RU50348U1 - SHORT-CIRCUIT RELAY PROTECTION - Google Patents

Abstract

The device relates to the electric power industry, namely to relay protection of substations with power lines, autotransformers (transformers) and other connections. The relay protection device contains an organ for detecting a transient process during a three-phase short circuit, a relay protection organ, a start-up organ, and an introduction device for a period of time sufficient for its operation and return, while the organ for detecting a three-phase short circuit is made in the form of a low-current filter in phases and connected to the input of the element "OR", made on the microelectronic element base, the launching element is made on the trigger in microelectronic performance, the output of which includes relay protection of the object, the relay protection actuation body for a time sufficient for its operation and return is made in the form of a time element for operation on the microelectronic element base included in the output of the starting element, and is supplemented by comparison organs in the form of actuation elements made on the microelectronic element base and connected in parallel with each other at the input and sequentially at the output with elements of the return organ, consisting of a two-input element “AND” with one inverse input and an element “OR”, made on m electronic components base, and included between the detection body and the starting body, the executive body in the form of an electromechanical intermediate relay connected to the output of the relay protection, and an additional return body of the device, which consists of a transient detection body when a three-phase short circuit in an adjacent network is disconnected in phases and connected to the input of the element "OR", the element of time for the response, connected through the element "AND" to the organ return device, while the body detecting tripping phase short circuit in an adjacent network is made in the form of a low-frequency current filter, and

element of response time, the elements "OR" and "AND" are made on the microelectronic element base. The device allows you to perform relay protection against long-range three-phase short circuits, which is triggered by short circuits behind an element of an electric network with a concentrated inductance: autotransformers, transformers, reactors, and does not work with overload currents of the protected object.

Description

The proposed device for relay protection against short circuits relates to the electric power industry, namely to relay protection of substations with power lines, autotransformers (transformers) and other connections.

A device for relay protection against short circuits, including current relay protection bodies and a protective commissioning element, which is structurally a voltage relay that monitors the network voltage, and connected in series (see N.V. Chernobrov "Relay protection", M., " Energy ”, 1974, pp. 146-148). In this device, on long lines powered by a powerful system, as well as on lines with a reactor, the sensitivity of the voltage relay is insufficient.

The closest short-circuit protection device to the proposed one is a device that includes known relay protection bodies and protection detection and commissioning bodies, which are structurally a transformer reverse current filter

sequence and current relay, fed by the reverse sequence current from the filter, the starting element in the form of intermediate relays and the time delay element, made in the form of electromechanical relays (see A.M. Fedoseev “Relay protection of electrical systems”, pp. 280-283). The disadvantage of this device of relay protection against short circuits is that the device does not work and does not bring protection into action in cases where a three-phase short circuit occurs without asymmetry, i.e. while simultaneously interconnecting the phases and used for detecting and commissioning relay protection, electromechanical current relays, intermediate and time relays do not provide quick response protection when the duration of the transition process is less than the response time of these organs. In addition, the device does not exclude false relay protection tripping after disconnecting a short circuit on an adjacent element of the electric network, when during remote short circuits the protection does not distinguish short circuit currents and overload currents and responds to overload currents without removing relay protection in this case from the action .

The task of creating this technical solution is to create a device for relay protection against short circuits, which allows to carry out relay protection during long-range three-phase short circuits, which is triggered by a short circuit behind elements of an electric network with concentrated inductance: autotransformers, transformers, reactors, when short-circuit currents are commensurate with currents load and does not work in load mode, as well as removing protection from action after disconnecting a far short circuit yklyuchatelem adjacent network.

The technical result in the proposed technical solution is achieved by the fact that the device of relay protection against short circuits, including relay protection bodies, bodies for detecting the occurrence of short circuits, the starting body and the body for introducing relay protection into

the effect on the time, sufficient for its operation and return, there are differences, namely, the three-phase short-circuit detection body is made in the form of a low-frequency current filter in phases and connected to the input of the microelement "OR", the starting organ is made on the trigger in microelectronic design, at the output which includes the relay protection of the object, the body for putting the protection into effect for a time sufficient for its operation and return is made in the form of an element of time for operation on the microelectronic element base, included at the output one of the launching organ and supplemented by comparison organs in the form of response time elements, made on the microelectronic element base, and connected in parallel with each other at the input and sequentially at the output with the elements of the return organ, consisting of a two-input element “I” with one inverse input, and an element "OR", made on the microelectronic element base, and included between the detection body and the starting body, the executive body in the form of an electromechanical intermediate relay connected to the relay output protection and an additional device return device, consisting of a transient detection body when a long-range three-phase short circuit is disconnected by an adjacent network circuit breaker in phases and connected to the input of an "OR" element, a response time element connected through an "And" element to a device return device, at the same time, the transient detection body when the long-range three-phase short circuit is disconnected by the adjacent network circuit breaker is made in the form of a low-frequency current filter, and the response time element, lementy "OR" and "I" are made on the basis of microelectronic components.

In short-circuit protection devices, relay protection can be performed in different ways (see A.M. Fedoseyev "Relay protection of electrical systems", M., "Energy", 1976, pp. 52 ÷ 455.

Figure 1 shows a block diagram of a device for relay protection against short circuits.

Figure 2 shows a functional diagram of a device for relay protection against short circuits.

The device for relay protection against short circuits (see figure 1, 2) consists of:

- bodies of relay protection of object 1;

- an organ for detecting 2 transients during a three-phase short circuit and a change in the load mode, consisting of a low-frequency current filter in phases and connected to the input of the microelement "OR" 3;

- two comparison organs 4 and 5 in the form of elements of time for operation, the time on which is different, made on the microelectronic element base;

- the launching organ 6, made on the trigger in microelectronic performance;

- the body for the introduction of relay protection into action 7 for a time sufficient for its operation and return, made in the form of an element of time for operation on the microelectronic element base;

- the return organ of the device 8, made on a two-input element “AND” with one inverse input 9 and the element “OR” 10, made on the microelectronic element base, has a terminal 16 for influencing the return organ of the device from the relay protection of adjacent objects;

- the executive body 11, made in the form of an electromechanical intermediate relay;

- an additional return organ 12 of the device when the long-range three-phase short circuit is disconnected by an adjacent network circuit breaker, which consists of a transient detection unit 13 when the long-range three-phase short circuit in the adjacent network is disconnected, performed similarly to detection unit 2, i.e. consisting of a filter of low-frequency currents in phases and connected to the input of the element “OR” 3 (the parameters of the transformers and filters may vary), the element of time for operation 14, connected through the element “AND” 15 to the return organ 8

devices, while the response time element 14, the elements “OR” 3 and “AND” 15 are made on the microelectronic element base.

The organs in the device are connected according to the functional diagram, and the device is connected to the current phases of the protected object. The identification body 2 of the transition process in the event of a long-range short circuit, the starting element 6, the relay protection organ 1 and the executive element 11 are connected in series. Comparison bodies 4 and 5 are interconnected in parallel at the input and sequentially with the return organ 8 of the device, and they are connected between the detection organ 2 and the launching organ 6. The introduction of protection 7 for the duration of operation and return is connected to the output of the launching organ 6 and return 8 An additional return device 12 of the device when the long-distance three-phase short circuit is disconnected by an adjacent network circuit breaker is connected to the output of the starting element 6 and the return organ 8. By detecting organs 2 and 13, the device is switched on to the object.

The relay protection device against short circuits operates in various modes as follows.

1. In the event of a short circuit at the protected object, the time delay for the response of the comparison body 4, the duration of the transition process is less than the duration of the transition process when a three-phase short circuit occurs with the element with a concentrated inductance and is longer than the duration of the transition process when the load changes, and the time delay for operation body comparison 5 duration of the transition process take longer than the duration of the transition process when a short circuit occurs behind an element with a concentrated inductance. Then, when a three-phase short circuit occurs on the low voltage side of the autotransformer, transformer, transient currents containing periodic and aperiodic components flow behind the reactor in the phases of the protected object. Organ

detecting 2 occurrences of a short circuit isolates the aperiodic component of the current by low-frequency current filters (The principle of separating the aperiodic component by means of the low-frequency current filter is described in the source - A.M. Fedoseev "Fundamentals of Relay Protection", SEI, M. - L., 1961, p. 539, the last paragraph), then they are converted by known devices into signals for the microelectronic element base and sent to the comparison organs 4 and 5 of the duration of the transition process. Since during a short circuit behind an element with a concentrated inductance, the duration of the transition process exceeds the time delay for the operation of the comparison element 4, it is triggered and the signal then goes to the starting element 6, which this signal switches from zero to a single state and introduces relay protection 1 into operation, when triggered by which, with its time delay, the actuator 11 activates and disconnects the protected object. At the same time, the return body 8 returns the device circuit to its original position.

In the additional return organ 12 of the device, aperiodic current components also appear briefly when a three-phase short circuit occurs, but they do not lead to the operation of its “I” element 15 and the organ 12 as a whole, since the time delay element 14 is unworked.

When using the device in the protection of the autotransformer, the transformer, the device is returned to its initial position when their high-speed protections are triggered by the input of the protection at the time of its operation and return 7, when the high-speed protections are triggered on an adjacent object, for example, on low voltage buses, by their impact on the return organ through pin 16 for relay protection of an adjacent object.

When the load changes in the load mode, the duration of the aperiodic component of the current is less than the time delay by

the actuation of the comparison body 4, as a result of which it does not work, and the relay protection bodies of 1 object remain disabled.

2. When purely inductive (or close to it) reactive power flows through the protected object and its value changes at which it is not necessary to turn off the object, the duration of the transition process can exceed the time delay for the operation of the comparison organ 5 and will lead to the operation of the comparison organs 4 and 5. The operation of the comparison body 4 will trigger the trigger 6 and the introduction of relay protection 1 according to the above-described sequence of operation of the device’s organs, but then the actuation of the organ Comparison 5 interrupts the circuit to the starting element 6 by applying a signal to the inverse input of the “And” element of the return organ 8 and returns the device to its original position before the relay protection is activated. Disabling the object does not occur.

3. With a three-phase short circuit in an adjacent network, an element with a concentrated inductance on the time delay element 14 of the additional organ 12 of the device return device takes a response time delay:

less time for short circuit disconnection under the action of high-speed transformer protections of an adjacent network, when the device is used in line protection for redundant transformer protections of an adjacent network;

longer than the duration of the transition process during a short circuit on the low voltage side of the autotransformer, transformer, when the device is used to protect them and reserve protection of objects of the adjacent network.

If a short circuit occurs in an adjacent network behind an element with a concentrated inductance in the event of a failure of protection or disconnecting devices of an element of an adjacent network, the protection of the object is activated,

carrying out long-distance backup, is performed in the sequence described in paragraph 1 of the device operation description.

In the event of a three-phase short circuit being disconnected by an adjacent network circuit breaker in the device, the transient detection unit when the short circuit of the additional return organ 12 is turned off sends a signal to its “I” element 15, to which the signal from the time delay element 14 is already being supplied, which leads to to the triggering of the element "And" 15 and the return organ 12 as a whole and giving them a signal to the return organ 8 of the device. The return of the device occurs before the relay protection 1 is activated, which ensures selective disconnection of the short circuit.

The device can be performed programmatically using microprocessor technology.

The device can be used when performing relay protection of autotransformers, transformers, against short circuits on the low voltage side, reactors, relay protection on heavily loaded radial and ring lines of the distribution network to protect long-distance backups from short circuits on the low voltage side of dead-end, branch, pass-through transformers electric network when short circuit currents are comparable to overload currents.

Claims (1)

A device for relay protection against short circuits, including relay protection organs, an organ for detecting a transient process during a three-phase short circuit, a starting organ and an organ for putting the protection into operation for a time sufficient for its operation and return, differs in that the organ for detecting a three-phase short circuit is made in in the form of a filter of low-frequency currents in phases and connected to the input of an OR element made on a microelectronic element base, the starting element is made on a trigger in a microelectronic design, at the output where the relay protection of the object is included, the relay protection introduction body for a time sufficient for its operation and return is made in the form of a time element on the microelectronic element base included in the output of the starting element, and is supplemented by comparison organs in the form of time elements for the operation performed on microelectronic element base and connected in parallel between each other at the input and sequentially at the output with the elements of the return organ, consisting of a two-input element And with one inverse input and the element OR, made on a microelectronic element base and connected between the detection body and the starting body, the executive body in the form of an electromechanical intermediate relay connected to the output of the relay protection, and an additional return body of the device, consisting of the body for detecting the transient process when the three-phase short circuit in the adjacent network is disconnected in phases and connected to the input of the OR element, the element of the response time, connected through the And element to the return device of the device, while the body detected The three-phase short circuit disconnection in the adjacent network is made in the form of a low-frequency current filter, and the response time element, the OR and AND elements are made on the microelectronic element base.