SU1134968A1 - High-voltage cable lead-in - Google Patents

Abstract

HIGH-VOLTAGE CABLE INPUT, comprising a case of insulating material, an insulating insert installed between the case and a current-carrying cable, a cooling system made in the form of a two-way spiral of an insulating material tube connected to the flange cooling channel, and a heat shield mounted on the cooled flange, characterized in that, in order to increase operational reliability when operating in vacuum, the body is made partitioned, between the sections: ectro and thermal conductivity, spiral tubes at the level of clips are fitted with inserts from a metal tube at least one turn, heat shields made of metal with a low value of the secondary electron emission coefficient, such as stainless steel, are installed over the body where the clips are located, Between the screens, clips and metal inserts, the joints are exaggerated, providing galvanic coupling and heat transfer, for example, welded or soldered joints. at the same time, the cooling system tubes are located on top of the insulating insert, and the cavity between the insert and the housing is filled with a dielectric fluid. Wed Od 00

Description

The invention relates to electrical engineering, in particular to high voltage engineering, and can be used in the design and manufacture of high-current vacuum inlets of electron injectors. A partitioned insulator is known for use in a vacuum, equipped with a system for forcibly distributing potential across the surface of insulator 1. A disadvantage of the known device is the absence of a cooling system and heat shields, which reduces the operational reliability of the input when powerful electron injectors are installed in a vacuum. A high-voltage cable entry is also known, which is designed to operate in a vacuum and the contents of the cooling system of the high-voltage flange, on which the current-carrying load and the thermal input 2 are installed. The disadvantage of this device is. The decrease in the level of electrical strength when working with powerful sources of electrons, which is determined by the effect on the insulator of the flow of electrons. The purpose of the invention is to increase the operational reliability of the input. The goal is achieved by the fact that, in a high-voltage cable gland comprising an insulating material body, an insulating insert installed between the body and the current-carrying cable, a cooling system, completed in the form of a two-way helix from an insulating material tube connected to the flange cooling channel , and a heat shield installed on the cooled flange, the body is sectioned in its entirety, between the sections sections are made of material with high electrical and thermal conductivity, the spiral tubes are at the level of fitted with metal tube inserts over a length of at least one turn, heat shields made of metal with a low secondary emission coefficient 682 electron emission, such as stainless steel, are installed over the body at the locations of the clips, the heat shields are made toroidal, between the shields, clips and metal inserts connections are made that provide galvanic coupling and heat transfer, for example, welded or soldered joints, while the cooling system tubes are located on top of the insulation translational insertion and the cavity between the insert and the housing filled with dielectric fluid. The drawing shows the proposed device. The device contains a partitioned insulator 1, for example, ultrafarly porcelain, a metal flange 2, an insert in the form of a guide sleeve of insulating material 3, a coil of the cooling system of tubes 4 made of insulating material, for example polyethylene, tubular inserts 5 of a metal tube, clips of electrically conductive material 6, tap-offs 7, thermal toroidal shields 8, current-carrying cable 9. The device operates as follows. The power to the load, for example, to the heat of the hot-cathode assembly, is supplied by cable 9. The load is cooled by flowing a coolant, for example, water, through the tubes 4 of the double-ended helix. Metal inserts 5 and tapings 7 allow both heat removal from heat shields 8, and forced distribution of potential over the surface of insulator 1, heat shield 8 protects the surface of insulator 1 from the flow of charged particles moving from flange 2, filling the cavity between the insert 3 and the case of the insulator 1 by the dielectric fluid allows, through convection, to take heat from the metal tubular inserts 5. The proposed device can be used in high-current electron beam accelerators and voltages of 300-1000 kV intended for industrial process plants.

Claims (1)

A HIGH VOLTAGE CABLE ENTRANCE comprising a housing made of insulating material, an insulating insert installed between the housing and the current-carrying cable, a cooling system made in the form of a two-way spiral made of a tube of insulation material connected to the cooling channel of the flange, and a heat shield mounted on the cooled flange, characterized the fact that, in order to increase operational reliability when working in a vacuum, the housing is made partitioned, between section-; we installed clips made of a material with high electrical and thermal conductivity, spiral tubes at the level of the clips are equipped with inserts from a metal pipe at least one revolution in length, metal screens with low secondary electron emission coefficient, for example stainless steel, thermal 'screens are made toroidal, between the screens, clips and metal inserts are made connections that provide galvanic communication and heat transfer, An example is welded or soldered joints, while the pipes of the cooling system are located on top of the insulating insert, and the cavity between the insert and the housing is filled with dielectric fluid.