SU980167A1 - Three-phse gas-filled cable - Google Patents

Description

The invention relates to electrical engineering, in particular to three-phase gas-filled cables.

A known design of a three-phase gas-filled cable, in which, in order to increase the electric strength, one of the insulators is made with a length different from the length of the other two, and its longitudinal axis coincides with the axis of symmetry of the cable. The insulators inside the Shell are mounted parallel to each other on a carrier platform £ 1].

The disadvantages of this design are its complexity associated with the presence of a supporting platform and various sizes of insulators, in particular in length, which excludes the unification of insulators and, accordingly, the same working conditions in terms of electrical and mechanical strength, as well as lower dielectric strength of two lateral, insulators.

The closest technical solution to the proposed one is a three-phase gas-filled cable, in which the conductive system is located inside a common gas-filled tubular sheath and is supported by rod-type insulators located radially in the sheath, with the conductive wires placed at the vertices of an equilateral triangle [2].

The design drawback is that the insulators are installed in the shortest interval between the core and the casing, i.e. in the field of increased electric field strength. To ensure high electrical strength of such a system, it is necessary to manufacture • insulators with an optimal shape, and also increase their linear dimensions ^ 5 ι.

The purpose of the invention is to increase the electric strength and simplify the cable construction.

This goal is achieved by the fact that in a three-phase gas-filled ⁴ · cable containing a sheath made in the form of a pipe, phase conductors and rod insulators located radially between the phase conductors and the sheath located inside it at the vertices of the equilateral, 25 rh triangle, insulators are made passing through the center 30 of the shell.

The drawing shows a cable cross section.

The cable contains an external geometric sheath 1 filled with insulating gas 2. Inside the sheath, at the vertices of an equilateral 5th triangle, conductive conductors 3 are located, each core being separately attached to the supporting elements (rings) 4 using rod insulators 5. The axis of each insulator 10 passes through the center of the cable sheath between two other pairs of cores. The supporting elements (rings) L are spaced along the cable for a certain distance • one from the other with 15 insulators fixed on them.

Assembling and mounting apparatus tse ^g Scrap is carried out as follows.

First, with the help of technological * 20 devices, conductive conductors 3 are installed and fixed at the ends so that in the cross section the wires are arranged in the form of a triangle. Then separately on each core with a certain step in the longitudinal direction, the rod insulators 5 are fixed by toughness. After that, in a certain sequence, the supporting elements (rings) are installed on the insulators 5 and fixed 4. The assembled system is inserted into the shell 1. To reduce friction forces when the system is introduced into the shell, the bearing rings can be equipped with sliding or rolling elements.

The proposed cable design has the following advantages compared to the cable taken as a prototype: the location of the insulators outside the zone of increased electric field strength can either significantly reduce the cable dimensions (at a given voltage value) or increase the electric strength of the cable ^ i while maintaining its overall dimensions j application unified insulators simplifies the design of the cable and provides the same conditions for their · work.

Claims (1)

Claim , A three-phase gas-filled cable containing a sheath made in the form of a pipe, phase conductors located inside it at the vertices of an equilateral triangle, and rod insulators located radially between the phase conductors and the sheath, characterized in that (in order to increase the electric strength and simplify the design,. insulators are made passing through the center of the shell.