SU945827A1 - Device for locating short-circuits in cable articles - Google Patents

Description

one

The invention relates to electrical insulating equipment and can be used to create devices for determining the location of short circuits in power cables and communication cables by induction.

A device for burning a defective insulation is known, comprising a high voltage source, a low voltage source that is connected to the damaged core, and a relay for disconnecting the twisted source and even during the insulation breakdown at the damage site. This device allows a defective insulation to be burned by a high voltage source with pickup from an unregulated low voltage source Lll.

The disadvantage of this device is that after the high voltage source is disconnected, the rectified current flows through the conductors with a smoothed ripple, which creates a constant magnetic field, and this does not help to apply the induction method to the damage location.

The closest to the technical essence of the invention is a static electromagnetic frequency generator for finding fault points in overhead and cable lines, which contains a transformer with two secondary windings, one secondary winding connected to damaged conductors through a high-voltage rectifier and serves to burn the insulation in the place of damage, and the other winding is connected to the same conductors through a capacitor containing a resonance in one of the higher

15 voltage harmonics with a frequency of 50 Hz, which ensures the flow of a higher harmonic current in the damaged cores, allowing the induction method to be used to detect the damage sites.

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Claims (2)

However, the known device is not controllable and generates a pulsating current with a VO Hz frequency. The uncontrollability of the generator does not allow 394 to establish the magnitude of the current in the damaged cores, providing the necessary signal level for the inductive method of searching for the place of damage. The occurrence of interference to a higher harmonic signal is explained by the presence of a permanently connected source of travel current with a frequency of 5 Hz, which serves only to burn the insulation at the site of damage, and also to the fact that this source is connected to an almost short circuit occurring after burning the isolator damage in place. The purpose of the invention is to increase the efficiency and effectiveness of finding places of short circuits by contactless automatically connecting a high voltage source to damaged wires when an accidental contact breaks and automatically disconnects after the contact is restored at the site of damage, as well as regulating the pulsed current with a frequency of 10 Hz in damaged conductors from a low-voltage source. The goal is achieved by the fact that a device for finding fault points in cable products containing a transformer with low-voltage and high-voltage secondary windings, the first pin of the high-voltage winding is connected to the high-voltage rectifier anode, two thyristors, a current relay, a resistor, a diode, an ammeter, two control units, the cathode of a high-voltage rectifier connected to the first of the resistor, the second terminal of which is connected to The first thyristor, the cathode of which is connected to the input of the first control unit and the terminal for connecting the test object, is connected to the output of the first control unit through a current relay contact to the control electrode of the first thyristor. The first and second terminals of the low-voltage secondary winding are connected to the first and second terminals, respectively. full-wave rectifier, the third output of which is connected to the ground bus, and the fourth output is connected to the first output terminal of the ammeter, the second output of which is connected to the anode of the second type stories, the cathode of which is connected to the inputs of the current relay and the second control unit, whose output is connected to the control electrode to the CIM BTOfroro thyristor, and the current relay output is connected to the anode of a diode, the cathode of kotoro7 connected to a terminal for connecting a control object. The drawing shows a diagram of the proposed device. The device contains a current source of 1OO Hz frequency, consisting of primary winding 1, secondary low-voltage winding 2, full-wave rectifier 3, ammeter 4, low-voltage thyristor 3, control unit 6, current relay 7, diode 8, secondary high-voltage winding 9, high-voltage rt the driver 10, the high-voltage thyristor 11, the control unit 12, the resistor 13 and the contact 14. The output of the device is connected to the control object. The device works as follows. When the output of the device is connected to the control object, a pulsating unipolar current with a 1OO Hz pulsation frequency from the full-wave rectifier 3 flows through them, creating a pulsating magnetic field around the cable. The required current is set by adjusting the unlocking angle of the thyristor 5 controlled by the control unit 6. Current relay 7 operates at the minimum required current value and, by its minimum closed contact 14, disconnects the control electrode of the thyristor 11 from the control unit 12. In this case, the thyristor 11 is closed and the high voltage is disconnected from the damaged cores. When the contact breaks at the damage site, for example, when the cable is rewound from drum to drum during the search for damage, the current from full-wave 3 is stopped, the current relay 7 is de-energized and using contact 14 connects control unit 12 high voltage thyristor electrode 11. The thyristor 11 is opened, and high notice is applied to damaged cores. An arc arises at the damage site, and at the same time catching up the arc, the current from the full-wavelength detector 3 flows. When the minimum required current is reached, the current relay 7 is activated, through contact 14 it turns off the thyristor 11 and the high voltage from the damaged cores is turned off. This cycle is repeated every time the contact is broken in the process of searching for locking points in cable products. During insulation breakdown at the site of damage, resistor 13 limits the amount of current in the high winding coil 9. Diode 8 protects current relay 7, thyristor 5, ammeter 4, full-wave rectifier 3 and winding 2 from high voltage during insulation breakdown in the place of damage, as it is connected in the opposite direction with a high-voltage terminal 10 and a high-voltage thyristor 11. The appearance of the current pool and its magnitude is controlled by an ammeter 4. At the same time, the high-voltage and low-voltage sources are connected to the damaged veins and the same polarity. Thus, in the process of searching for a place of damage, only the pulsating current from the low-voltage full-wave rectifier 3 flows in the cores, and the high-voltage winding 9 is disconnected by the thyristor 11. The proposed device allows, through one connection of its output to the damaged cores, to burn the defective insulation to full contact between them, the automatic contactless shutdown of high burning voltage and provides the necessary amount of pulsating current in the damaged cores, creating sufficient. the magnitude of the pulsating magnetic field of the VOFUG cable, taking into account its design parameters, namely, the twist pitch, the number of veins in the twist of the insulation thickness, the screen efficiency and the position of the veins in the twist. In addition, switching off the high voltage supra mitep 10 in the process of searching for places allows one to get rid of its own interference at a frequency of 5 Hz. The invention allows for quick and accurate determination of the location of the jamming, which improves the performance and efficiency of the search for mass production of cables, while greatly simplifying the maintenance of the device. 7 claims An apparatus for locating fault locations in cable products, comprising a transformer with low-voltage and high-voltage secondary windings, the first terminal of the high-voltage winding is connected to the anode of the high-voltage rectifier, and the second terminal is with a grounding bus, characterized in that, in order to increase efficiency and the effectiveness of the search for places of short circuits, a full-wavelength amplifier, two thyristors, a current relay, a resistor, a diode, an ammeter, two control units, and a high-voltage rectifier cathode connected to the first terminal of the resistor, the second terminal of which is connected to the anode of the first thyristor, the cathode of which is connected to the input of the first control unit and the terminal for connecting the test object, the output of the first control unit is connected via a current relay contact to the control electrode of the first thyristor, first and second terminals the low-voltage secondary winding is connected respectively to the first and second terminals of the full-wave rectifier, the third output of which is connected to the grounding bus, and the fourth to the first output ampere pa, the second terminal of which is connected to the anode of the second thyristor, the cathode of which is connected to the inputs of the current relay and the second control unit, the output of which is connected to the control electrode of the second thyristor, and the output of the current relay is connected to the anode of the diode, the cathode of which is connected to the terminal for connecting the object control Sources of information taken into account in the examination 1. USSR author's certificate number 572729, class, GOIR 31 / 1О, 09.28.78. 2. USSR author's certificate, No. 262262, cl. GO1 R 31/08, 1970.