a case filled with electrically insulated medium. a ring of electric, aqueous material and internal coil terminals connected to it, carrying an insulating structure and valve devices, characterized in that, in order to increase reliability, the bearing -translational arrangement of the secondary winding of each phase is formed by at least two columns arranged on the outside of the coils, the fastening section to columns Osugi schestvleno by plates connected with the ring section and arranged between the coil sections. 2. The transformer-rectifier according to claim, characterized in that the column is made in the form of a disk set, whose height is equal to the ubicoTC section, the plates are made of electrically conductive material and fixed between the end surfaces of adjacent disks. Compiled by S. Shitov Editor A. KondrachnnaTehred I. Veres Proofreader A. Obruchar Order 992 Circulation 664 Subscription The Institute of Invention and Discovery 113035. Moscow, F - 35, Raushsk nab. 4/5 Production and Printing Enterprise, Uzhgorod, ul. Project, 4