SU983591A1 - Device for determination of distance to power line damage - Google Patents

Description

The invention relates to electrical engineering and is intended for the automatic determination of the distance to the place of damage to power lines equipped with ground wire.

A device is known for automatically determining the distance to a fault site: 11 g of power lines, comprising a unit for generating reference pulses, connected through a control unit, pulses, a switch, integrators and comparison units with clamps, a unit for generating probing pulses, connected through an amplifier IJ limiting unit.

The drawback of the device is that when measuring is skipped, re-determination of the distance is impossible, since after the short-stub arc is extinguished, the dielectric properties of the insulation are restored. Determining the location of damage on ultra-long lines is an extremely difficult task, since as the distance increases, the attenuation of signals in the RF channels along the power line increases.

In addition, the resolution is limited by the minimum duration of the probe pulse.

These disadvantages are determined by the fact that distance measurement can only be carried out during the burning of a short circuit arc according to the location of the inhomogeneity of the wave motive formed by the short circuit arc in the phase high-frequency channels of the line.

The closest in technical essence to the invention is a device containing a control unit, a clock pulse generator, a frequency divider, a decoder, an accumulation number counter, a probe pulse generator, a functional

20 amplifier, limiter, m discrete accumulation cells, corresponding to m sections of the serviced line, indication system of exceeding the threshold level of the {1P + 1) -th cell of interference accumulation, threshold level generating units and comparison 2.

A disadvantage of the known device is the low reliability and accuracy of determining the distance to

30 places of damage.

The aim of the invention is to increase the reliability and accuracy of determining the distance to the accident site.

The goal is achieved by the fact that the device for determining the distance to the place of damage on the power line, containing the control unit, the code of which is connected respectively to the generator and receiver, the output of which is connected to the measuring unit, the generator output is connected to the receiver an attachment element with tapes / 1 for connecting the test object, short-cushion current sensors and short-circuit blocks are inserted, the outputs of the short-FLEX current sensors are connected to the control inputs according to the first and second terminals of which are connected respectively to the first and second ground protection cables of the control object, while the measurement unit contains an analyzer Yeremenn, a pulse form analyzer display element and a key, and the input of the measurement unit is connected to the first input of the key and the angleshiser of the Time , the first output of which is connected to the first input of the display element, the second output of the time analyzer is connected to the second - the key input, the output of which is connected to the second input through the form analyzer and / ipylkov display element house. The form analyzer and mylcov contains a maximum selection element and m chains, each of which contains a serially connected splitter filter and detector, with the input of each chain connected to the input of the igulse form analyzer and the output of each maximum selection element , the output of which is connected to the output of the pulse form analyzer, in this case the closing unit contains a serially connected key and a filter, the first and control of the UVD-1Y key inputs are connected respectively to the first output a control input circuit block, and the filter output is connected to vtorglm z.amykani terminal block.

The bandwidth of each filter from a pulse shape analyzer is -c

where F is the width

owls is - m

spectrum of the probe pulse., m is the number of power line supports, of which a damaged one is determined. In FIG. 1 shows a block diagram of the device; FIG. 2 - block diagram of the measurement unit; FIG. 3 is a structural diagram of an impulse wave form detector; in fig. 4 block diagram of the circuit.

The device contained the following: 1. Receiver 2, control unit 3, unit 4 Equip- ment, indicator “: Attached, sensor from current, 7 iag-alky-NI51; analyzer 3 aval zzR 9 pulses, 10 kndccc, 10 key, key 11; Elemen ;;; 12 selection of the maximum ;, Delia-al .13 heater 14 p. Detector 15 f key 1G, filter 17

The device works in the same way. To the ground wire of the overhead power line (OHL) through the element 5 of the connection are connected the output of the generator 1 and the input of the receiver 2 "

In the event of a short circuit on an overhead line, the short-circuit current runs across the support and is measured by the sensor :; b current. A sensor 6 current acts on the key 16 of the block 7 of the tykan's hall, which is triggered and a 3aifvrciKaeT cable to the cable or cable to the ground. ) and propagate along the VL. In the place where the closing unit 7 is located, an inhomogeneity of the impedance of the cable channel VL is formed, the pulses are reflected from this inhomogeneity and through the element. 5, the connections go to receiver 2, where they are processed and transmitted to unit 4 of measurements. In block 4 of measurements, they enter the time analyzer 8, where the time of double run to the damaged section is determined. The distance to the place of damage, proportional to the double run time, is displayed in the display element. 10. At the moments of time corresponding to the arrival of the reflected pulse, at the command of the time analyzer 8, the key is opened; the key is reflected from the place of damage, the pulses arrive in the analyzer 9 of the pulse shape. The closure unit 7 can be tuned either to transmitting or locking the 3 bandwidth of the given frequency band by filter 17. Due to the resonant tuning of the closure block 7, the spectral composition changes in the reflecting pulse, and when tuning for transmission, the maximum reflection of the frequencies to which the filter 17 is tuned occurs,

. The tuning frequency of the filters 17 on each VL support is individual, although it can be repeated at intervals longer than the probe pulse. In this case, the width of the frequency band increases,

diverted to each support, and the manufacture of filters 17 is simplified,

In the analyzer, 9 forms and mylco pulses go to m chains. At the input of each chain, a divider 13 is set, with which. the energy spectrum under study is aligned in accordance with the pulse shape. Each . the filter 14 has a frequency band corresponding to the width of the settings of the filter 17 mounted on the corresponding overhead line support,

The part of the pulse energy corresponding to the analyzed frequency band is detected by the detector 15 and all the bands are compared with each other in the maximum selection element 12.

The damaged support corresponds to the frequency band having the maximum level of energy (when tuning the filters 17 for transmission). Information about the support number is supplied to the display element 10,

In the display element 10, there was already a preliminary information about the site on which the damage occurred. Therefore, despite the fact that there are many filters 17 on BJI that have the same setting, the display element 10 clearly identifies the number of the damaged support (this operation can be performed using an encoder)

Preliminary determination of the damaged area, in which the number of the damaged support is then determined, is necessary to limit the frequency band of the probe pulse.

The advantage of the device, in comparison with the known, is that it has increased accuracy and can indicate the number of the damaged support, in addition, when tuning resonant blocks for transmission along the same cables, RF communication can be organized in the frequency band allocated for operation. the proposed device.

The device is connected to the cables, so the cost of the connection system is significantly lower than when connected to phase conductors. On ultra-long-haul overhead lines, it is possible to connect such a device at each amplifying section, thus ensuring that the damage location is determined by the same devices as in

ordinary overhead lines

Claims (4)

Claims 1. Device for determining the distance to the damage site power lines containing a control unit, the outputs of which are connected respectively to the generator and receiver, the output of which is connected to the measurement unit, the output the generator is connected to the receiver and through the connection element to the terminals for connection ob; .control, characterized in that, in order to increase accuracy and reliability, short-circuit current sensors and short-circuit current sensors are introduced into it, and the outputs of short-circuit current sensors loops connected to control inputs corresponding closure units, the first and second terminals of which are connected respectively with the first and second ground wire of the object of control. 2. The device according to claim 1, wherein the measurement unit comprises a time analyzer, a pulse shape analyzer, an indication element and a key, the input of the unit measurement is connected to the first key input and the time analyzer input, the first output of which is connected to the first input of the display element, the second time analyzer output is connected to the second key input, the output of which is connected to the second input of the display element through the pulse form analyzer. 3. A device according to claim 2, characterized in that the pulse shape analyzer contains an element vb: maximum burr and m chains, each of which contains a serially connected divider, filter and detector, with the input of each chain connected to the input of the pulse shape analyzer, and the output of each chain is connected to the corresponding input of the maximum selection element, the output of which is connected to the output of the pulse shape analyzer. 4. The device according to claim 3, wherein the closure unit comprises a key and a filter connected in series, and the key and control inputs of the key are connected respectively to the first output and the control input of the closing unit, and the filter output is connected to the second output of the closing unit. Information sources, taken into account in the examination 1. USSR author's certificate number 561912, cl. G 01.R 31/08, 1968. 2. USSR author's certificate number 559813, cl. B 24 V 31/00, 12.05.75.