RU1791889C - Device for determination of closest approach of wires of aerial power supply transmission lines - Google Patents

Abstract

The inventive measuring element of the device is made in the form of a flexible, tensioned using a non-conductive thread located on its free end of the load with movable tags located along its length, and the guiding element has the ability to rotate relative to the axis of the second wire under the action of the thread tension . At the same time, by using a flexible filament as a measuring element, the quality of measurements of the maximum proximity of the wires sharply increases, which allows one to optimize the distance between the wires of different phases of the overhead line and thereby increase the reliability of the overhead power line. 2 ill.

Description

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The invention relates to electrical engineering and can be used to measure the maximum proximity of wires of overhead power lines (OHL).

A device for determining the maximum approximation of the wires of overhead power lines containing a measuring element located between these wires, one end of which is designed for rigid connection with the first wire, and the other end is for movable connection with the second wire and a guide element mounted on the second wire without the possibility of moving relative to it in the longitudinal direction and having a movable connection with the measuring element.

The main disadvantage of the prototype is that the measuring element of the prototype is made in the form of two parallel rails, one ends of which are fixed on one wire, the other is rigidly connected by a clamp, and in the closed space formed by the rails, the second wire can move, and in the space between the rails along the longitudinal axis of the gap in the direction of movement of the second wire at equal intervals installed deformable elements that fix the relative movement of the wires. This determines its main disadvantage - limited area of application. The device successfully operates with a length of rails of up to 1.5 m. With an increase in the length of the rails, i.e. the increase in the distance between the wires up to 3-5 m, the use of this device is impossible due to the deformation of the measuring rails associated with their deflection. In addition, increasing the weight of the device by increasing the length of the measuring element leads to a change in the nature of the process

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VL line vibrations, especially when measuring the relative proximity of various VL lines.

The purpose of the invention is to increase the reliability of the overhead power line by optimizing the distance between the wires of various phases caused by the improvement of the quality of measurements of the magnitude of the maximum proximity of the wires.

This goal is achieved in that in a device for determining the maximum approximation of the wires of overhead power lines, comprising a measuring element located between these wires, one end of which is designed for rigid fixing with the first wire, and the other end is for movable connection with the second wire, and the direction a fastening element fixed to the second wire without the possibility of moving relative to it in the longitudinal direction and having a connection with the measuring element, from The measuring element is made in the form of a flexible, tensioned using an additionally introduced load located on its free end, a non-conductive circuit with movable tags located along its length, additionally introduced, and the guiding element has the ability to rotate relative to the axis of the second wire under the action of the thread tension .

What is new in this device is that the measuring element is made in the form of a flexible tension using a conductive thread located on its free end of the load with movable tags located along its length, and the guide element can be rotated relative to the axis of the second wire under the action of the tension wife of the thread.

In FIG. 1 shows an apparatus for measuring the magnitude of the maximum displacements of phase wires and cables; . FIG. 2 is a device for measuring the maximum displacement of phase wires or cables relative to earth.

The device for determining the maximum approximation of the wires of overhead power lines contains a measuring element 1 made in the form of a flexible thread 2, one end of which is rigidly connected to the first wire 3 by means of a fastener A, and the other has a movable connection 5 with the second wire 6, and a guide element 7. mounted on the second wire 6 without the possibility of displacement in the longitudinal direction and having a movable connection with the measuring element 1. Flexible non-conductive thread 2 is passed through the window 8 of the guide about element 7, it is tensioned by the force of gravity of cargo 9 and has tags 10 mounted on it with equal intervals and removable along the thread 2.

The guide element 7 is rigidly fixed to the second wire 6 by means of fasteners 11 and has the possibility of free rotation around the axis of the wire 6.

The operation of the device is as follows: In the presence of wind of any direction, the overhead lines conduct various kinds of vibrations under the influence of the wind

pressure.

With vibrations of the wires, the distances between them change over time, reaching their minimum and maximum values. Thread bending at the same time 2

due to its suppleness, flexibility and constant tension under the influence of the load 9 manages to respond to the movement of wires 3 and 6, the passage through the windows 8. If the vibration amplitudes of the wires are insignificant, then the bending thread 2 moves in the windows 10 of the guide element 7 within the first intervals 12 of the label-free length of the flexible strand 2. If the oscillation amplitudes of the wires are significant and exceed the initial value of the first intervals 12, then the windows 8 knock or move the marks 10 along the thread, thereby determining the maximum low and maximum discrepancy

two wires 3 and 6.

An increase in the accuracy of measuring the maximum divergence and proximity of the two wires is due to the fact that the bending, almost weightless compared to the weight of the wire, the thread does not significantly affect the dynamics of the wires. Expanding the measurement range to 12-15 m allows you to use this device for measuring proximity values

wires of various phases of overhead lines of all voltage classes.

Thus, the use of the proposed device will improve the quality of measurements of maximum

rapprochement of wires, to optimize the distance between wires of different phases of overhead lines and thereby increase the reliability of overhead power lines.

Claims (1)

The claims A device for determining the maximum approximation of the wires of overhead power lines, comprising a measuring element located between these wires, one the end of which is intended for rigid connection with the first wire, and the other end is for movable connection with the second wire, and a guide element fixed to the second wire without being able to move relative to it in the longitudinal direction and having a movable connection with a measuring element, characterized in that in order to increase the reliability of the overhead Power line by optimizing distances 0 between wires of different phases, caused by an increase in the quality of measurements of the magnitude of the maximum proximity of the wires, the measuring element is made in the form of a flexible, tensioned using an additional introduced load located on its free end, a non-conductive thread with additional movable tags located along its length, and a guide the element has the ability to rotate relative to the axis of the second wire under the action of the thread tension. g 9 Figure 1