SU1582207A1 - Sealed current tap - Google Patents

Abstract

The invention relates to electrical devices and can be used in cases where it is necessary to carry out the input (output) of the electric line through the vessel wall under pressure (vacuum), with the simultaneous separation of two media. The aim of the invention is to increase the reliability under conditions of complex loads. The sealed current output consists of a base, a current conductor 1, an insulator 2 in the form of a hollow cylinder, which is placed in cylindrical bushings 3, each of which is provided with a ledge 4 at one end, the internal sleeve 5 has an internal ledge 6, and the external one at the opposite end external, with which it is welded to the current terminal and base 7, respectively. 1 il.

Description

The invention relates to electrical devices and can be used in cases where it is necessary to introduce (output) j an electric line through the wall of a vessel under pressure (vacuum), with the simultaneous separation of two media.

The purpose of the invention is to increase the reliability of a sealed current lead under complex loads.

In the drawing, which shows a sealed current output.

The sealed current output consists of J5 IT of a current conductor 1 installed in a hollow cylindrical insulator 2. A sleeve 3 is welded to the inner surface of the insulator 2, at one end of which there is a stub 20 ring protrusion 4. The outer surface of the insulator 2 is welded into the sleeve 5, on the opposite end of which the outer annular protrusion 6, 25 is also made

The protrusion 4 of the sleeve 3 is attached to the current conductor 1, and the protrusion 6 of the sleeve 5 is connected to the base 7 of the sealed current lead (device body).

A sealed current output of ~ 30 operates as follows.

The current output is energized and, with the help of insulator 2, is reliably isolated from the base 7. Welded connections of the current output with the hub 4 of the sleeve 3, the insulator 2 with the surfaces of the bushings 3 and 5 and the protrusion 6 of the sleeve 5 with the base 7 reliably seal the spaces shared by the base 7. 40

When the current lead is heated by the current flowing through it, an increase in its diameter will cause the appearance of compressive stresses in the structure, in the plane perpendicular to the axis of the current lead. Since there are gaps between it and the sleeve 3, as well as between the base 7 and the sleeve 5, which are equal to the heights of the protrusions 4 and 6, respectively, there is the possibility of transverse deformation of the entire connection. A similar process will occur when the base 7 is heated, i.e. when reducing the hole for the sleeve. 5, thereby protecting the insulator 2 from destruction. The gaps between the bushings 3, the base 7 and the current output will decrease. In the case of high pressure on the base 7, which may be in the vessel (tank, reactor, etc.), it (base) will work as a membrane, subject to bending moments. In this case, the gap between the base 7 and the sleeve 5 decreases, and the gap between the sleeve 3 and the current output increases.

The advantage of the proposed sealed current lead (in comparison with the known ones) is the increased reliability of the connection, since the insulator is protected from the impact of large compressive forces and bending moments arising from both the base and the current side.

Claims (1)

Claim A sealed current lead containing a base, an insulator in it in the form of a hollow cylinder, inside which a current conductor passes, characterized by the fact that, in order to increase reliability under complex loads, the current lead is equipped with two bushings paired with it, one of which is located between the base and an insulator, and the other between the latter and the conductor, while at the opposite ends of the bushings are made annular protrusions, hermetically connected respectively to the base and the conductor,