SU773808A1 - Device for monitoring glaze ice load on electric power transmission line wires - Google Patents

Description

(54) DEVICE FOR CONTROL OF THE NAVIGATION LOAD LEVEL ON WIRES OF ELECTRICAL TRANSMISSION The invention relates to electrical engineering and is intended for use in icy areas where damage to power lines from icing is possible. Devices are known for detecting a dangerous icy load on wires of power lines 1J. This device requires the allocation of a relatively wide frequency band for operation due to the fact that for its operation it is necessary to send radio pulses to the line. The closest technical solution to the present invention is a device for monitoring the level of ice load on power transmission lines, equipped with connection systems and end-barriers, containing an ice load sensor connected to a plunger with a controlled element of the quadrupole, and mounted on a line wire in an icy dangerous place. For the operation of such a device, it is necessary to allocate a wide frequency band (30-50 kHz), which is not always the case when the device is installed on operating overhead lines. Yes, it is possible. AND The purpose of this proposal is to reduce the required frequency band. The goal is achieved by the fact that in the device for monitoring the level of ice load on the wires of the transmission line, equipped with connecting systoles and terminal barriers, containing an sensor of ice loading, connected by a plunger with a controllable element of the quadrupole and installed on the wire of lines in an icy dangerous place, two a sinusoidal voltage generator, whose frequencies are not equal to each other, two band-pass filters of corresponding frequencies, two detectors, and a meter, with outputs g Generators are connected to the primary connection system, and to the second connection system, the inputs of bandpass filters are connected, the outputs of which are connected through detectors to the corresponding inputs of the meter. The drawing shows the block diagram of the device. The device contains an attachment system 1, end barriers 2, an icing load sensor 3, a plunger 4, - generators 5, 6 sinusoidal signals with frequencies f and fj, respectively, controlled by four-pole 7, band-pass filters 8.9, built for transmitting signals from generator 5 and b, respectively, of the detectors 10, the meter 11, which reacts to the difference in the levels of signals coming from the line.

A device at one end of an overhead line consists of two generators 5 and 6, which are connected to the power line of this overhead line through system 1 of the connection. At the other end of the overhead line, the inputs of two filters 8 and 9 are connected to this wire through the second attachment system 1, the outputs of which are connected to the meter inputs through the detector 10.

At the place of possible formation of a dangerous level of icing load, a controlled quadrupole 7 is installed, connected by a plunger 4, with a sensor 3 of icing load.

As a controlled quadrupole, a tunable layer that is included in the power line wire or a coupling capacitor and an oscillating circuit connected between the phase conductor and ground can be used.

The principle of operation of the device is based on the indication of the attenuation of the high-frequency path of the high-voltage terminal caused by a quadrupole controlled from the ice load sensor on the line.

Generators 5 and 6 produce sinusoidal voltages of the frequencies f and f that are close to each other, which propagate along the power line.

At the opposite end of the line, these voltages are separated by two filters 8 and 9, tuned accordingly to the frequencies f, f are detected by the detectors 10 and compared by a meter 11.

In the case of the absence of ice, the controlled quadrupole 7 is adjusted by the sensor 3 of the ice load to the same transmission of both frequencies and the meter 11 shows the absence of a signal level difference that corresponds to the absence of ice.

When ice is formed, sensor 3 rebuilds: with the help of plunger 4, quadrupole 7 so that, for example, the voltage of frequency f is damped more than the voltage of frequency fa.

The relative change in voltage levels is measured by a gauge 11, which indicates the wall thickness of the ice.

Since climatic conditions have the same effect on the attenuation of two voltages close in frequency, their influence does not affect the operation of the device and it only reacts to a change in the level of ice at the sensor 3 installation site.

The proposed device can significantly reduce the required bandwidth for operation and can be used on an overhead transmission line, where a limited frequency band does not allow the use of pulsed methods.

The feasibility of the proposed device is to increase the reliability of the elec. supply due to reliable and accurate determination of the presence of icing.

Claims (2)

1. Authors certificate of the USSR 508843, cl. H 0.2 G 7/16, 1976. 2. The author's certificate of the USSR 603034. cl. H 02 G 7/16, 1978.