RU2744035C1 - DEVICE FOR DETECTING DAMAGED SECTION OF OVERHEAD ELECTRIC LINE WITH SUBBRANCES IN 6-35 kV DISTRIBUTION NETWORK - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to the field of electrical engineering and power systems engineering and can be used to determine the location of damage in overhead electric lines with subbranches in the distribution network with a voltage of 6-35 kV. Essence is that the device for determining the damaged section of the overhead power transmission line with subbranches in the medium voltage distribution network contains in each of the phases of the overhead power transmission line with subbranches the current sensors and indicators of the subbranches, as well as means for radio communication with the receiver installed at the substation.The device contains a zero sequence voltage relay, a fault-phase selection detector, three “AND” elements, one “OR” element, two single-phase switches and a resistor. The zero sequence voltage relay input is connected to the zero sequence voltage output of the voltage transformer installed on the substation switchgear bus bars, whereas the output is connected to the first inputs of the first, second and third "AND" elements. The faulty phase selector inputs are connected to the secondary phase circuits of the voltage transformer installed on the switchgear bus bars of the substation. Outputs of phases A, B and C of the faulty phase selector are connected to the second inputs of the first, second and third elements of the “AND” element, respectively. The outputs of the first and second “AND” elements are connected to the first and second inputs of the “OR” element, respectively. The output of the "OR" element is connected to the controlled input of the first switch. The output of the third "AND" element is connected to the controlled input of the second switch. One of the inputs of the first switch is connected to phase C of the substation switchgear. One of the inputs of the second switch is connected to phase A of the substation switchgear. Other inputs of the first and second switches are combined and connected to the first input of the resistor.The second input of the resistor is grounded.EFFECT: increased reliability of operation due to the current input into the undamaged phase of the overhead electric line (OEL) with single phase-to-ground fault protection (SPGFP), sufficient to trigger the phase fault indicators.1 cl, 1 dwg

Description

The claimed invention relates to the field of electrical engineering and power engineering and can be used to determine the location of damage in overhead power transmission lines (OHL) with branches in a 6-35 kV electrical distribution network.

Known is a device for determining a damaged section of an overhead power transmission line with branches in a medium voltage distribution network, containing in each of the phases of an overhead power transmission line with branches current sensors and current indicators of branches extending from a branch support, transceivers installed on the same branch supports, and a receiver, installed at the substation in the switchgear of the medium voltage distribution network, and the current sensor of the corresponding phase of the corresponding branch section adjacent to the corresponding branch support is connected to the current indicator of the corresponding phase of this branch section, the outputs of the current indicator of each of the phases of the OHL branch sections are connected to the receiving input of the transceiver installed on the same branch support, the transmitting output of the transceiver is connected via a radio communication channel with the receiver installed at the substation in the switchgear of this switchgear medium voltage transmission network (RF patent for useful model No. 126144. A device for determining the location and type of damage to an overhead power line; declared 06/07/2012; publ. 03/20/2013.)

The disadvantage of this device is low reliability due to the impossibility of determining a single-phase earth fault (OZZ) of phases A, B or C of an overhead power transmission line in network operating modes with a compensated neutral, when due to the resonance of currents of the equivalent network capacity and an arc suppression reactor installed in the neutral of the network in phases of the overhead line there will be practically no currents.

The technical result, the achievement of which the proposed technical solution is aimed at, is the input of current into the undamaged phase of the overhead transmission line with the OZZ, sufficient to trigger the phase failure indicators.

The technical result is achieved by the fact that in the Device for determining the damaged section of the overhead power transmission line with branches in the medium voltage distribution network, containing in each of the phases of the sections of the overhead power transmission line with branches current sensors and current indicators of branches extending from the branch support, and transceivers installed on the same branch supports, and a receiver installed at the substation in the switchgear of the medium voltage distribution network, and the current sensor of the corresponding phase of the corresponding branch adjacent to the corresponding branch support is connected to the indicator of the corresponding phase of this branch section, the indicator outputs of each of the phases of the branch lines of the overhead line connected to the receiving input of the transceiver installed on the same branch support, the transmitting output of the transceiver is connected via a radio communication channel to the receiver installed at the substation in the distribution device of this medium voltage distribution network, to increase the reliability of operation, a zero-sequence voltage relay, a faulty phase selector, three (according to the number of phases) "AND" elements, one "OR" element, two single-phase switches and a resistor are introduced, and the input of the zero-sequence voltage relay is connected to the zero sequence voltage output of the voltage transformer installed on the buses of the switchgear of the medium voltage distribution network substation, and the output to the first inputs of the first, second and third "I" elements, the faulty phase selector inputs are connected to the secondary circuits of the voltage transformer phases installed on the buses of the switchgear of the medium voltage distribution network substation, the output of phase A of the faulty phase selector is connected to the second input of the first element "I", the output of phase B of the selector of damaged phases is connected to the second input of the second element "I", to the second input of the third element that "AND" is connected to the output of phase C of the selector of damaged phases, the output of the first of the elements "AND" is connected to the first input of the element "OR", the output of the second from the elements "AND" is connected to the second input of the element "OR", the output of the element "OR" is connected to the controlled input of the first switch, the output of the third of the “I” elements is connected to the controlled input of the second switch, one of the inputs of the first switch is connected to phase C of the substation switchgear of this medium voltage distribution network, one of the inputs of the second switch is connected to phase A of the substation switchgear of this medium voltage distribution network, the other inputs of the first and second switches are combined and connected to the first input of the resistor, while the second input of the resistor is grounded.

The essence of the invention is illustrated by a drawing, which shows a device for determining a damaged section of an overhead power transmission line with branches in a 6-35 kV medium voltage distribution network.

In the device, the corresponding sensor 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3, 1A4, 1B4 or 1C4 of the current of the corresponding phase (A, B or C) of the corresponding branch adjacent to the corresponding branch support is connected to the corresponding indicator 2A1, 2B1, 2C1, 2A2, 2B2, 2C2, 2A3, 2B3, 2C3, 2A4, 2B4, 2C4 of the current of the corresponding phase (A, B or C) of this section, the outputs of the corresponding indicators 2A1, 2B1, 2C1, 2A2, 2B2, 2C2 , 2А3, 2В3, 2С3, 2А4, 2В4, 2С4 of the current of each of the phases of the branch line of the overhead line are connected to the receiving input of the corresponding transceiver 3 'or 3' ', installed on the same branch support, the transmitting output of the transceivers 3' and 3 '' is connected via the channel radio communication with the receiver 4 installed at the substation in the switchgear 5 of this medium voltage distribution network, the input of the zero sequence voltage relay 6 is connected to the zero sequence voltage output of the voltage transformer 7 installed on the distribution buses th device of the substation of the medium voltage distribution network, and the output to the first inputs of the first 8, second 9 and third 10 elements "I", the inputs of the selector 11 of the damaged phases are connected to the secondary circuits of the phases of the voltage transformer 7 installed on the buses of the switchgear of the substation of the medium voltage, the output of phase A of the selector 11 of damaged phases is connected to the second input of the first 8 element "I", the output of phase B of the selector 11 of damaged phases is connected to the second input of the second 9 element "I", the output of the phase is connected to the second input of the third element 10 of the element "I" With the selector 11 damaged phases, the output of the first 8 of the "AND" elements is connected to the first input 12 of the "OR" element, the output of the second 9 of the "AND" elements is connected to the second input 12 of the "OR" element, the output 12 of the "OR" element is connected to controlled input of the first 13 switch, the output of the third 10 of the "AND" elements is connected to the controlled input of the second 14 switch, one of the inputs of the first 13 will turn off spruce is connected to phase C of the switchgear 5 of the substation of this medium voltage distribution network, one of the inputs of the second 14 switch is connected to phase A of the switchgear 5 of the substation of this medium voltage distribution network, the other inputs of the first 13 and second 14 of the switch are combined and connected to the first input 15 resistor, the second input of the resistor 15 is grounded.

The device works as follows.

All current sensors 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3, 1A4, 1B4, 1C4 are pre-numbered, which is reflected in the signal code transmitted from indicators 2A1, 2B1, 2C1, 2A2, 2B2, 2C2, 2A3, 2B3, 2C3 or 2A4, 2B4, 2C4 current into transceivers 3 'and 3' '.

In normal operation of the medium voltage network, including when switching network switches, as well as during short circuits (short circuits) external to the place of installation of sensors 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3 or 1A4, 1B4, 1C4 current, no operation of indicators 2A1, 2B1, 2C1, 2A2, 2B2, 2C2, 2A3, 2B3, 2C3 or 2A4, 2B4, 2C4 current occurs due to their detuning from operation in these modes, and therefore transceivers 3 'and 3' 'do not transmit signals to the receiver 4. At the same time, at the output of the zero sequence voltage relay 6 connected to the zero sequence voltage output of the voltage transformer 7 installed on the busbars of the switchgear of the medium voltage distribution network substation, and at the selector outputs 11 no signals are generated from damaged phases. Therefore, the resistor 15 is not connected to the medium voltage network through switches 13-14 using elements 8-10 "AND" and element 12 "OR".

In the event of a short circuit on any of the branches, the fault current flows from the buses of the switchgear 5 of the substation of this medium voltage distribution network in the direction of this short circuit through those sensors 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3, 1A4, 1B4 or 1C4 current, which are included in the circuit of the flow of this current. In this case, the indicators 2A1, 2B1, 2C1, 2A2, 2B2, 2C2, 2A3, 2B3, 2C3, 2A4, 2B4 or 2C4 of the current, connected respectively with sensors 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3, are triggered , 1A4, 1B4 or 1C4 current. As a result, a coded signal corresponding to the number of the corresponding sensor 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1B3, 1C3, 1A4, 1B4 or 1C4 current is received at the receiving input of transceivers 3 'and 3' '. With a two-phase short circuit on a branch with sensors 1A1, 1B1 and 1C1, for example, phases B and C, current indicators 2B1, 2C1, 2B3 and 2C3 are triggered, and with three-phase K3, current indicators 2A1, 2B1, 2C1, 2A3, 2B3 and 2C3, and the signal from the transceivers 3 'and 3' 'is transmitted via a radio communication channel to the receiver 4 installed at the substation in the switchgear 5 of this medium voltage distribution network. In the receiver 4, the decoding of the encoded signal takes place, which makes it possible to determine the branch with damage.

With a single-phase earth fault on the branch of the overhead power transmission line of the medium voltage distribution network, the OZZ current flowing through the corresponding sensors 1A1, 1B1, 1C1, 1A2, 1B2, 1C2, 1A3, 1V3, 1C3, 1A4, 1B4 or 1C4 current may be insufficient for actuation of indicators 2А1, 2В1, 2С1, 2А2, 2В2, 2С2, 2A3, 2В3, 2С3, 2А4, 2В4 or 2С4 current connected to the same sensors 1А1, 1В1, 1С1, 1А2, 1В2, 1С2, 1А3, 1В3, 1С3, 1A4, 1B4 or 1C4 current. However, at the same time, at the output of the zero sequence voltage relay 6 connected to the zero sequence voltage output of the voltage transformer 7 installed on the busbars of the switchgear of the medium voltage distribution network substation, and at the output of the faulty phase selector 11, which selects the damaged phase from the OZZ, signals are generated that provide triggering of one of the elements 8-10 "AND" (when the elements 8 or 9 "AND" are triggered, the element 12 "OR" is also triggered), followed by connecting the resistor 15 to the medium voltage network through one of the switches 13-14. For example, in the case of phase A OZZ on the branch with sensors 1A1, 1B1 and 1C1 of the current of the overhead power line, the selector of 11 damaged phases selects phase A and with the help of the first 8 of the "AND" elements and 12 of the "OR" elements, a control signal is sent to the connection between the distribution buses devices 5 of the substation of this medium voltage distribution network and ground through the switch 13 to phase C of the resistor 15 network. Connecting the resistor 15 between the buses of the switchgear 5 of the substation of this medium voltage distribution network and the ground leads to an increase in the OZZ current flowing through the current sensors 1A1 and 1A3, sufficient for reliable operation of the current indicators 2A1 and 2A3 connected to the same current sensors 1A1 and 1A3, and transmission through the transceivers 3 'and 3' 'of information about the damage on this branch.

Thus, it is possible to determine the damaged branch in all modes of grounding of the neutral of the network.

The resistance value of the resistor is selected from the condition of non-operation of the overhead line current protection when creating a sufficient current level for the reliable operation of the current indicators.

It should be noted that the batteries for sensors, indicators and transceivers are capable of receiving power both directly from the network and from batteries with solar batteries.

Claims (1)

A device for detecting a damaged section of an overhead power transmission line with branches in a medium voltage distribution network (6-35 kV), containing in each of the phases of the sections of an overhead power transmission line with branches current sensors and current indicators of branches extending from the branch support, and transceivers installed on these the same branch supports, and a receiver installed at the substation in the switchgear of the medium voltage distribution network, and the current sensor of the corresponding phase of the corresponding branch adjacent to the corresponding branch support is connected to the indicator of the corresponding phase of this branch section, the indicator outputs of each of the phases of the branch sections of the overhead line are connected with the receiving input of the transceiver installed on the same branch support, the transmitting output of the transceiver is connected via a radio communication channel with the receiver installed at the substation in the switchgear of the given distribution th medium voltage network, and characterized in that to increase the reliability of operation, a zero-sequence voltage relay, a faulty phase selector, three (according to the number of phases) elements "AND", one element "OR", two single-phase switches and a resistor are introduced into the device, and the input of the zero sequence voltage relay is connected to the output of the zero sequence voltage of the voltage transformer installed on the buses of the switchgear of the substation of the medium voltage distribution network, and the output to the first inputs of the first, second and third elements "I", the inputs of the faulty phase selector are connected to the secondary circuits of the phases of the voltage transformer installed on the buses of the switchgear of the medium voltage distribution network substation, the output of phase A of the selector of damaged phases is connected to the second input of the first element "I", the output of phase B of the selector of damaged phases is connected to the second input of the second element "I", to the second input of the third ale the output of the phase C of the faulty phase selector is connected, the output of the first of the AND elements is connected to the first input of the OR element, the output of the second of the AND elements is connected to the second input of the OR element, the output of the OR element is connected to the controlled input of the first switch, the output of the third of the “I” elements is connected to the controlled input of the second switch, one of the inputs of the first switch is connected to phase C of the substation switchgear of this medium voltage distribution network, one of the inputs of the second switch is connected to phase A of the substation switchgear of this medium voltage distribution network, the other inputs of the first and second switches are combined and connected to the first input of the resistor, while the second input of the resistor is grounded.

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