SU1136245A1 - Device for protective de-energization in a.c.network - Google Patents

Abstract

THE DEVICE OF THE DPJ OF THE BACK-OFF DISCONNECTION IN THE AC NETWORK CURRENT, containing a measuring unit consisting of current start-ups of organs: the number of which is equal to the number of protection stages, and the power direction, the first input of which is connected to the inputs of the current starting organs and connected to the current sensor, and the second input of the power direction unit is connected to a voltage sensor, a formation unit consisting of AND elements, time delays and alarm bodies, whose outputs are connected to the inputs of the OR element. the first inputs of the specified I elements And are connected to the corresponding outputs of the current starting I organs of the measuring block, and: the second inputs are combined and connected to the output of the power direction organ of the measuring block, and the output of the And first stage element is connected to the input of the corresponding signaling organ , while the outputs of the subsequent elements And each stage through the bodies of time delays are connected to the outputs of the signaling bodies, respectively, high-frequency block containing op gan start of the high-frequency transmitter, whose input is connected to the output of the current start-up organ of the last stage, and output to the starting input of the high-frequency transmitter, stop organ of the high-frequency transmitter, the first input of which is connected to the output of the power direction organ, and the second input to the output of the M current starting organ the penultimate stage, while the output of the stop element is connected to the input of the stop, a new high-frequency transmitter and to the first input of the blocking organ, the second input of which is connected to the output of the high-frequency reception output through the organ of the signal unit; on the operation of the high-frequency blocking of the pickling, to the last input of the OR element of the forming unit, the output of which is connected to the second input of the first And element and to the second input of the executive body, the output of which is connected to the switch and to the protection trigger signaling body and the closing contact of the relay is turned off. The switch is connected to the first input of the second element OR, the output of which is connected to the first input of the second element AND, the output of which connected to the second input of the second element OR, to the input of the alarm signaling authority

Description

in the measuring unit and to the first input of the third element OR, the output of which is connected to the first input of the executive body, and the second input of the second element AND is connected through the first element NOT To the first input of the first element OR, the output of which is connected to the first input of the first element AND, the output of which is connected to the input of the fault signaling authority in the forming unit and to the second input of the first OR element, characterized in that, in order to increase the reliability of the device in operation, it is additionally introduced into it Torah NOT element, the third and fourth element, and the fourth OR gate, whose inputs are connected to the | the outputs of the current triggering bodies of the measuring unit, and the output of the specified element OR are connected to the input of the first element NOT and the first input of the fourth element AND, the second input of which is connected to the output of the blocking member of the high-frequency blocking and the output of the specified element AND through the second newly entered element is NOT connected to. the second input of the newly introduced element AND, the first input of which is connected to the output, the first element AND, and the output to the second input of the third element OR.

The invention relates to electrical engineering and can be used for relay protection of electrical systems.

A device for protective 5 off in an AC network is known, which contains measuring organs, logical organs, actuator, signaling organ, and power source ij .10

However, this device allows for false protection in case of malfunctions in a logical organ.

The closest to the invention according to the technical essence is a device for overvoltage in an AC network, comprising a measuring unit, a forming unit, an executive unit executed on the BANE element, a protection trigger signaling unit, the first and second logical elements I, the first logical element NOT, the signaling organ of faults to the forming unit, causing 25 the appearance of signals at its output, the first, second and third logical elements of NL, the alarm signaling unit in iermertel non block vyzyvanlrss its long Switching times of LP and make contact relay switch 2 Off position.

The measuring unit contains starting organs - measuring relays interconnected in a definite way, which continuously monitor the state of the protected object and determine the conditions for triggering protection in accordance with the values of the applied electrical quantities.

The forming unit includes logical and temporal elements, which are formed by control actions depending on the combination of signals received from the measuring part and their duration.

For various types of relay protection, the measuring and forming units contain - various types of measuring relays, logic and time elements, interconnected according to a certain scheme, depending on the purpose and principle of the protection.

For stepped directional current signals with a high-frequency block, the measuring unit contains current starting organs (current relays), the number of which is equal to the number of protection stages, power direction organ (power direction relay), the inputs of which are connected to the measuring current sensor and voltage.

The form of the optic unit contains, in the first stage, the logical element I and the signaling body for its operation, successively interconnected, and in all other stages, the consecutively connected logical element AND, the time delay body and the signaling body of the corresponding level, the high-frequency block including the body high-hour start-up (total transmitter, high-frequency transmitter shut-down organ, which represents an element I, and an element whose outputs are connected to the inputs of the high-frequency transmitter, are blocked A BREEDING element, the direct input of which is connected to the output of the stop of the high-frequency transmitter, the inverse input is connected to the code of the high-frequency receiver, and the output is connected to the high-frequency blocking alarm signaling authority, and is common to all protection stages and high-frequency blocking element .OR, whose inputs are connected to the outputs of the signaling bodies of the operation of each of the stages and the high-frequency blocking, and its output is connected to the output of the forming unit. The inputs of the forwarder block j formed by the inputs of logic elements AND of each stage and the inputs of the bodies of the puck and the stop of the high-frequency transmitter are connected to the outputs of the measuring unit, the first inputs of each of the elements I are connected to the outputs of the current starting bodies of the corresponding protection level, and their second inputs are connected to the output power direction, the input of the start-up body of the high-frequency transmitter is connected to the output of the last stage start-up body, the first input of the stop body is high-frequency a transmitter for | key to output a current inrush; emoy body accelerated stage, as its second input coupled to the output organ directing power measuring unit.

The known device prevents false triggering of protection in the event of a malfunction in the formation unit causing signals to

its output, when the specified mode coincides with external short circuits, in which some current start-up organs 5 of the measuring unit trigger, with prolonged occurrence of signals at the outputs of the measuring unit caused by faults in its circuit or non-resetting current

10 launchers after switching off the switch on the protected object, and re-enabling the switch.

However, the device does not provide a protection action for switching off the switch in case of malfunctions in the forming unit, causing the appearance of signals at its output, and subsequent internal short circuit on the protected object, at which

0, the organs of the measuring unit and the high-frequency blocking are triggered, since the protection in this mode is completely removed from the action. Since the protection is directed to

5, the high-frequency blocking performs the functions of the main and backup protection of the object at the same time, then the elimination of damage in this case will be performed by the adjacent

Q items causing a large number of intact equipment to shut down.

In addition, the shutdown of adjacent elements by backup protections occurs with significant time exposures W, which causes a long-term effect on the electrical system equipment of short-circuit currents and may lead to a violation of the stability of its work. All this reduces the reliability of the device and the supply of electricity to consumers.

The purpose of the invention is to raise it.

5 reliability in the operation of the device.

The goal is achieved by the fact that a device for protective disconnection in an AC network contains a measuring unit consisting of current starting organs, the number of which is equal to the number of protection steps, and an organ of the power direction, the first input of which is connected to the inputs of the current starting organs

5 and connected to the current sensor, and the second input of the power direction organ is connected to the voltage sensor, a formation unit consisting of AND elements, time delays and alarm bodies, whose outputs are connected to the inputs of the OR element of the forming unit, the first the inputs of the indicated elements And are connected to the corresponding output of the current starting organs of the measuring unit, and the second inputs are combined and connected to the output of the organ of the direction of power of the measuring organ, and the output of the element And the first stage is connected The output of the subsequent elements AND of each stage is connected via time delays to the outputs of the signaling bodies, respectively, a high-frequency block containing the triggering element of the high-frequency transmitter, whose input is connected to the output of the current starting organ / last stage, and the output to the start input of the high-frequency transmitter, the stop organ of the high-frequency transmitter, the first input of which is connected to the output of the power direction organ, and the second The swarm input is to the output of the current start-up organ of the penultimate stage, while the output of the shutdown organ is connected to the stop input of the high-frequency transmitter and to the first input of the blocking organ, the second input of which is connected to the output of the high-frequency receiver, and the last input of the OR element of the block for the block, the output of which is connected to the second input of the first element AND and to the second input of the executive body, the output of which is connected to the switch and to The alarm is activated and the closing contact of the relay is turned off. The switch is connected to the first input of the second OR element, the output of which is connected to the first input of the second element AND, the code of which is connected to the second input of the second element OR, to the input of the alarm body and faults measuring unit and to the first input of the third element OR, the output of which is connected to the first input of the executive body, and the second input of the second element AND is connected through the first element NOT to the first 56 input of the first the OR element, the output of which is connected to the first input of the first element AND, the output of which is connected to the input of the signaling authority and faults in the forming unit and the second element NOT, the third and fourth elements AND, the fourth element OR , to the inputs of which are connected the outputs of the current triggering organs of the measuring unit, and the output of the specified element OR is connected to the input of the first element NOT and the first input of the fourth element I, the second input of which is connected to the output of the block irunltsego lock body high, and the output of said AND gate via a second re vvedenny element is not connected to the second input of the newly introduced elements and the first input of which is connected to the output of the first AND gate, and an output - to the second input of the third OR member. The drawing shows a diagram of the proposed device. The device for disconnection in the AC network contains a measuring unit 1, consisting of current starting bodies 2, the number of which is equal to the number of protection stages, and a power direction body 3, forming unit A, containing in each stage elements AND 5, bodies 6 time delays in all steps except the first, the authorities 7 signaling the operation of each stage, elements OR 8, high-frequency blocking 9, turning on the start-up body 10 of the high-frequency transmitter on the OR element, body 11 stopping the high-frequency transmitter and on element I, blockings body 12 on element BAN, alarm body 13 on high-frequency blocking, executive body 14, executed on element BAN, protection signaling body 15, first, second, third and fourth elements AND 16-19, first and the second elements are HE 20 and 21, the first, second, third and fourth elements OR 22-25, the malfunction signaling body 26 in the forming unit, the signaling body 27 malfunctions in the measuring block and the closing switch 28 Devices sledunschim it is working properly. When the state is turned off, the bodies of the protected object are turned off, there is no emergency situation and the measuring block 1 is in good condition. The signals at the outputs of the latter are absent (an exception may be the output of the power direction body 3 that reacts to full power, since in normal mode this element may be in the worked condition). There are no signals at the inputs of the fourth element OR 25 and the inputs of the forming unit, as well as at the outputs of these elements. There is no signal at the direct input of the executive body 14, at its output and, consequently, at the input of the signaling authority 15 about the protection operation and the switch input. There are no signals at the inputs of the fourth element I 19 and at its output, and at the output of the second element NOT 21 and the input of the third element 18 connected with it there is a signal, but there is no signal at the other input of the last element connected to the output of the first element 16, therefore , there is no signal at its output and the input connected to it is a third of its element OR 24. There is a signal at the output of the first element NOT 20, at one of the inputs and output of the first element OR 22, at one of the inputs of the first element AND 16. But at the second the input of the first element And 16 signal is missing because there is no si drove at the output of the fop in pyck of the deed block 4, there is no signal at the output of the first element AND 16, therefore, there is no signal at the associated inputs of the third element AND 18, the first element OR 22 of the fault signaling body in the forming unit 26. Closing contact Relay position Disconnected switch 28 is open, so there is no signal at one of the inputs of the second element OR 23, at the other its input there is also no signal, because there are no signals at the inputs of the second element AND 17 and its output, at its input malfunction in the measuring unit 27 and the input of the third element OR 24, at the output of the latter and the inverter input of the executive body ||. "If in this mode a malfunction occurs in the circuit of the forming unit 4, a signal appears at its output, then a signal appears on the input associated with it, and therefore, the output of the first element AND 16, at the input of the fault signaling authority in the forming unit 26, the input of the first element OR 22 and the input of the third element AND 18 connected to the output of the first element And 16. So how is the signal now on their inputs the third AND gate 18, then it appears at its output, the input and output of the third OR gate 24 and inverted input actuator body 14. Although the presence of a signal on the forward input actuator body 14 its output signal is absent. The protection does not work to shut off and a malfunction signal is given to the forming unit 4. I If, if there is a specified malfunction in the forming unit of the device, an external short circuit occurs on the elements associated with the protected object within the protection zone, then some current trigger units 2 of the measuring unit will operate 1 and the power direction body 3 on the side of the power supply. At the opposite end of the protected object, where the power has a negative sign, the power direction body will not work. As a result of the actuation of the current triggering organs of the subsequent stage, high-frequency (r.h.) transmitters start at both ends of the protected object, but since the organ 3 of the power direction works at the end closest to the power source, the signals arrive at both inputs of the stop organ c. h the transmitter 11, its output signals are fed to the direct input of the blocking body 12 and the stop h. transmitter. V.ch. the transmitter at this end of the protected object stops. But at the opposite end, the power direction organ does not work, therefore, at one of the inputs of the stop organ, h.ch. transmitter 11 no signal, no signal at its output VOCH. the transmitter continues to work. The high-frequency current flows through the communication channel and receives a high-voltage signal. primers of both ends of the protected object, and from their outputs, signals arrive at the inverse inputs of blocking bodies 12. There are no signals at the outputs of blocking organs, therefore, there is no signal at the inputs of the fourth element I 19 associated with them, at the output of the last element and the second element HE 21 At the output of the second element HE 21 and the associated input of the third element And 18, there is a signal. It has a signal at the output of the fourth element OR 25, the input of the first element is NOT 20, and the signal at the output of the last signal disappears, therefore it is exhausted; Ezeth signal at one of the inputs of the first element OR 22, However, at the other input of this element associated with the output The first element And 16, the signal exists, so it will remain at the output of the first element OR 22, both inputs of the first element And 16, both inputs of the third element And 18, the input and output of the third element OR 24 and inversely the input of the actuator 14. Protection does not work. At one of the inputs of the second element AND 17, connected with the output of the fourth element OR 25, there is a signal in this mode, but there is no signal at its other input, since the position contact of the position relay is turned off switch 28 is open, therefore there is no signal and at the output of the second element And 17, the Device returns to its original state after the signal disappears at the output of the forming unit, since the signal disappears at the associated input of the first element And 16, at the output of the last, at the inputs of the first element connected to it This OR 22, the fault signaling body in the forming unit 26, the third element AND 1 at the output of the latter, the input and output of the third element OR 24, at the direct and inverse inputs of the actuating unit 14. If an internal fault occurs during a malfunction in the forming unit 4 (on the protected object), the power direction body 3 and the current starting organs of the stages of the measuring unit 1 are triggered at both ends of the protected object. There are signals at both inputs of the stop valve organ. the transmitter 11, at its output and, direct input of the blocking body 12. B.ch. the transmitters of both ends of the protected object do not work, there is no high-frequency signal in the communication channel, therefore, at the output of the HF the receiver and its associated inverse input of the blocking body 12 are no signals. The signal appears at the output of the blocking body 12 and the input of the fourth element AND 19 connected to it. At the second input of this element, connected with the output of the fourth element OR 25, the signal is also present, since the inputs of the latter receive signals from the outputs of the operated current trigger units 2 of the measuring unit 1. A signal appears at the output of the fourth element AND 19, at the associated input of the second element HE 21, and at the output of the last signal disappears. Therefore, the signal disappears at one of the inputs of the third element AND 18, at its output, at the input and output of the third element OR 24, and the inverse input of the executive element 14 associated with it. Since, at the direct input of the executive body, there is a signal, At its output, the switch is disconnected and the protection triggers a signal. The malfunction signal in the forming unit 4 disappears as the signal at the output of the first element 16 does not disappear, due to the connection of its output to one of the inputs of the first element OR 22. After switching off the switch of the protected object, all organs return to the initial state. the measuring unit disappears, the signal at the output of the fourth element AND 19 and the input of the second element HE 21 disappears, the output signal appears. The latter, at the input of the third element I .17 associated with it, at its output, the input and output of the third element OR 24, at the inverse of the executive element 14. The signal at the output of the latter disappears and is removed from the input of the switch. Therefore, the subsequent successful re-activation of the switch does not activate the protection in spite of the existing malfunction in the forming unit 4. If the re-activation occurs on a stable circuit, then the power direction authority 3 and the protection current triggering element 2 will activate again on. exit blocking-. th organ of the 12th century blocking and protection will again affect the shutdown. Thus, in the event of a malfunction in the forming unit 4 and subsequent internal closure within the entire protected object, the protection is put into operation and acts to turn off the circuit breaker without time lag by the fact of triggering the start-up organs and ch.ch. blocking. If the closure occurs in the protection zone in the intact condition of the forming unit 4, the current starting organs 2 (all or some of them, depending on which step of the step falls into the zone) and the power control unit 3 of the measuring unit 1, operate ( the external power supply organ operates at the end of the protected object, where the power has a positive sign). The signals from the outputs of the measuring unit 1 are fed to the inputs of the formative unit 4, triggering the corresponding protection stage, and from the output of the forming unit 4 to the direct input of the executive body 14. Behavior of the high voltage. interlocking in this case depends on the closure method: it works when the institute is internally closable, does not work when it is externally closed However, regardless of this, the signal at the inverse input of the actuator 14 will be absent, as the signals at the inputs and the output of the fourth element appear. OR 25, at the input: the first element is NOT 20, and at the output of the last signal will disappear. There are no signals at the inputs and the output of the first element OR 22, at the input of an AND 5 element associated with it, at the output of the last element and the input connected to it, of the third element AND 18 at its output, at the inputs and output of the third element of the ШШ 24. Works Executive unit 14, from whose output the signal is applied to switch off the switch and signaling body on protection operation 15. After turning off the switch of the protected object, signals at the outputs of the measuring unit 1, the output of the forming unit 4 and the direct input of the actuator 14 and the him Exit. There are no signals at the inputs and the output of the fourth element OR 25, at the input of the first element NOT 20, and at its output, the associated input and output of the first element OR 22, a signal appears. There is a signal at one of the inputs of the first element I 16, and at the other its input connected to the output of the forming unit 4, there is no signal, therefore, there is no signal at the output of the last one either. The contact of the position switch is closed. The switch 28 is disconnected and the signal from the source of operating current is applied to one of the inputs of the second element of the SRI 23, appears at its output and enters the input of the second element AND 17. However, at the other input of this element associated with the output of the fourth element OR 25, there is no signal, therefore, there is no signal at the output of the second element AND 17, at the input of the third element OR 24 connected to it. At the other input of this element there is also no signal, since there is no signal at the input of the third element And 18, related with the output of the first element And 16, and the output of the third element And 18 connected in this input. There is no signal at the output of the third element OR 24 and at the prohibitive entrance of the executive body 14. If, as a result of faults in the measuring unit 1, the signal at its output is long lasting (for example, when the current starting bodies do not return to their original state after the device has turned off ), then the signal at the input and output of the fourth element of the SHS 24 signal will also remain long. After the switch is turned off, the contact of the position switch is turned off. The switch 28 is disconnected and a signal is sent to one of the inputs of the second element 23 of the operating current source and to the input of the second element I 17. From the other input of this element, connected the output of the fourth element OR 25 is also present; it appears at its output and at the associated inputs of the second and third elements OR 23 and 24, the fault signaling body in the measuring unit 27. From the output of the third element OR 24, the signal enters on and the executive actuator 14 is injected, as a result of which the device's action to turn off the switch is blocked and a fault signal is given in the measuring unit 27. If the switch is turned on again, the switch position relay turns off the switch 28 and the signal disappears at one of the inputs of the second element OR 23. However, at its second input, associated with the output of the second element And 17, the signal remains, therefore, at the output of the latter, the signal will exist for a long time, therefore protection will be t remain withdrawn from work.

After the signals disappear at the measuring unit by-pass, the signal at the output of the fourth element OR 25 disappears, at one of the inputs of the second element AND 17, at the output of the last, at the associated input of the second element OR 23, at the input and output of the third element OR 24, at the prohibiting the inlet of the actuator of the body 14 and the input of the organ of the signaling of malfunctions in the measuring unit 27. The device returns to the initial state.

The proposed device can be used for multistage distance protection with H.P. blocking. In this case, the measuring unit 1 will include start-up organs (resistance relays) IL the blocking block when swinging, connected by inputs to the outputs of current and voltage sensors, and outputs connected to the inputs of the forming unit 4, with the first inputs of elements And 5 of each stage the forming unit 4 is connected to the codes of the starting bodies of the corresponding protection level, and their second inputs are connected to the output of the protection blocking body when the measuring unit 1 swings, the input of the starting body h.ch. the transmitter and one of the inputs of its shutdown organ are connected to the output of the swing protection organ, and the second input of the shut-off organ the transmitter is connected with the output of the starting organ of the accelerated stage and

the inputs of the fourth element OR 25 are connected to all the outputs of the measuring unit. Otherwise, the design of the device and its operation does not change.

The proposed device can also be used in protection without the use of H.C. In this case, the measuring unit 1 will also include starting bodies, the number of which is equal to the number of protection stages, and the power direction organ, which are connected by inputs to the outputs of current and voltage sensors, and outputs to the inputs of the forming unit 4, with the first inputs of each from elements AND 5 of the forming unit 4 are connected to the outputs of the starting bodies of the corresponding protection level, and their second inputs are connected to the power direction of the measuring unit 1, and the inputs of the fourth element OR 25 are connected to the output Starting bodies, while the inputs of the fourth element And 19 are connected to all the outputs of the measuring unit 1. The rest of the circuit of the device and its operation does not change.

The application of the proposed device will improve the reliability of operation of multistage relay protection with H.C. by blocking (and without it) due to the actions without time delay for switching off the switch when the failure mode coincides, in the forming unit causing a signal at its output with an internal closure within the entire protected object. This is especially important for protection installed in substations without permanently on-duty personnel, when protection for malfunctions in the forming unit can remain in the dead condition for a long time, resulting in an increased likelihood of failure of the fault with internal closure and, therefore , the need to repair the damage of the reserve elements of adjacent elements, as if there is a step relay protection with a high-frequency switch on the protected object. By blocking, it performs the main and backup protection functions simultaneously.

Claims (1)

i DEVICE FOR PROTECTIVE CIRCUIT BREAKING IN THE AC NETWORK, containing a measuring unit consisting of current triggering elements, the number of which is equal to the number of protection stages, and a power direction element, the first input of which is connected to the inputs of the current starting organs and connected to the current sensor, and the second input the power direction unit is connected to the voltage sensor, forming a block consisting of AND elements, time organs, delays and signaling organs, the outputs of which are connected to the inputs of the OR element forming eye, while the first input of said I elements And connected to the corresponding | the current outputs of the current triggers of the measuring unit, and I the second inputs are combined and connected to the output of the power direction control unit of the measuring unit, and the output of the element And of the first stage is connected to the input of the corresponding signaling organ, while the outputs of the subsequent elements And of each stage through the time delay organs are connected to the outputs of the alarm organs, respectively, a high-frequency interlock containing the trigger of the high-frequency transmitter, the input of which is connected to the output of the current trigger about the organ of the last stage, and the output to the start input of the high-frequency transmitter, the stop organ of the high-frequency transmitter, the first input of which is connected to the output of the power direction organ, and the second input to the output (S of the current starting organ of the penultimate stage, while the output of the stop organ is connected to the input of the core is a new high-frequency transmitter and to the first input of the blocking organ, the second input of which is connected to the output of the high-frequency receiver, and the output through the body of the alarm signaling the operation of the high-frequency blocking and - to the last input of the OR element of the forming unit, the output of which is connected to the second input of the first AND element and to the second input of the executive body, the output of which is connected to the switch and to the alarm signaling body about the operation of the protection, and the closing contact of the position relay '' The disconnected switch is connected to the first input of the second OR element, the output of which is connected to the first input of the second AND element, the output of which is connected to the second input of the second OR element, to the input of the signaling unit about faults in the measuring unit lock and to the first input of the third OR element, the output of which is connected to the first input of the executive body, and the second input of the second AND element ^{: is} connected through the first element NOT to the · first input of the first OR element, the output of which is connected to the first input of the first AND element, the output of which connected to the input of the malfunction signaling unit in the forming unit and to the second input of the first OR element, characterized in that, in order to increase the reliability of the device in operation, the second element NOT, the third and the fourth are additionally introduced into it the fourth AND element, the fourth OR element, to the inputs of which the outputs of the current starting organs of the measuring unit are connected, and the output of the indicated OR element is connected to the input of the first element NOT and the first input of the fourth AND element, the second input of which is connected to the output of the blocking body of the high-frequency blocking, and the output of the indicated element AND through the second newly introduced element is NOT connected to the second input of the newly introduced element And, the first input of which is connected to the output of the first element And, and the output to the second input is third of the OR.