SU1041964A2 - Aerial power line sleet formation indicator - Google Patents

Description

This applies to devices for transmitting electrical energy through overhead power lines and can be used to detect icing on the wires of the transmission line, as well as to study the oscillations of the wire during icing and wind loads.

According to the main author. St. 353702

There is a known indicator of ice formation on overhead transmission lines, which contains a high-frequency generator, one of the outputs of which is connected to the input of an information transmission input unit, the output of which is connected to one of the wires of an overhead transmission line, a local signaling unit and an ice load sensor in the form of an LC circuit connected 20 through a capacitor between two wires of an overhead transmission line, the information receiving unit, the input of which is connected through a coupling capacitor to the other wire is the 25 NOW power line, a comparison unit, a frequency receiver, a threshold element, a time delay unit and an ice melting circuit activation unit, one of the inputs of which is connected to another output of the high-frequency generator and one of the inputs local alarm unit, the other input of which is under-. It is connected to one of the outputs of the time delay block, the other output of which is connected to the second input of the block: switching on the ice melting circuit, the third input of which is connected to the output of the threshold element and to the input of the time delay block element is connected to one of the outputs of the frequency receiver, the other output and input of which are connected respectively to the first input of the comparison unit and to the output of the information input unit 45, and the second input of the comparison unit is connected to the other output of the high-frequency generator, and the date inputs Ice load is switched on through a capacitor between two, /

the wires of the overhead power line, and its core is through the cable and the insulator is mechanically connected to one of the wires of the same line ij.

This indicator determines the occurrence of ice on the wire and controls its melting according to the amplitude of the deflection of the wire, however, it does not allow to fix the oscillation frequency of the wire c. one or another amplitude from ice and wind loads .60

The aim of the invention is to expand the functionality of the indicator by fixing the amplitude and frequency of wire oscillations. five

This goal is achieved by the fact that the indicator for icing on overhead transmission lines contains a high-frequency generator, one of the outputs of which is connected to the input of an input transmission information unit, and its output through a communication capacitor is connected to one of the overhead power wires and an ice load sensor in the form of an LC-circuit, connected to the wires of an overhead transmission line, an information receiving unit, the input of which is connected via a capacitor to another air-conductor power line, a comparison unit, a frequency receiver, a threshold element, a time delay unit and an ice melting circuit activation unit, one of the inputs of which is connected to another output of the high-frequency generator through one of the comparison unit and one of the inputs of the local signaling unit to one of the outputs of the time delay block, the other output of which is connected to the second input block 1 of the inclusion of the ice melting scheme, the third input of which is connected to the output of the threshold element and to the input of the time delay block, the input of the threshold element is connected to one of the outputs of the frequency receiver, the other output and the input of which are connected respectively to the first input of the comparison unit and to the output of the information input unit, and the second input of the comparison unit is connected to another output of the high-frequency generator, the sensor inputs of the ice load are connected through a capacitor Two wires of the overhead power line, and its core through t Gu and the insulator are mechanically connected to one of the wires of the 3rd line, a block of time reference, graph plotter telv counter oscillation amplitudes wires having an input coupled to the second output of the threshold element, the first and second outputs of the counter vibration amplitudes wires connected respectively to the inputs grafikopostroitel and time reference unit, whose output is connected to the second input grafikopostroitel c.

The drawing shows a block diagram of the indicator.

The indicator contains a high-frequency generator 1, a transmission input information block 2, a communication capacitor 3, an information receiving unit 4, a communication capacitor 5, a comparison block b, a frequency receiver 7, a threshold element 8, a time delay unit 9, a local alarm unit 10, a block 11 switches on ice melting scheme, sensor

12 ice load capacitor

13cwi, counter 14 amplitudes of the oscillations of the wire, block 15 of the reference time, plotter 16.

The device works as follows.

When an icy or wind load appears on the power transmission line, the inductance of the icing load sensor 12 changes. This causes a change in the signal at the output of the log element 8. A certain step of the threshold element triggers the corresponding counter 14 of the amplitude of the oscillations of the wire. Since the operation of the amplitude counter 14, the block of time counting 15 is activated. The discrete coordinates of the time and amplitude are fed to the input plotter-ITEL 16, which draws a curve

wire oscillation over time. Thus, the amplitude and frequency of the oscillation of the wire from wind and ice loads are fixed.

The technical and economic efficiency from the use of the invention consists in automating the process of studying the oscillations of the wire, namely, such parsheters of it as frequency and amplitude.

0

The implementation of the invention allows the weight of automatic monitoring of the behavior of the wire in the span between the supports in different climatic conditions.

5 conditions and at any time of the year, on the basis of which it is possible to choose the optimal design of overhead transmission lines in a given climatic zone.

Claims (1)

ICE FORMATION INDICATOR ON ELECTRIC TRANSMISSION AIR LINES by ed. St. No. 393702, about T-. personal with the fact that, in order to expand the functionality, a time unit, a plotter, a counter of the amplitudes of the oscillations of the wire, the input of which is connected to the second output of the threshold element, the first and second outputs of the counter of the amplitudes of the vibrations of the wire, are introduced into it connected respectively to the inputs of the plotter and the time unit, the output of which is connected to the second input of the plotter £ □ 5 / t