SU855833A1 - Device for differential directional protection of parallel power transmission lines with adjacent phases of networks - Google Patents

Description

(54) DEVICE FOR DIFFERENTIAL DIRECTED PROTECTION OF PARALLEL ELECTRIC TRANSMISSION LINES WITH NEXT CIRCUIT PHASES

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The invention relates to electrical engineering and can be used to protect two-chained transmission lines with closely spaced circuit phases.

A device for differential directional protection of parallel power lines is known, comprising three current relays connected to the difference of currents of the same phases of the lines, three power direction relays and two intermediate relays 1.

A disadvantage of the known device is the low sensitivity, determined by the need to adjust the transformers from the errors

current.

The closest in technical essence to the present invention is a device for differential directional protection of parallel power lines, which contains a set from symmetrical damages and a set from asymmetric damages. The set from asymmetric damages is supplied with a ferromagnetic current transducer, the three primary windings of which are connected in a zigzag, a fourth into a neutral wire. The set from this "short circuit" circuit contains a ferromagnetic current transducer, the primary windings of which are connected in a star. The primary windings of the transducers of both half-conductors are connected to the difference of currents of the same phases of the protected line. The secondary windings of both converters are connected in a sequential manner into an open triangle. The device also contains a ferromagnetic voltage converter and several intermediate transformers necessary to form the input quantities for

15 power direction relays 2.

However, when it is used to protect transmission lines with approaching phases of the circuits, during operation with an angle of regulation of the voltage between the phases & O, the primary windings of the transducers are connected to the difference of the currents of phases A and A, B and B, C and C / a in mode c b 120 they are turned on to the difference

Claims (2)

25 currents of phases A and B, B and C, C and A, i.e. In the normal mode, a current flows from the windings of the converters, from which it is necessary to rebuild the kit from symmetrical damage. This circumstance limits the sensitivity of the device. The purpose of the invention is to increase the sensitivity. This goal is achieved by the fact that the known device for differential directional protection of parallel power lines with approximate phases of circuits, contains six current transformers included in the phases of protected lines, four intermediate current transformers, a ferromagnetic frequency tripler with input windings, connected to zero output, and zigzag output windings connected in an open triangle, three full-wave rectifier bridges and three p Barely, while three intermediate current transformers are connected between the leads of the secondary windings of the current transformers of the first line connected to a star and the tripler inputs, the fourth intermediate current transformer is connected between the neutral of the secondary windings of the current transformers of the first line and the tripler zero input, one output terminal of which is connected the pole of the first rectifying bridge, the secondary windings of the first three intermediate current transformers are connected to the open triangle and connected to the second one The secondary bridge of the fourth intermediate current transformer is connected to the input of the third rectifying bridge, to the output of which are connected in series the first and second relays, additionally equipped with a second ferromagnetic frequency tripler with input windings connected in a zigzag with a zero output ,, and output windings connected in an open triangle by intermediate current transformers, three full-wave rectifier bridges and a fourth relay, while between The fifth, sixth and seventh intermediate current transformers, the secondary windings of which are connected to open. The triangles are connected to the fourth rectifying bridge, the eighth intermediate current transformer is connected between the neutral of the Secondary windings of the second current transformers and the zero output input. the second tripler, the secondary winding of the eighth intermediate current transformer is connected to the inlet of the fifth rectifying bridge whose output is counter-parallelly connected with the output of the third rectifying bridge, the output of the second tripler is connected in parallel to the output of the first rectifying bridge, connected in series with the winding of the third relay and the disconnecting contact of the second relay, the output of the third rectifying bridge is connected counter-parallel with the output of the sixth rectifying bridge, the second output The first tripled is connected to the entrance of the first effluent bridge. The terminals connected to the star of the counter-windings of the current transformers 1 of the first line through the first, second and third intermediate transformers 2-4 of the current are connected to the inputs of the first ferromagnetic frequency tripler 5, the output of which is connected to the input of the first torque bridge. 6, The fourth intermediate current transformer 7 is connected between the neutral of the secondary windings of transformers 1 and the zero output of the input windings of the first triples connected to the zigzag. 5, Conclusions of the secondary windings of the secondary windings of the second line connected to the star through the fifth, sixth and seventh intermediate current transformers 9-11 connected to the inputs of the second ferromagnetic frequency broker 12, the output of which is connected to the input of the rectifying bridge 13. The eighth intermediate current transformer 14 is connected between the neutral secondary from the current transformers 8 and the zero output of the zigzag input windings of the second tripler 12. The secondary windings of the intermediate current transformers 2, 3, 4, 9, 10 and 11 are connected respectively to an open triangle and connected to the inputs of rectifying bridges 15 and 16, Secondary windings transformers 7 and 14 are connected to the inputs of rectifying bridges 17 and 18, the outputs of which are connected counter-parallel with the series-connected relays 19 and 20. The outputs of the bridges 6 to 13 are connected counter-parallel with the series The relay relays 21 and the disconnecting contact 22 of the relay 20. The outputs of the bridges 15 and 16 are interconnected in parallel with the relay 23 connected in series and the disconnecting contact 24 of the relay 20. The device operates as follows. In the normal mode, the windings of the intermediate transformers 2, 3, 4, 9, 10 and 11 and the trippers 5 to 12 flow around equal currents and the starting relays 21 and 23 do not work. It also does not work turnip 19 due to the lack of current in the neutral wire. When a three-phase short circuit on one of the lines, the current of the damaged circuit increases, which leads to imbalance and the starting relay 23 flows in one of the directions of the current leading to the operation of relay 23. Relays 19, 21 and 23 are made polarized with a neutral position cor. This ensures the selective disconnection of one of the damaged lines, since the direction of the current in relays 19, 21 and 23 changes its direction depending on the location of the damage site — on one or another of the protected lines. With a two-phase short to one of the lines, the output voltage of the transformers 2, 3, 4, 9, 10, and 11 is zero. At the output of ferromagnetic thinners 5 and 12, the primary windings of which are connected in a zigzag, there is a voltage, and at the output winding of the converter the line is damaged. This leads to the fact that a current flows through the starting relay 21, causing it to trip and disconnect the damaged line. If the two-phase short circuit on the second line, then this leads to a change in the direction of the current through the new relay 21 and, accordingly, to the disconnection of the second line. With single-phase and two-phase short-circuit earth faults, a network with a semi-earthed neutral tokoyh appears to be a component of zero sequence. On the lines with the adjacent phases of the circuits, besides, there appears a significant current that circulates along the line, not exceeding its limits. Moreover, this circulating current in the damaged line coincides in phase with the current of the zero sequence, and in the intact line is directed oppositely. Due to the occurrence of the zero-sequence current at the terminals of the secondary windings of transformers 7 and 14, included in the neutral wire, a voltage appears, and it is more on the secondary winding of the transformer connected to the zero point of the ferromagnetic converter of the damaged line, as the current flowing through it is zero This sequence is added to the circulating one. Starting relay 19 is triggered. This also triggers the relay 20, which by its contacts 22 and 24 removes the relays 21 and 23, which operate during symmetrical and asymmetrical closures. In a short circuit from the ground to the second line, the direction of the current through the starting relay 19 changes and turns off the second line. For the blocking relay 20, the direction of the current through it does not matter. Thus, the proposed device for differential directional protection allows to reliably protect a parallel line with contiguous phases of the circuit, which has a greater throughput compared to a conventional double-circuit transmission line 1.2-1.5 times depending on the voltage class from symmetrical, asymmetric and short circuits on each of the circuits. Apparatus of the Invention A device for differential directional protection of parallel power lines with approximate phases of circuits, containing six current transformers included in the phases of the protected lines, four intermediate current transformers, a ferromagnetic frequency tripler with input windings connected in a zigzag with a zero output, and output windings connected an open triangle, three full-wave rectifying bridges and three relays, with three intermediate current transformers connected between the two With the signals of the star winding current transformers of the first line and the tripler inputs, the fourth intermediate current transformer is connected between the neutral of the secondary windings of the current transformers of the first line and the zero output of the triple switch, the output terminal of which is connected to one pole of the first rectifier bridge, the secondary windings of the first three intermediate current transformers are connected in an open delta and connected to the second rectifier bridge, the secondary winding of the fourth intermediate transformer The current mater is connected to the input of the third rectifying bridge, the output of which is connected in series with the first and second relays, characterized in that, in order to increase the sensitivity, it is additionally equipped with a second ferromagnetic frequency tripler with input windings connected in a zigzag with a zero output, and output windings connected in an open triangle, four intermediate current transformers, three full-wave rectifier bridges and a fourth relay, between the output The second current transformers include the fifth, sixth and seventh intermediate current transformers, the secondary windings of which are connected to an open triangle and connected to the fourth rectifier bridge, the eighth intermediate current transformer is connected between the secondary windings of the second transformer and the zero output of the second triple, The secondary winding of the eighth intermediate current transformer is connected to the input of the fifth rectifying bridge, the output of which is counter-connected , the output of the third rectifying bridge, the output of the second triple is connected in parallel with the output of the first rectifying bridge with the third relay coil connected in series and the opening contact of the second relay, the output of the third rectifying bridge is connected counter-parallel with the output of the sixth rectifying bridge, and the second output of the first the triple is connected to the entrance of the first rectifier bridge. Sources of information taken into account in the examination 1, Chernobrov N.V., Relein protection. M., Energie, 1974, p.284, fig. 10-29. 2. Authors certificate of the USSR 525192, cl. H 02 H 3/28, 1975.