SU769674A1 - Device for multiphase short-circuiting protecting of bus-bar systems - Google Patents

Description

ration body - for the third stage of protection. The second measuring remote body has a response characteristic covering the coordinate coordinates. In the circuits of alternating voltage and current5 of each section, the first and second measuring remote bodies are connected to the same-type phase outputs of the voltage trapsformer with the same ends of their inputs. In the constant-10 operating current circuit, the power supply of the switching relay of the settings of the first measuring remote unit in series with the operating winding of this setting switching relay opens the 15 contact of the first relay - repeater 2. However, with symmetrical terminals. on the protected section or on the departing lines near the walls, the known device does not ensure the selective backup of the protection of tires and outgoing lines as a result of the fact that during these accidents the first measuring remote body fails to turn off25 with a predetermined time delay of at least 500 m / s, and the elimination of k. H. carried out by the second measuring remote body, which is not rebuilt from to. on adjacent sections. Consequently, the prize of symmetric c. S. there is a disconnection of both the switches of this section and the adjacent sections. Thus, the known device does not provide the required selectivity of redundancy protection 35 of tires and outgoing lines. The operation of the switching equipment reduces the service life. At the same time, non-selective disconnection of switches reduces the reliability and quality of power supply to consumers of 40 voltitele. The aim of the invention is to increase the effectiveness of reserving the protection of women and outgoing lines. This goal is achieved by the fact that 45 in a device for protection against multiphase Q. 3. a system of team cabinets containing, on each section of the system, a voltage transformer, instrument current transformers in connection circuits, and 50 section switches and a three-stage remote directional protection with a blocking element against oscillations and malfunctions, the first measuring remote body, common for 55 first and second stages of the said three-stage protection, and the second measuring remote body with characteristics During the operation, covering the origin, in the circuit of a constant one-60 operating current, the power supply circuit of the first repeater is connected in parallel with the closing contacts of the resistance of the second measuring remote body connected in series with the 65 opening contact of the blocking element against irregularities and the opening contact of the blocking device from oscillations, parallel to which the interlocking contact of the blocking organ is turned on with a delay for returning, at the same time to the mentioned contacts of the blocking organ from oscillation the power supply circuit of the second repeater relay is connected from the series-connected closing contacts of the resistance relay of the first measuring remote body and holding winding of the setting switching relay, the working winding of which is connected to the DC operating current circuit through a resistor, to the phase outputs of the same voltage the voltage transformer is connected to the input of the first and the input of the second measuring remote bodies at the end ends, and in the constant-current circuits The current of each section parallel to the closing contacts of the resistance relay of the first measuring remote unit are connected in series the closing contacts of the relay repeaters of the first and second measuring remote bodies and the disconnecting contacts of the relay repeaters of the first measuring remote organs of the adjacent sections, and in the power supply circuit of the relay - switching settings of the first measuring remote body parallel to its working winding connected the first break contact and the second p AZking contact with a delay for the return of the blocking element from the oscillations, This device provides the tune-up of the first measuring remote body from the center. adjacent connections and the use of a second remote member to hold the launch of the device at close symmetrical points. instead of controlling a switching relay that promotes boost. the selectivity of redundancy of tire protection and outgoing lines in all types of multi-phase ch. As a result of an increase in redundancy selectivity, unnecessary operation of the switching equipment is eliminated, i.e., its service life is increased. At the same time, possible overloads of autotransformers are eliminated, a reduction in energy losses and a full power supply to consumers fed from these busbars are ensured due to the exclusion of a non-selective transition to separate, unrelated sections, FIG. 1 and 2, the functional diagrams of the proposed device are along alternating voltage circuits and constant operating current circuits, respectively; in fig. 3 - response characteristics of the first and atomic measuring remote bodies in the combined

the complex plane of the measured resistances.

The device on each section of the busbar system contains a transformer 1 voltage, measuring transformers 2 and 3 currents in the bus connecting and section switches 4 and 5, respectively, and a three-stage directional distance protection 6. The protection has a blocking element 7 from rocking and faults, the first measuring remote authority 8, common for the first and second protection stages 6, and second measuring distance body 9 for the third protection stage. In the alternating voltage and current circuits of each section, transformers 2 and 3 are connected in parallel by their secondary windings and connected to protection 6. The inputs of the blocking body 7, organs 8 and 9 are connected to the phase outputs of the voltage transformer 1 of the same name. connected to the same ends of the single-phase output of the transformer 1 opposite ends.

In the constant operating current circuits of each section, the device contains the tripping circuit of the linear switches 10 (not shown), the first starting circuits of the circuit breaker failure circuit (breaker failure protection) from the contacts of the first executive relay 11, the tripping circuit breaker, sectional and autotransformer circuit breakers 4, 5 and 12 and the second circuits of the start-up of breakdown failure (not shown) from the contacts of the second executive relay 13, the power supply circuit of the three-stage protection itself 6. At the most remote protection 6, the organ 8 contains a rel 14-16 resistance and body resistance 9- relays 17-19. The power supply circuits of the first and second relays of repeaters 20 and 21 are formed by the opening contact 22 of the organ 7 and parallel connected by the opening contact 23 of the organ 7, which briefly closes with symmetrical c. And the disconnecting contact 24 with a delay to return the locking organ 7. The power supply circuit of the first relay - repeater 20 includes the closing contacts of the relay - resistances 17-19-19 of the body 9. The power supply circuit of the second relay - repeater 21 sequentially includes the holding current of the switching relay 25 of the settings of the body 8 and the parallel connected contact contacts of the resistance 14-16. shunt by series-connected closing contacts of relays 20 and 21 and opening contacts of relays - repeaters of similar measuring first remote bodies of adjacent sections (on drawing, not shown), Pit circuit Ani working winding relay 25 is formed through a resistor 26.

In parallel with the working switch "of the switching relay 27, the first disconnecting contact 28 and the second disconnecting contact 29 are connected with a delay for the return of the locking element 7. The device also contains a time relay common to the first and second protection stages 6, the winding of which is closed by a relay 21 contact. Slipping 30 and end 31 time relay contacts are included in the first and second parallel power supply circuits of the first output relay 32. The first power supply circuit of the relay 32 is turned on also the closing contact 33 of the second relay 21 of the repeater and the closing with a delay for falling off the contact 34 of the relay 25. The closing contact 35 of the relay 32 forms the power supply circuit of the relay 11, and the contact 36 - the power supply circuit of the third time relay 37

protection 6, and the contact 38 with a time delay relay 37 is included in the power supply circuit of the second output relay 39. The closing contact 40 of relay 39 forms the power supply circuit of the relay 13.

At multiphase to. Z. on the sections of the section under consideration or on the transmission lines that depart from the section in the vicinity of the bodies, an organ 7 is activated, which shunts for a short time with symmetrical

K. 3. Break contact and for a long time for all kinds of K. h. an interrupting contact with a delay to return the working winding 27 of the relay 25 of the organ 8. By the organ 7, closed at r. and open at

faults in the secondary voltage circuit; power is supplied to the first repeater relay 20 through the contacts of these relays closed when the relay 17, 18, and 19 are activated, and the power supply is sequentially

the retaining windings of the switch-switching relay 25 and the winding of the second relay are repeater 21. Since the multiphase r. 3. in the rows or on the outgoing lines near the cores are in the zone

the settings of the first protection stage 6, when the relay 14, 15 and 16 are triggered due to the flow of current in the holding winding of the setting switching relay, the relay 25 does not disappear, despite shunting the main working winding 27 of this relay. Therefore, the output relay 32 is triggered with a time delay of the first protection stage 6. When the relays 20 and 21 are triggered, they are indicated in k. 3. along chains

the included disconnecting contacts 41 and 42 of the relay 21 of the same first measuring distance protection bodies of adjacent sections, the contacts of the relays 14, 15 and 16 are bypassed, and thus ensured by the opening of the contacts of the relays 14 and 15 and 16 in the case of close symmetrical multiphase K. s. energizing the holding and operating windings of the relay for the time of the actuated state of relays 17, 18 and 19, having an offset, triggering characteristics in one quadrant of the combined complex arrangement, until the first remote control unit, section has been triggered. As a result, the power of the holding winding of the switching relay of the settings and the winding of the relay 21 is maintained at symmetrical speeds. on tires and near symmetrical to. z. on adjacent lines x. When activated, relay 21 closes with its contact 33 a power supply circuit of a time relay common to the first and second protection stages. A time delay relay at a sliding contact, exceeding the time delay of the corresponding line protections with which the first stage of the device under consideration is matched, closes through the closed contacts of the relay 21 and the setting switching relay the power supply circuit of the relay 32. The relay 37 starts up, in turn, with the contacts 36 of the relay 32 which also includes the relay 11. With the help of the relay II, the tripping of the circuit breakers of the 10 lines of this section of busbars and the start of the breakdown voltage breakdown are accomplished. Thus, in the event of a linear protection failure, disconnection of line switches or adjacent related connections is ensured in case of failure of these line switches.

When k. 3. on the tires, the contact of the relay 32 in the start circuit of the relay 37 is kept closed, ensuring its operation. The relay 37 with the time delay of the breakdown action forms the power supply circuit of the relay 39. The closing contacts of the relay 39 turn on the relay 13, which supply power to the disconnecting circuits of the connecting, sectional and autotransformer switches 4, 5, 12 of this section, as well as the start of the LEVEL in case of failure these switches with a. h. on the women.

With remote multiphase. H. on outgoing lines or on parallel lines adjacent to adjacent bus sections in the direction of the first remote element 8 and sufficient resistance sensitivity only at the set point of the second stage of protection 6, this device is also started from organ 7. Relay 14 , 15, 16, 17, 18, and 19 do not work, since the first remote unit 8 is set to the first-stage setting of stage 6, which is insensitive to the indicated K. 3., And the second remote body 9 is rebuilt from the indicated ones. Consequently, the current in the holding winding of the switch-switching relay 27 is initially absent. After the switching relay has fallen off by shunting the working winding of this pellet, the organ 8 is rearranged to the setpoint of the second protection stage in a known manner. Further operation of the device is carried out on logical operation.

devices at close to s., if during cascade repair of damage, the direction of reactive power through the sum of the device's current transformers is maintained at the corresponding start k. Otherwise, the contacts of the relay 17, 18 and 19 of the second measuring remote body closes the power supply circuit of the first relay 20. The contact of the first relay

20 closes the power supply circuit of the retaining winding of the setpoint switching relay through the circuit shunting the closing contacts of the relay 14, 15 and 16 of the organ 8, which is eroded either by opening the contact of the second relay 21, or by opening the contacts 43, 44 of the same relay remote bodies of adjacent sections. This ensures that this data is returned.

devices and break the power circuit of the time relay of the first stage. When external multi-phase to. C. on adjacent sections of the system, the protection operation 6 is blocked, since the power supply circuit of the second relay 21

remains open with the contacts of the relay 14, 15 and 16 of the organ 8.

The use of this device as a result of reliable and selective detection of multiphase KS. on this

sections of the bus system and on the power lines connected to this section provide redundancy of bus and line protection in all types of multiphase k. 3., eliminates unwarranted

disconnecting all busbar and sectional busbar breakers and switching the substation to operation with unrelated bus sections.

Claims (2)

Invention Formula A device for protection against multiphase short circuits of the busbar system, containing on each section of the system a voltage transformer, current measuring transformers in the busbar and sectional circuit breakers and a three-stage directional distance protection unit, mounted on a series of interlocking spans and malfunctions of the first measuring remote body, common to the first and second stages, by the mention of a three-stage protection, and the second measuring distance An organ with a response characteristic, covering the origin, in a constant operating current circuit, a supply circuit of the first repeater is connected in parallel to the closing contacts of the resistance of the second measuring remote body connected in series with the blocking element of the block from malfunctions and the break contact swing blocker, parallel 9 but to which the disconnecting contact of the interlocking body with a delay for return is switched on, while the second power supply circuit - a repeater relay of series-connected resistors of the first measuring remote body and the holding relay of the setting switching relay - is connected to the said contacts of the blocking element against swinging , the working winding of which is included in the constant operating current circuit through a resistor, characterized in that, in order to increase the efficiency In order to protect busbars and outgoing lines, in the alternating voltage circuit of each section, the input of the first and the input of the second measuring remote bodies are connected to opposite ends of the voltage transformer, and in the constant operating current circuit of each section, parallel to the relay contacts resistances of the first measuring diode The station body is connected in series the closing contacts of the relay - repeaters of the first and second measuring remote bodies and the opening contacts of the relay of the repeaters of the first measuring remote bodies of adjacent sections, and the first opening contact and the second are connected to the power supply circuit of the relay switching the settings of the first measuring remote body Open contact, with a delay to return the blocking body against swinging. Information sources, taken into account during the examination 1. Fedoseev A. M. Relein protection of electrical circuits. M., “Energie, 1976, p. 511-512. 2. Typical solutions 407-O “Circuit of differential current protection of a double sectioned bus system of 220 kV, M., UROV“ Energosetproekt, 1975, inv. № 7767 tm / 1-2 (prototype). } 0