SU532924A1 - Insulating position for electrical apparatus - Google Patents

Description

The invention relates to the transmission of electrical energy, in particular electrical apparatus, suspended on open switchgear converters substations to portal supporting structures.

Electrical apparatus, in the construction of which, insulation cables are applied to suspension linear insulators, have a number of advantages, which include: low cost of insulation, increased compactness of the entire open switchgear due to more compact layout of open switchgears, the reliability of the insulation and its greater mechanical strength compared with the support insulation are high.

Also known insulating suspension suspension disconnector 1500 sq. 1.

In this suspension, the movable contact of the disconnector is suspended on a bush nde insulator, which is suspended on a portal on a steel cable connected to the drive. The fixed contact of the disconnector is fixed on the head of the current transformer. The disconnector is disconnected by raising the cord.

acting in the direction transverse to it and leading to the swinging of the wire. The latter affects the reliability of the disconnector.

A suspended switch 2 is also known, in which each of the columns carrying the wires of the same phases of the two bus systems also serves to suspend the two phases of the switch belonging to different circuits, while the switches are suspended on the arms of the columns to a height slightly lower than the height of the suspension busbar.

However, the area under the switch is occupied by the installation of a heel to the ground, i.e. it is impossible to achieve good compactness of the entire open switchgear. In addition, the suspension is unstable against forces that cause the electrical apparatus to twist about a vertical axis.

The closest technical solution to the present invention is an insulating suspension for an electrical apparatus, consisting of a platform on which the apparatus is mounted, with three points located on a triangle for fastening the suspension, three suspension insulators arranged obliquely downwards to the vertical axis of the apparatus; secured on the traverse of the carrier assembly 1 and 3.

Such a system of suspension (; ki in a number of cases requires additional stabilization from the effect of torsional oscillations, which arise from the uneven influence of the wind pressure on the electric apparatus.

The purpose of the invention is to ensure the stability of the suspension against the forces causing the torsion of the apparatus around the vertical axis.

In the proposed suspension, at least one of the FEC inclined arms of insulators is made Y - shaped, the plane in which both chains of V - shaped arms are located is inclined at an angle to the vertical equal to the angle of inclination of the two other cables. The V-shaped wires on the bearing junction are located on a straight line parallel to the tangent to the circle passing through the triangle slots formed by the three points of attachment of the lower ridges of the inclined gyrs of insulators to the g-form. on which the unit is mounted.

In order to reduce the area of wind pressure, fiberglass rod insulators have been installed in the chains of the V-shaped insulators.

FIG. 1 shows the scheme of an insulating suspension of an electrical apparatus according to the scheme of three inclined arms of insulators (see the line drawing), one of which is replaced by a V-shaped wire, located obliquely; in fig. 2 shows the suspension of an electrical apparatus on three inclined arms of isolators, a plan; in fig. 3, 4, and 5 are insulating suspensions for an electrical apparatus using, respectively, one, two, and three inclined V-shaped arms, insulators, plan.

Usually, the module of the electrical apparatus 1 is mounted on the platform 2, attached to the supporting structure 3 on the arms of the suspension insulators 4. The known constructive solution of the insulating suspension of the electric apparatus provides for its mounting with the inclined cables of the insulators to the inconsistency of the KLM triangle, which is usually equilateral to in fig. 1 shtrikhami.

FIG. 2 shows the suspension of the electric apparatus 1 to the carrier structure of 3 on three inclined arms of insulators 4 arranged in a triangle. One of the inclined arms of the insulators 5 is made V-shaped and positioned so that its plane of inclination is located at the same angle to the vertical axis as

and other obliquely arranged arms of insulators. Straight AB (in Figs. 1 and 3) and straight AB and CD (in Fig. 4) and AB, CD and E G (in Fig. 5) passing through the upper attachment points of the V-shaped arm are located parallel to the tangent to the circle passing through the vertices of the triangle (Fig. 3-5) formed by the points of attachment of the wired insulators to the platform on which the module of the electrical apparatus is mounted.

Claims (3)

1. Isolating suspension for electric apparatus, consisting of a platform on which the apparatus is mounted, with three points located on a triangle, and insulators fastening, three located obliquely downwards to the vertical axis of the arm, the arm of suspended insulators, the upper ends of which are fixed on the traverse of the supporting structure, differing in order to ensure its stability against the forces causing the torsion of the apparatus around the vertical axis, at least one of the three inclined arms of the insulators is V-shaped, the plane in which both chains of the V-shaped arms are located is inclined at an angle to the vertical equal to the angle of inclination of the two other cables and the points of attachment of the chains The V-shaped beads on the supporting structure are located on a straight, parapleted tangent to a circle that passes through the vertices of the triangle formed by the three points of attachment of the lower ends of the inclined bend insulators to the platform on which the device is mounted. 2. Suspension according to claim 1, characterized in that, in order to reduce the area of wind pressure, fiberglass rod insulators are installed in the insulator chains of the V-shaped arm. Sources of information accepted in the examination during the examination: 1.Afanasyev V.V. Designs of switching-off devices. M., Energie, 1969, pp. 38-39, fig. 1-5. 2.Dvoskin L. I. Composition of open switchgear 330-500 kV abroad and in the USSR, M., Energa, 1961, p. 36-37, fig. 36B. 3. Copyright certificate N 382189 M. CL. H 02G7 / 201971. m FIG. 2 L 5 BUT FIG. five Phie. F (g. 5