SU752200A1 - Device for determining location of damages in cable lines - Google Patents

Description

and the output of which is connected via a threshold element to the first input of the first logical element AND and to the inputs of the first logical element NOT, the output of which is connected to the first VHOL10M second logical element AND, the second input of which is connected to the outputs of the pulse counter, the output of which is connected to the first amplifier the input of the control unit, the output of which is connected to the first input of the current regulator, the output of which is connected to the first input of the current sensor, the output of which is connected to the second input of the control unit and the input of the second of the logical element NOT, the second input of the control unit is connected to the first input of the switch, the output of which is connected by the second electrode of the arrester, and the second input of which is connected to the first input of the current regulator, the second input of which is connected to the input of the controlled switch and the first input of the pulse counter, the second which is connected to the output of the first logical element And, the second input of which is connected to the output of the second logical element NOT, the input of which is connected to the control input of the controlled contactor, the output of which a source input connected to a constant current.

The drawing shows the block diagram of the device.

The circuit contains a constant current source /, a contactor 2 with a control unit 3, a capacitor 4, a surge voltage detector 5, a cable 6, an acoustic sensor 7, an amplifier 8, a converter 9, a switch 10, a current controller //, a current sensor 12, a sensor 13, the threshold element 14, the elements NOT 15 and 16, the elements And 17 and 18, the pulse counter 19, the amplifier 20, the control unit 21 of the current regulator // and the switch 10.

. The DC source / is connected to the mains through the contactor 2 and through the discharge voltage 5 is connected to the damaged core (cable 6. The capacitor 4 is connected to the DC source by one output and the other side is connected to the ground line The current regulator 11 VI switch 10 is connected to the damaged cable core, which serve to destroy the spa seat with the cable jacket as a result of the passage of a large current through the damaged cable.

 To control the process of switching on the current regulator 11 and the switch 10, the logic elements HE 15, HE 16 and 17, AND 18 and the corresponding sensors 12 and 1/5 are enclosed. The current sensor 12 in the circuit of the current regulator i // controls its current value, the output of which is connected by the input element HE 16, the control unit 21 and the switch 10 and the control unit 3 by the contactor 2. The voltage sensor 1/5 controls the voltage and KriHnPHfaTnnp 4 kptppr HPV CHPYAGTYaRT

Over time by the exhibitor. The output of the sensor 13 is connected to the input element And 17 through the threshold element 14 and the element. NOT 15.

5 A pulse counter 19 is connected to the AC source and is used to form a command to connect the current regulator 11 at certain time intervals.

 The output of the pulse pulse 19 is connected to the input of the element And 17, and the output of this element is connected to the input of the amplifier 20, the output of which is connected to the input of the control unit 21. The element And 18 has two inputs connected to the threshold element 14 and the element 16, and the output of the element And connected to the counters 19, producing a reset.

The device works as follows.

When the contactor 2 is turned on from the control unit 3, a constant thin / charged source of the capacitor 4 is applied to a voltage at which a discharge gap occurs.

5 5 A high voltage pulse of the order of 1-5 kV passes through a circuit of a damaged conductor - a sheath of cable 5 and in the place of disturbance of the insulation of a wire the impulse creates characteristic sound vibrations, which

0 is captured by sensor 7 through amplifier 8 and converter 9. High voltage pulses pass through the cable at a low frequency due to the large constant charging time of the capacitor 4.

5 At the time of discharge of the capacitor 4 to the input of the logical element And / 7, a signal is output from the element NE, 15. However, when the output of the element And 17 signal is equal to zero, since the second input of this element 17 signal

0 is absent due to the non-filling of the pulse counter 19. Therefore, the signal does not enter the control unit 21, hence the current controller 11 and the cummutator 10 are off.

45 After filling the last discharge of the counter with 19 pulses from the power source, a signal arrives at its output, arriving at the input of element And 17. After discharge of the capacitor 4 and the absence of a signal

50 at the input of the sensor voltage J- from the output of the element NOT 15 will receive a signal to another input of the element 17, which opens, from its output a signal will go to the amplifier 20 and to the input of the control unit 21.

55 The current regulator 1.1 and switch 10, including 1 | SCHI | CH, are supplied by the power supply from the powerful EI source, which is connected to the damage of the QV 6 wire. The magnitude of this voltage is 1 or 2 times a pulse (Capacitor 4, and the frequency 1Compatible (Vinno on .pore dock is higher. Therefore, during the charge of the co-ordinator 4), the injured vein of 1CAB 5 will receive several pulses from the current repeater. If there are about 65 pptt.and people and ol eii in place -three

the cores of the Ka-Bel 6 remained sufficiently high, the TiO current would have a negligible value and correspondingly 1C1; a signal from the current sensor 12 would be insufficient to activate the control unit 3, 21 and the element NOT from whose output the signal goes to one of the inputs element E 18. After / after the charge of the condo.noato; pa 4 of the voltage gauge 13 through the rotary element 14, the signal noiCTypit to another input of the element I 18, from the output of which the signal goes to the input of the counter Ii9, 11, roizvo (D- its overgrown in the zero position.

At the output of the element 17, the signal receives a zero signal, the current controller}, 1 and the switch 10 are turned off. Through the discharge 5 noiCTyinaeT "the pulse of voltage applied to the damaged conductor of the cable 6, and the PROCESEOS; W, 0 | p.

Let us say that the insulation in the place of the damage to the core was finally damaged and the splicing of the cable with the cable sheath occurred. In this case, Kymmutatar 10, when turned on, drops through current regulator 1 (1 across the core and sheath of cable 6, a current of 150 -300 A, which is maintained at a predetermined level in accordance with the current feedback signal from sensor 12.. Contactor 2 turns off 1s, removes the voltage from the DC source. Element I 18 remains in a disabled state in a junction with no output signal from the HE element 16, and therefore the pulse counter: 19 is not obry -r zero position. in | belt.and (no more than 3 minutes) place 1sla core with shell is destroyed, the resistance at the site of damage to the core increases, the current of the core decreases sharply, therefore the current controller 11 is switched off, the switch JO, the counter 19 is reset to the zero position. The contactor 2 is switched on and from the current source begins to generate a capacitor 4. high voltage impulses arriving at the cable core 6.

In this way, the whole process of finding the place of damage to the k.bel is to alternate the supply of high-voltage pulses from a DC source, in one of the pauses between these pulses, to turn on the AC power source.

The introduction of elements — a current controller, a switch, logic elements, an impulse counter, current sensors, and voltage sensors — will significantly increase the reliability of installation and production in the pond when searching for a damage site in a cable mode. how the permanent control of the insulation of the damaged gland is used.

Formula. And ZEN Eten and

Device for determining the location of damage in the cable. .ini x .gtr ..

The main source is a current source, the first pole of which is connected to the common tire, to which the first capacitor is connected, the second lining of which is connected to the second pole of the direct current source and the first electrode of the racter, the second electrode of which is connected to the damaged a residential cable, the shell of which is connected to a common cable, an acoustic sensor whose output through the first amplifier is connected to an indicator, characterized in that, in order to increase the reliability of the device and reduce costs, and to search for damage, a controlled contactor, a switch, a current controller, a current sensor, a voltage sensor, a threshold element, the first and second loop elements NOT, the first and second loop elements AND, a pulse meter, a second amplifier, a control unit, the second pole of the source of a constant current connected to the first input of the sensor, voltage, the second input of which is connected to the common length, and the output of which through the threshold element is connected to the first inputs of the first logical element And and the input of the first logical NOT element (KOTOtporo output is connected to the first input of the second logical

element And, the second input of which is connected to the outputs of the pulse generator, and whose output is connected via the second amplifier to the first input of the control unit, the output of which is connected to the first input of the current regulator, the output of which is connected to the first (current INPUT, output. which is connected to the second input of the control unit, and the input of the second logical element NOT, the second input of the control unit is connected to the first input of the switch, the output of which is connected to the second electrode of the arrester, and the second input to which is connected l torus current, a second input connected to the input .kyutorogo controllably 1kom1mutatora and the first input of the pulse counter, 1vtoroy input coupled to an output of the first A | OPicheskogo AND gate, a second input (which is connected .s output of the second logic element

NOT whose input is connected to the control 1 input of the controlled contactor, the input of which is connected to the input of the DC source.

Sources of information taken into account in the examination:

1.V. V. Platonov. Instruments for detecting damage in seded cable

LI.NIIH ,,, M., “Energii, 1072, p. 140-155 (anal.og).

2. Reference book of electrical installation, M., “Energy, 1976, p. 108-109 (prottttgt

Claims (1)

Claim A device for determining the location of damage. In cable lines, sopep-zh.-. a direct current source, the first pole of which is connected to a common bus, to which the first capacitor plate is connected, the second plate of which is connected to the second pole of the DC source and the first spark gap electrode, the second electrode of which is connected to the damaged core of the test cable, the sheath of which is connected to a common bus, an acoustic sensor, the output of which through the first amplifier is connected to an indicator, characterized in that, in order to increase the reliability of the device and reduce costs, time is required damage, a controllable contactor, a switch, a current regulator, such a sensor, a voltage sensor, a threshold element, the first and second logical elements NOT, the first and second logical elements AND, the pulse counter, a second amplifier, a control unit, the second pole being introduced a constant source such is connected to the first input of the voltage sensor, the second input of which is connected to a common bus, and the output of which through a threshold element is connected to the first inputs of the first logical element AND and the inputs of the first logical element NOT. the path of which is connected to the first input of the second logical element AND, the second input of which is connected to the outputs of the pulse counter, and the output of which is connected through the second amplifier to the first input of the control unit, the output of which is connected to the first input of the current regulator, the output of which is connected to the first such a sensor input, the output of which is connected to the second input of the control unit, and the input of the second logic element is NOT, the second input of the control unit is connected to the first input of the switch, the output of which is connected to the second electrode p zryadnika, and the second input of which is connected * yen to the first input of the current regulator, the second input of which is connected to the input of the controlled -commutator and the first input of the pulse counter, the second input of which is connected to the output of the first logical element AND, the second input ( which is connected to the outputs of the second logic element NOT, the input of which is connected to the control input of the controlled contactor, the output of which is connected to the input of the DC source.