CS216433B1 - Bracket with flexible base for support insulator - Google Patents

Abstract

The invention belongs to the field of electromechanics and solves the installation of an insulator on a flexible base. In essence, the isolator is bolted to a flange with four curved arms, equipped with elastic damping elements and attached to brackets that are welded to the mast. The insulator forms an angle between 30° and 45° with the vertical of the mast.

Description

BACKGROUND OF THE INVENTION The present invention relates to a bracket with a resilient support for a support insulator, which solves the problem of absorbing the extreme load of dynamic shocks that arises when the cable conductor is subject to weather conditions.

Up to now, insulators have been installed as pendant insulators for external high-voltage lines. The disadvantage of these suspension insulators is that they do not contain flexible damping elements that would absorb dynamic shocks. Peak loads are fully transferred to the structure. Another disadvantage is the necessity of attaching suspension insulators to brackets and mast brackets, which are high for this reason. Tests were carried out with the elastic insulator arrangement based on epoxy resins based on cycloaliphatic ester carbohydrates. Such insulators, so-called. second-generation insulators are flexible but at the same time technologically demanding.

The above drawbacks are overcome by a flexible support bracket for a support insulator mounted on a mast according to the invention, characterized in that the flange for attaching the cross-shaped insulator with the curved arms on which the upper elastic damping elements are attached above the flange and the lower elastic damping elements under the flange. The upper damping elements are attached to the mast top bracket and the lower damping elements are attached to the mast bottom bracket such that the insulator axis and the perpendicular of the mast are at an angle of between 30 ° and 45 °.

Advantageously, the advancement of the flexible support bracket for the support insulator according to the invention is that for the same mounting heights of the cable conductors the insulator can be mounted lower, and hence, on the lighter and less rigid poles than with the suspension mounting of the insulator. Furthermore, the support insulator can be mounted on a mast and eliminates the need for a portal. The overall advantages and advancements of the present invention are: Mast weight reduction, masts can be constructed without gantries; j. saving of construction material, flexibility of the system guarantees higher reliability of very high voltage lines and the fact that the elastic elements (rubber springs) dampen unwanted vibrations of the cable conductors.

In the accompanying drawings of FIG. 1 is a sectional view of a bracket with a resilient support for a support insulator according to the invention, and FIG. 2 is an axonometric representation of the forces acting on the individual damping elements.

The support insulator 1 is fixed to the mast 11 so that the insulator 1 is screwed onto a cross-shaped flange with arms 3. The arms 3 of the flange 2 are rounded and bent toward the center of gravity of their axes 4. These arms 3 are washers for the upper damping elements. 5 and 6 and the lower resilient damping elements 7 and 8, which are screwed onto the flange. These elements are also screwed onto the upper 9 and lower 10 brackets. The holders 9 and 10 are welded to the mast 11.

The support insulator on the resilient substrate of the present invention ensures the elasticity of the assembly by using rubber disc springs as upper and lower resilient damping elements 5, 6, 7 and 8. These are permanently retracted by compressive normal forces. The fact that the rubber springs are only subjected to normal forces, the forces in the spring axes, is achieved by turning the axes of all the springs to one point 4. Point 4 is the point of the cable guide hinge and each force acting from the cable guide , extends into the axes of the elastic damping elements 5, 6, 7 and 8. By attaching the upper elastic damping elements 5 and 6 to the flange 2 of the insulator 1 and the lower elastic damping elements 7 and 8 below the flange of the insulator 1, It is understood that all springs are stressed by favorable compressive forces in terms of spring design. The flange 2 of the insulator 1 is a steel plate, the four curved and rounded arms of which form a washer for the spring-damping elements 5, 6, 7 and 8. The support insulator 1 is screwed onto the flange 2. The rubber springs are attached to the mast 11 by means of the upper holder 9 and the lower holder 10 of the mast 11. The holders 9 and 10 are welded to the mast. The angle of inclination α of the axis of the insulator 1 with respect to the horizontal plane shall be chosen depending on the loading forces, taking into account the safe distance of the cable conductor from the metal parts of the mast 11.

Claims (2)

OBJECT OF THE INVENTION Bracket with resilient support for both support and insulator mounted on a mast, characterized in that the flange (2) for receiving the insulator (1) cross-shaped with curved arms on which the upper elastic damping elements (5, 6) above the flange (2) and the lower damping elements (7, 8) below the flange (2), further the upper damping elements (5, 6) are attached to the upper bracket (9) of the mast (11) and the lower damping elements (7, 8) are attached to the lower bracket (10) of the mast (11), wherein the axis of the insulator (1) and the perpendicular of the mast (11) form an angle α within the range of 30 ° to 45 °.