RU138688U1 - ELECTRIC TRANSMISSION SUPPORT CROSS - Google Patents

Abstract

The traverse of the power line support, made of a polymer composite material (carbon, glass or basalt plastic), used to suspend high-voltage wires and cables, characterized in that it is made in the form of a multi-chamber pultruded profile with cavities parallel to its axis.

Description

The utility model relates to the field of construction, namely to the construction and repair of power lines.

The level of technology.

The invention is known (1. Repin A.I., Volkov V.V., Ivanovsky A.L., Renters N.V. Power transmission line support and installation method. RF Patent 2152496. Publ. 10.07.2000), in where the support is a structure in the form of a tetrahedral truncated pyramid formed by inclined lattice racks pivotally supported on foundations and interconnected at the top by a hinge. In the upper part of the pyramid between the racks there is a metal traverse with cantilever sections, which is a lattice spatial structure. The disadvantages of the invention include the complexity of manufacturing the lattice structure of the beam and its attachment to the support.

A technical solution is known (2. Standard project 3.407-80M. Wooden supports of overhead power lines with a voltage of 6-10 kV for permafrost areas. Developed by the Leningrad branch of the Selenergoproekt Gosstroy of the USSR, 1971), in which the traverses are made of logs with a diameter of 180-200 mm treated with two layers of antiseptic paste.

The disadvantage of this solution is the fragility of the material due to its susceptibility to decay, large size and weight.

Known invention, the technical result of which is to reduce weight and increase manufacturability (3. Pichugin B.C. Reliance power lines. RF patent №2136830. Publish. 09/10/1999). The power line support therein includes a mast and a traverse formed by a mesh shell of composite material obtained by winding a fibrous filler onto a mandrel and fastening it with a binder. It is known that in practice three types of composite materials have received the greatest application: fiberglass, organoplastics, and carbon fiber. Accordingly, for these materials, reinforcing fillers are glass, polymer and carbon fibers, which differ in their properties in terms of physical, mechanical, electrical, chemical and other characteristics. In the specified invention, the polymer binder for these fibers can be the same or be different in some modifications in order to ensure high bonding with the fiber and increase heat resistance. The mast and traverse are made in the form of a shell of rotation by winding or laying in the slots of a rotating mandrel pre-impregnated or impregnated in the process of winding the filler. As a binder, the authors use various synthetic resins, which, upon subsequent heat treatment, become a rigid matrix for the filler. A filler and a binder formed a multilayer tape, from which a mesh shell is made with intersecting elements.

Each of the listed structures or schemes has certain operational, economic, strength and stiffness characteristics (prototype).

The disadvantages of these inventions include the complexity of the technological process of manufacturing traverses.

The goal is to increase the longevity and strength of the beam, reducing the overall dimensions and weight.

Utility Model Disclosure

Essential features characterizing a utility model

Restrictive: The traverse of the power line support is made of a polymer composite material.

Distinctive: the traverse is made in the form of a multi-chamber pultruded profile with the arrangement of cavities parallel to its axis.

Utility Model Implementation

The traverse is made of carbon, glass or basalt plastic by pultrusion; the traverse profile is a multi-chamber box of rectangular or circular cross section, the cavities are parallel to the central axis of the profile.

The use of pultruded technology allows to obtain a unidirectional composite in which the fibers are located along the longitudinal axis of the product. Unlike winding technologies, pultruded products are characterized by greater long-term strength under cyclic bending deformations that occur during the operation of traverses under the influence of wind loads.

In fig. Figure 1 shows a transverse section of the beam, and in Fig. 2 is a general view of traverses mounted on various types of supports.

Claims (1)

The traverse of the power line support, made of a polymer composite material (carbon, glass or basalt plastic), used to suspend high-voltage wires and cables, characterized in that it is made in the form of a multi-chamber pultruded profile with cavities parallel to its axis.

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