SU1041965A1 - Device for locating short circuit in cable line - Google Patents

Abstract

A DEVICE FOR DETERMINING LOCATION PLACE IN CABLE LINE, containing parallel connected high voltage source and storage capacitor connected to the first terminals of the common fault of the device and the first terminal for connecting the cable line, induction and acoustic sensors connected to the first outputs of the first inputs of the first and the first the second amplifiers and the common bus device, the second outputs with the second inputs respectively the first and the first amplifiers connected by the first outputs with common bus device exits - with. corresponding 5 and R-inputs of the trigger, Q — the output of which is connected to the control input of the first switch connected by the nepBijM output to the common bus of the device, the second output from the first and the terminals of the indicator and the reference capacitor connected by the second output via a resistor to the device power bus, It is due to the fact that, in order to increase (the device’s performance, a periodic switch, a second switch, a charge element, a diode and a RAM capacitor connected in parallel to the discharge element and an indi the second output terminal is connected via a diode to the second output of the reference capacitor and to the first output of the second switch connected to the second output to the second output of the first call, the third output to the common ESC device, the input to the Q output of the trigger switch It is connected to the terminals of the high, voltage and storage capacitor, the second terminal is connected to the second lemma for connecting the cable line.

Description

The selection refers to the control of the measuring equipment and can be used to locate the damage to the cable line. A device for searching cable line faults is known, which contains a sensor, a generator, and combined receivers with indicators. The device’s disadvantage is Kizka. The accuracy of the detection of the closure due to the dependence of the acoustic signal on the contact conditions of the sensor with the ground and the possibility of simultaneous fixing On signals either visually or with the help of phones. The closest technical solution to the invention is a device for determining the location of a closure in a cable line, containing a parallel-connected high-apar source and a storage capacitor connected by first terminals to the common bus of the device and the first terminal for connecting the cable line, induction and acoustic sensors connected by the first outputs with the first inputs correspond to the first and second amplifiers and to the common bus of the device, the second outputs with the second inputs of the first and second o and the second amplifiers connected by the first outputs with the common bus device, the second outputs with the corresponding S and R inputs of the trigger, the Q output of which is connected to the control input of the first key connected with the first output of the device common bus, the second the output is with the first outputs of the indicator and the reference capacitor connected by the second output via a resistor to the power bus of the device 2j. A disadvantage of the known device is the low speed caused by the need to deploy and match the receiver operation with the voltage rise time on the cable during each measurement. The purpose of the invention is to increase the speed of the device. The goal is achieved by the fact that a device for determining the location of a circuit in a cable line, containing in parallel a high voltage source and a storage capacitor connected by first terminals to a common bus: the device and the first terminal for connecting a cable line, induction and acoustic sensors, is connected first outputs with the first inputs of the corresponding first and second amplifiers and with a common bus device, the second outputs with the second inputs of the first and second amplifiers The springs connected by the first outputs to the common bus of the device, the second outputs to the corresponding 5 and R inputs of the trigger, the Q output of which is connected to the control input of the first key connected by the first output to the common bus of the device, the second output to the first one. A periodic switch, a second switch, a discharge element, a diode and a main memory capacitor connected in parallel are inserted into the terminals of the indicator and the reference capacitor connected by the second lead through a resistor to the device power bus. the second output terminal is connected via a diode to the second output of the reference capacitor and to the first output of the second switch connected to the second output of the second output of the first switch, the third output to the common bus of the device, the input to the Q output of the trigger, and the first output of the periodic switch is connected to the second terminals of the high voltage source and the storage capacitor, the second terminal is connected to the second terminal for connecting the cable line. The drawing shows a block diagram of the device. The device contains high voltage source 1, storage capacitor 2, periodic switch 3, inductive 4 and acoustic 5 sensors, first b and second 7 amplifiers, trigger 8, first switch 9, resistor 10, reference capacitor 11, second switch 12, diode 13 , the memory capacitor 14, the indicator 15, the discharge element 16, the power bus 17 and the bus 18. The device operates as follows. After connecting the device to the damaged cable line, the high voltage source 1 charges the capacitor 2, after which the switch 3 operates, for example, made in the form of an arrester with increased breakdown voltage. When the switch 3 is triggered, a high voltage is applied to the cable line, and an electrical discharge occurs at the damage site. After the discharge, the capacitor 2 is charged again and the described process repeats, ensuring the occurrence of periodic. bits in the place of damage. At each discharge, an electromagnetic wave propagates along the cable line, and a sound wave arises at the site of damage. The electromagnetic wave is sensed by induction sensor 4, and through silica gel 6, the signal is fed to the input of static trigger 8, transferring it to the second steady state, which opens the pulse key 9, and through the resistor 10, having resistance, the charge of the reference capacitor 11 begins , the immanent capacitance of the SC, and the capacitor 14 RAM. The parameters of the charging circuit are chosen in such a way that the charging current is practically constant (the charging time is 1 sB | lC74 and the voltage on the capacitor 11 (14) is proportional to the charging time — g c-iJ. 4i J h.Sonic wave has several orders of magnitude slower propagation velocity (V} 9) than electromagnetic and therefore comes with a delay of time t to cover the distance (7 points of damage to sensors 4 and 5. This wave is sensed by sensor 5 and through amplifier 7 translates trigger 8 to the first steady state, and the key E is closed. The voltage on the capacitors 14 and 11 and the indicator 15 are proportional to the distance to the fault V3r-VnH / (R ,. (2) In order to avoid the accumulation of an error during subsequent measurements, simultaneously with the closure of the key 9, the capacitor 11 with a switch 12, made, for example, in the form of an optocoupler. However, the indications of the indicator 15 are preserved, since during the discharge the diode 13 is closed by the reverse voltage of the memory capacitor 14. During subsequent discharges, the device works angrily and only s a plurality of capacitor RAM memory 14, and indicator 15 shows the average distance to the fault based on the results of a large number of measurements. In order to eliminate the error from a single unmeasured measurement, correct readings during subsequent measurements, and take account of the operator's movement along line 19 in the process of searching for a closure, the device is equipped with a discharge element 16 with a constant time equal to 2-3 periods of periodic switch 3. Thus, the introduction a periodic cock switch 3, a key 12, a diode 13, a capacitor 14, a discharge element 16, allows to determine the location of damage to the cable line 19 automatically. At the rate of work of the periodic switch 3, which increases the speed odeystv-s device as well as due to the possibility of the closure of a large number of measurements and finding the average value increases the accuracy of the result.

Claims (1)

DEVICE FOR DETERMINING THE LOCATION OF CIRCUIT IN A CABLE LINE, containing in parallel connected high voltage source and storage capacitor connected by the first terminals to the device common bus and the first terminal for connecting the cable line, induction and acoustic sensors connected by the first outputs to the first inputs of the corresponding first and second amplifiers and with a common device bus, the second outputs - with the second inputs of the first and second amplifiers, respectively, connected first- ^! with outputs with a common device bus; second outputs - with. the corresponding S and R inputs of the trigger, Q - the output of which is connected to the control input "* of the first key connected by the first terminal to the device common bus, the second * terminal with the first terminals of the indicator and this capacitor connected by the second terminal through the resistor to the power bus devices a, with the exception of the fact that, in order to improve the performance of the device, a periodic switch, a second key, a discharge element, a diode and a RAM capacitor connected in parallel with the discharge element are introduced into it indicato y, the second output of which is connected via a diode to the second output of the reference capacitor and to the first output of the second key connected by the second output to the second output of the first key, the third output to the device common bus g, the input to the Q output of the trigger, and the first output of the periodic switch connected to the second terminals of the source of high voltage and storage capacitor? torus, the second terminal is connected to the second terminal for connecting the cable line. 1041965 '