RU2670189C1 - Device for control of high-voltage equipment under voltage - Google Patents

Abstract

FIELD: metrology.SUBSTANCE: device relates to metrology, in particular to the means for remote monitoring of high-voltage equipment. Device for monitoring high-voltage equipment under voltage, which includes a receiver of signals from partial discharges, an optical sight, a laser aiming unit, a liquid crystal display, an automatic adjustment of the sensitivity of signals from partial discharges, and a signal processing unit. Output of the automatic sensitivity adjustment unit is connected to the input of a signal processing unit configured to transmit processing results along with voice recordings to a long-term memory unit for their transfer using the communication interface to the computer. As a receiver of signals from partial discharges, a system of two sensors equipped with receiving horns spaced apart from each other is used. Signals from the sensors are sent to the headset, so that a signal from one of the sensors goes to the left phone of the headset, and from the second sensor to the right.EFFECT: improved device operation due to the possibility of a spatial representation of the location of the ultrasonic signal source.1 cl

Description

The device relates to the electric power industry and can be used for remote monitoring of high-voltage power equipment that is energized. State of the art

It is known that corona discharges can occur on high-voltage power equipment under voltage, and partial discharges can occur on equipment defects, such as cracks in high-voltage insulators. The occurrence of both corona and partial discharges is accompanied by the generation of sound vibrations in a wide frequency range, including ultrasound. Therefore, the measurement of ultrasonic signals associated with partial discharges, indicating the presence of insulation defects that are dangerous for future operation, of high-voltage equipment, is one of the main methods for monitoring the state of insulation in the diagnosis of high-voltage equipment [1] (Russov V.A. Measurement of partial discharges in insulation high-voltage equipment Publishing House of the State Unitary Transport University, Ekaterinburg, 2011, p. 329-331).

A known device for monitoring high-voltage equipment under voltage [2] (RF Patent No. 2569415), operating on the principle of detecting an ultrasonic signal contained in the emission spectrum of a high-voltage discharge. A practical implementation of the device [2] is the Ultrascan 2004M remote control device for high-voltage power equipment under voltage [3] (Technical description of the operating instructions and device passport, Tomsk, LLC NPP Metacon). The device is designed for remote detection of places of electric current leaks in structural elements of power lines, substations, in insulators of a contact network of railways.

The device [3], selected as a prototype, contains a partial discharge signal receiver, which is used as an ultrasonic sensor, the radiation pattern of which is formed by a receiving horn made of plastic using 3D technology, an optical sight, a laser-guided block, an automatic adjustment of the sensitivity of the signal receiver from partial discharges, processing unit (digital and correlation) of signals, liquid crystal linear indicator, digital voice recorder, long-term memory unit, communication interface with by computer. In this case, the output of the automatic sensitivity adjustment unit is connected to the input of the signal processing unit, which is capable of transmitting the processing results together with voice recorders to the long-term memory unit for their further transmission via the communication interface to a computer.

The disadvantage of the prototype [3] is that the data obtained with its help only indicate the presence of a defect, but do not give a spatial representation (or a very approximate idea) about the location of the radiation source.

SUMMARY OF THE INVENTION

The technical problem to which the invention is directed is to increase the reliability of determining the location of a defect.

The technical result is an improvement in the quality of the device by obtaining the possibility of spatial representation of the location of the source of ultrasonic radiation. The technical result is achieved by using as a receiver signals from partial discharges of a system of two sensors equipped with receiving horns, in particular made of plastic using 3D technology, spaced a certain distance from each other (the optimal distance between them is 10-15 cm.) and connected to the headphone so that the signal from one of the sensors goes to the left telephone of the headphone, and from the second sensor to the right one, as well as the use of an optical sight, laser focusing unit and, a block for automatically adjusting the sensitivity of the receiver of the signal from partial discharges, a block for processing digital and correlation) signals, a liquid crystal linear indicator, a digital voice recorder, a long-term memory block, a communication interface with a computer, while the output of the block for automatically adjusting the sensitivity is connected to the input of the signal processing block, configured to transmit the processing results to a long-term memory unit for further transmission using a communication interface to a computer, as is done in [2] (RF patent No. 2569415).

Digital processing of signals from two channels makes it possible to more reliably identify the defect signal, get an idea of the spatial position of the defect and increase the reliability of determining its location. The use of a system of two sensors also increases the sensitivity of the device.

Example.

A comparative analysis of the operation of the Ultrascan 2004M device and the claimed device was carried out on the basis of the Gorelektroset of Seversk, the Tomsk Region when examining 35 kV power line insulators. The inventive device has not only increased sensitivity, which made it possible to identify a larger number of defective insulators, but also at their close proximity, it was possible to reliably identify a defective insulator, which did not allow making the Ultrascan 2004M device.

Claims (2)

1. A control device for high-voltage equipment under voltage, including a receiver of signals from partial discharges, an optical sight, a laser-guided unit, a liquid crystal display, an automatic adjustment unit for the sensitivity of signals from partial discharges, a signal processing unit, while the output of the automatic sensitivity adjustment unit is connected to the input of the unit processing a signal configured to transmit processing results together with voice recorders to a long-term memory unit for their use transmissions using the communication interface to a computer, characterized in that a system of two sensors is used as a receiver of signals from partial discharges, equipped with receiving horns spaced a certain distance from each other, while the signals from the sensors are transmitted to the headphone, so that the signal from one of the sensors goes to the left telephone of the headphone, and from the second sensor to the right. 2. The device according to claim 1, in which the distance between the receiving horns of the two sensors is 10-15 cm