SU399796A1 - - Google Patents

Description

The invention relates to electric power industry and can be used to study the electrical state of a contaminated and wetted insulation of existing power lines. The known devices for monitoring the state of wetted and contaminated insulators are based on recording the amplitude or the number of pulses of surface discharges. However, in order to carry out such control on active lines, they must be disconnected in order to install and install measuring sensors, cables and other elements for each wire of each support, which is associated with operational inconveniences. The purpose of the invention is to improve the accuracy and reliability of control by measuring the average number of dead time between bursts of pulses of surface discharges in a few minutes. This is achieved by the fact that a detector connected in series, an integrator converter, a key circuit, to whose outputs a pulse counter is connected, a time relay and a pulse extender are connected to the device, and the amplifier output is connected to the detector input. In order to reduce the effect of signals from the surface discharges of adjacent wire lines, the sensor is designed as a pick-up microphone. FIG. 1 shows a block diagram of the proposed device; in fig. 2 - schematic diagram of the pulse extender; in fig. 3- curve of dependence n of the average duration of the injector on the level of isolation. The device contains a sensor in the form of an orthopanesity microphone /, amplifier-limiter 2 detector 3, integrator-converter 4, key circuit 5, time relay 6, pulse counter 7 and pulse extender 8. It has been established by investigating leakage currents that during the leakage current flow, there is a natural tendency to increase the average duration of dead time as the insulation level approaches the operating voltage, regardless of whether the level is due to a large wet pollution. In the proposed device, the duration of the pauses between the bursts of pulses of the surface bits is taken remotely and their average value is taken. The time constant of the measuring chain is chosen so that the pauses are considered between a packet of pulses of surface charges, and single pulses up to several

milliseconds that do not characterize arc discharges were ignored.

A sensor / serves to convert acoustic waves arising from surface discharges into electrical signals. The signal from the sensor / enters the amplifier limiter 2. The signal amplified and limited in amplitude on both sides is converted by the detector 3, and then enters the integrator 4, made in the form of a C-chain. Here, the signals are converted into pulses of various amplitudes proportional to the duration of the signals. These pulses come to the input of the key circuit 5 with a certain trigger threshold, which makes it possible to screen out small amplitude pulses corresponding to power line noise with a large margin of insulation. In addition, at the output of the key circuit, there is a pulse extender 8 for extending the falling edge of the pulses, consisting of a charge circuit of the diode DI and a capacitor C and a discharge circuit of the capacitors C, a diode DZ of resistance R, which allows to produce the correct counting of series of bits separated on several packs (fig. 2). In the absence of pulses, the triode of the key circuit 5 is locked “capacitor C has no charge. With the arrival of the pulse, the key circuit triode opens and the capacitor quickly charges through the same triode and the direct resistance of the diode DI. Then the current flows through the resistance of the load Rn winding of the meter. With the end of the pulse, the triode closes and the capacitor discharges to the resistance RH through R and the diode D2.

Thus, the delay of the trailing edge of the pulse for a certain time ts depends on the constant time () C. The presence of such a circuit ensures the continuous flow of current through N for the entire discharge series divided into several packs and eliminates the triggering of the counter 7.

In one measurement cycle of the device, the time / and is set using time relay 6 and by turning on the circuit of the key circuit. The number of series of bits Lp during the measurement time is read by the pulse counter 7.

The average length of dead time p is defined as a ratio.

f -In terms of n, one can judge the state of the insulator. Dependence of average duration

The ta pause from the isolation level (f / pa6 / t nep), obtained experimentally, has the form shown in FIG. 3. This shows that the average duration of pauses of the surface discharge currents measured by the device clearly defines

condition of the investigated insulation.

Subject invention

Claims (2)

1.A device to monitor the state of the insulation, for example, insulators of high-voltage power lines, containing a sensor connected to the input of the amplifier, and a pulse counter, characterized in that, in order to increase the accuracy and reliability of control by measuring the average number dead time between bursts of surface discharge pulses in a few minutes, it is equipped with series-connected detector, integrator-converter, key circuit, to the outputs of which are connected a time relay, pulse extender and pulse counter, the amplifier output being connected to the detector input. 2. The device according to claim 1, characterized in that, in order to reduce the influence of signals from the surface discharges of neighboring wire lines, the sensor is made in the form of a highly directional microphone. Fi2.2. U 0, 0.5 0.6 0.7 0.8 0.9 1.0 Figure 5