SU1008800A1 - Dead-end insulator string - Google Patents

Abstract

TENSION GIRLAND OF INSULATORS for overhead power lines with split phase wires arranged around the circumference, containing heating circuits of insulators, an expansion beam beam, made in the form of a housing with hinged radiation circuits on it and the number of insulator circuits mounted on a cord with a hinged radiation rays on it, and a hinged beam on the insulator chains and a hinged beam on it, and an armature mounted on it with a number of insulator circuits and a hinge mounted beam with a number of insulator circuits and an armature mounted on it, and a hinged beam on the number of insulators and an armature beam mounted on it. from the side of the wires, characterized in that, in order to increase reliability by ensuring the minimum allowable movement of the wires in the event of a break, reducing the metal intensity of the wire and labor In addition, the rocker arm is made with additional beam rods according to the number of insulator chains hinged on its body, with two T51GH attached to the coupling fitting i of each of the arms of the insulator, one of which is located (L at an angle, and the other is at an angle of 180 ° - .cL with respect to the longitudinal axis of the arm, while oi 2O - 4O. 00 00

Description

This invention relates to electric energy. hetics, and more specifically to tensioned, wired isolators with separate mounting located around the circumference of the split phase. The known tension cable for the power transmission line with two split wires in phase, containing a rocker arm, made in the form of a pull rod attached to adjustable arm sections, the rocker arm being provided with an additional arm pivotally connected in the middle part to the main rail. The cables are fixed obliquely with respect to the adjustable links m i. However, this wire is designed to work on power lines with only two split wires in phase and cannot be applied on lines with a large number of those in the split phase, since the bundle in the form of the main and additional straps is rigid rods without spatial separation between the two phases of the line. It is also known to tension the wire to split the power transmission phase into three passes; tori by the number of wires in the split phase and three rods located in the cross section of the phase and pivotally connected to the chains of insulators on the side of the wires, the rods are rod-shaped and are connected in triangle 2, Ana exclusively for use in the line with the hold of the wires in the split phase. In addition to TOIX), if one circuit of the circuit breaks (as practice shows, the use of the needle 1zdy) expands the triangular link at a large angle, resulting in a sharp increase in the danamika coefficient (dynamic impact), which leads to the destruction of the remaining insulator circuits and twisting of the wires. Closest to the proposed technical entity is a tension arm of insulators for overhead transmission lines with split phase wires arranged around the circumference, containing insulator circuits, an expansion beam beam, made in the form of a housing with hinged beam rods on it A line of insulators and hinged on the coupling fittings on the side of the wires sj. The disadvantage of letting the gvrl vda know that it is very heavy, massive and metal-consuming. It is difficult to mount such a cable on its own; when it is used, labor costs during installation are great. In addition, it requires special installation mechanisms and accessories. The purpose of the invention is to ensure the minimum allowable movement of wires in the event of a break, reduction of metal consumption of the wire, and labor costs during installation. This goal is achieved by the fact that, in a tension wire, there are insulators for overhead transmission lines with split phase conductors arranged around the circumference, which contain insulator circuits, a spacer beam beam, made in the form of a housing with beam traces hinged on it tori and pivotally mounted on the coupling fittings from the side of the wires, the rocker arm is made with additional radial tons gatt; according to the number of insulator chains hinged on its case, with two bars secured to the coupling fittings of each of the arms of the insulators, one of which is located at an angle oL, & the other is at an angle of 18 ° -oL with respect to the longitudinal axis of the wire, with an OS of 20 - 4 °. FIG. 1 shows the tension arm, the general view (isometric view); on kW r 2 - the same, top and side view; in fig. 3 - the same, in the emergency mode (when one isolator circuit is broken), top view and side view. The tensioning cable contains 1 insulator circuits, each of which holds a split-phase wire 2, an expansion beam beam consisting of body 3 and pivotally attached strap ray g 4, according to the number of circuits 1 split-phase insulators and installed on the coupling fitting 5 from the side of the wires 2. The housing 3 is made, for example, in the form of a pipe, and the beam rods 4 through the hinges 6 are connected to the lugs 7 of the housing 3 of the spacer arm. The wire is supplied with additional beam rods 8 in such a way that there are two beam rods 4 and 8 for each circuit, one of which is at an angle about the longitudinal axis of the road 9, and the other at an angle about the longitudinal axis of the axis 9, with c6 being selected within the limits of 20-4 O, T gi 4 and 8 are skewed at the common point of sharivramn 6 with grab bars 4 (eyes) of the body 3 of the raoporoschgo pulvozromy rummer.

The tension of the needle will melt in a cneayous manner.

In emergency mode (in the event of a break in the doubles of the insulator chains 1), the wire 2 is retained in the working station by one of the additional radiation tubes 8 connected to the distance beam beam, in the latter part, in turn, is held in the middle part of the phase the account of other pairs of additional radial tons g 8 attached to intact chains of insulators 1.

Thus, when one of the insulator circuits 1 (Fig. 3) is turned off, the wire 2 is kept in working condition with the help of additional radiation traction in a dangling circuit fixed on the right beam beam, with additional beam rods 8 and main radial t gami 4 preserved chains of 1 insulators (at the same time ti 4 and 8 work on stretching), which keep the expansion beam beam in the middle part of the arm.

At the same time, there is an insignificant free movement of the wire to break the bathroom circuit, which reduces the force of the dynamic impact on the remaining insulators and at the same time reduces the metal consumption of the structure.

The magnitude of the angle between 2 and 4CP is chosen from the basis of the blind premise: the smaller this angle, the smaller the displacement of Tsira with a break in one of the circuits of the insulators, because under the influence of wires, the survivor of traces begins to turn around along the wire. However, it is not possible to take an absolutely small value of the oC angle, since in this case the ha will be very long and the tension arms will increase greatly.

Consequently, the larger the angle od, the smaller the dimensions of the tensioning necklace (ti gi are shorter), but at ets it increases the displacement of the T51gi, which holds it into a broken chain to a position along the main axis.

The magnitude of the angle is about 20–40 ° with the optimum condition of the minimum of the tension of the tension of the wire and the mOscum displacement of t to the position along the sowing of the wire with the break of one chain.

The proposed wire has an increased reliability, less metal1K capacity and requires less labor for installation.

S

Claims (1)

TENSION FESTIVAL OF INSULATORS for overhead power lines with split phase wires located around the circumference, containing insulator chains, an expansion beam beam, made in the form of a housing with beam rods pivotally mounted on it according to the number of insulator chains and mounted pivotally on the coupling arm from the side of the wires, the fact that, in order to increase reliability by ensuring the minimum allowable movement of wires in the event of a break, to reduce the intensity of the garland and labor costs during installation, The linkage is made with additional beam rods according to the number of neolator chains pivotally mounted on its housing, and on the coupling fittings of each of the insulator strings two SS rods are fixed, one of which is located at an angle οό, and the other at an angle of 180 ° - cL with respect to to longitudinal = 20 - 40 °. SU „„ 1008800 1 1008800 2