JPH0373210B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field to which the Invention Pertains] The present invention relates to a highly reliable protective relay system for protecting a power system, and more specifically, the present invention relates to a highly reliable protective relay system for protecting an electric power system, and more specifically, the present invention relates to a highly reliable protective relay system for protecting a power system. This invention relates to a protective relay system that can deal with the malfunction when the malfunction occurs.

[Prior art and its problems] In conventional power system protection systems, various methods have been incorporated depending on the importance of the power system, but malfunction output due to hardware failure of one protection relay, etc. , it is necessary to configure the system so that no trip output is generated at that output.

As a countermeasure against such malfunctions, as shown in Figure 1, the mainstream is a duplex configuration that obtains an AND output of the main detection protection relay 1A (or 1B) and the accident detection protection relay 2A (or 2B). There is. In addition, in FIG. 1, 3A, 3B, 4A, and 4B are output auxiliary relays.

However, in this system configuration, protection relay 1
Although it is possible to completely prevent the malfunction of one of relays 2 and 2 (or 3 and 4), it has the disadvantage of not being able to prevent malfunctions of these protection relays. In this way, two lines of protection relay systems having a duplex configuration are arranged in parallel, and the logical sum output is obtained as the trip output command 5, thereby making it possible to cope with malfunctions and malfunctions. If the number of protection systems is increased in order to improve reliability, it becomes difficult to downsize and downsize the device.

[Object of the Invention] Therefore, the object of the present invention is to provide two main detection protection relay systems, the first main detection protection relay system and the second detection protection relay system.
It is an object of the present invention to provide a protective relay system that can eliminate the above-mentioned disadvantages of malfunctions and provide a system configuration that is easy to operate and maintain in a single-series system, thereby achieving high reliability.

[Summary of the Invention] In order to achieve the above object, the present invention has the following features:
In a protective relay system having a main detection protection relay system and a second main detection protection relay system, the first
The output of the main detection protection relay system is passed through a first time-limiting element to become a second main detection backup signal; the output of the second main detection protection relay system is passed through a second time-limiting element to become a first main detection backup signal; outputting the logical sum of the output of the main detection protection relay system and the first main detection backup signal; outputting the logical sum of the output of the second main detection protection relay system and the second main detection backup signal; 2
It is characterized in that the AND output of the outputs of two ORs is used as a trip command.

[Embodiments of the Invention] The present invention will be described in detail below with reference to the drawings.

The basic configuration of the duplexed single line according to the present invention is explained in the second example.
As shown in the figure. Here, the output of the first main detection protection relay 8 is supplied to the first main detection auxiliary output relay 9, and is also supplied to the second main detection backup auxiliary relay 11 via the buffer timer 10. Similarly, the output of the second main detection protection relay 12 is supplied to the second main detection auxiliary output relay 13 and is also supplied to the first main detection backup auxiliary relay 15 via the buffer timer 14.

The respective output contacts of the first main detection auxiliary output relay 9 and the first main detection backup auxiliary relay 15, that is, normally open contacts 9a and 15a, are connected in parallel to obtain a logical OR output. Furthermore, the output contacts of the second main detection auxiliary output relay 13 and the second main detection backup auxiliary relay 11, that is, the normally open contacts 13
A and 11a are connected in parallel to obtain an OR output. The AND output obtained by connecting the parallel-connected contacts 9a and 15a and the parallel-connected contacts 13a and 11a in series is set as a trip command 16.

It is assumed that two circuits are installed for each relay output section of protection relays 8 and 12, and hardware division is performed.

When either one of the first main detection protection relay 8 and the second main detection protection relay 12 malfunctions, the output relay of the other side is energized after each of the timers 10 and 14 has expired. Therefore, even if one of the protection systems malfunctions, the output of the non-operating side is forcibly bypassed after a certain period of time, so that the protective relay device becomes unresponsive when such malfunction occurs. Backup will be performed to eliminate all accidents, and one protection system will be able to respond to accidents.

In addition, in the basic configuration shown in Fig. 2, the first
Main detection protection relay 8 and second main detection protection relay 12
Although the object of the present invention is achieved by dealing with malfunction of either one of them, malfunction of either one cannot be coped with.

FIG. 3 shows an embodiment of the present invention.

Here, in the first main detection relay unit 21, the output of the first main detection protection relay 8 is connected to a first main detection relay timer 22, a first main detection cooperative timer 23 that interlocks with the first main detection relay timer 22, and a prohibition It is supplied to the inhibit input terminal of gate 24.
The output of the inhibit gate 24 is supplied to a malfunction lock cooperation timer 25. 1st main detection relay timer 2
The output of No. 2 is supplied to the first main detection auxiliary output relay 9. The output of the cooperative timer 23 is supplied to the second main detection backup auxiliary relay 11 via the buffer timer 10. Malfunction lock cooperation timer 2
The output of 5 is supplied to the second main detection lock relay 26.

On the other hand, in the second main detection relay unit 31, the output of the second main detection protection relay 12 is transmitted to the second main detection relay timer 32, the second main detection relay timer, as in the case of the first main detection relay unit 21. 32 and the inhibit input terminal of the inhibit gate 34. The output of the inhibit gate 34 is supplied to a malfunction lock cooperation timer 35. The output of the second main detection relay timer 32 is supplied to the second main detection auxiliary output relay 13 . The output of the second main detection cooperative timer 33 is supplied to the first main detection backup auxiliary relay 15 via the buffer timer 14. The output of the malfunction lock coordination timer 35 is sent to the first main detection lock relay 36.
supply to.

Relays 9 and 11 are connected to power supply line P via normally closed contact 36b of first main detection lock relay 36. Similarly, relays 13 and 15 are
It is connected to the power supply line P via the normally closed contact 26b of the main detection lock relay 26. The first and second main detection lock relays 26 and 36 have their own contacts 26a and 36a, respectively, for self-holding.
A series circuit consisting of the lock reset push button switches 27 and 37 is connected between the power supply line N and the lock reset push button switches 27 and 37.

A series circuit of the normally open contacts 13a 2 and the normally closed contacts 15b of the relays 13 and 15 on the second system side is connected to the other input terminal of the above-mentioned inhibition gate ₂₄ with a potential point at logic level "1". do. Similarly, the other input terminal of the above-mentioned inhibition gate 34 is connected to a series circuit of normally open contacts 9a ₂ and normally closed contacts 11b of relays 9 and 11 on the first system side with a potential point of logic level "1". Connect between.

The trip output command 16 is generated by an OR circuit formed by parallel contacts of the normally open contacts 9a ₁ and 15a of the first main detection auxiliary output relay 9 and the first main detection backup auxiliary relay 15, and the second main detection auxiliary output. An AND configuration in which the relay 13 and the normally open contacts 13a ₁ and 11a of the relay 13 and the second main detection backup auxiliary relay 11 are connected in parallel with an OR circuit is connected to the power supply line P to improve the reliability of the malfunction side. ensure sex.

A power supply device 40 is provided commonly to both units 21 and 31, and its output is connected to power switches 41 and 4.
It is convenient to supply the first main detection relay unit 21 and the second main detection relay unit 31 via the main detection relay unit 21 and the second main detection relay unit 31 to facilitate maintenance when one system is stopped.

In the embodiment shown in FIG. 3, it is assumed that the first main detection relay 8 or the second main detection relay 12 malfunctions, for example, the second main detection relay 12 malfunctions and outputs an output. In this case,
The output relay 13 operates after the second main detection relay timer 32 has expired. A state change due to the malfunction is input to the first main detection relay unit 21 via contact circuits _13a2 and 15b. Since the first main detection relay unit 21 normally does not operate, the prohibition gate 24 is not in the prohibition state, and the contact outputs 13a ₂ and 1
5b activates the device lock buffer timer 25. At this time, the time limit of the cooperative timer 33 interlocked with the second main detection relay timer 32 is set to be longer than the malfunction lock cooperative timer 25. By energizing the locking relay 26 by the output of the malfunction lock coordination timer 25, the second
The operation of relays 13 and 15 on the main detection side is blocked to lock the device, and an alarm is issued as required.

The above is the operation when the second main detection protection relay 12 outputs an error, but it operates in the same way when the first main detection protection relay 8 outputs an error. You can back up to avoid issuing trip commands.

Output of each relay unit (timer output 22,
23 or 32, 33) outputs an erroneous output at the same time, in this case, the contact circuits 13a ₂ and 15b and 9a ₂ and 11b of the opposite unit are connected to the cooperative timers 23 and 33.
A logic level "1" is supplied to inhibit gates 34 and 24, respectively, until the timer output of . At this time, since the inhibit gates 24 and 34 are in the enabled state, the malfunction lock cooperative timers 25 and 35 are energized, and the main detection lock output relays 26 and 36 are operated by the timer output, and the first main detection side The output relays 9 and 11 are locked and held by the contacts 36b of the first main detection lock output relay 36, while the second main detection side output relays 13 and 15 are locked by the contacts 36b of the second main detection lock output relay 26. 26b to lock and hold. In this way, both units mutually monitor each other, and when an abnormal malfunction is output, the other unit is locked and prevented from issuing the trip command.

Furthermore, when one system of the first main detection relay unit 21 or the second main detection relay unit 31 is stopped,
In other words, if one system malfunctions, take the following steps. Note that these units 21 or 3
When unit 1 is malfunctioning, unit 2 is malfunctioning.
1 or 31 completely stops and becomes unable to function. One form of the total stoppage is an inoperable state in which the power switch 41 or 42 is not turned on. Therefore, those units 2
1 or 31 is malfunctioning, the malfunction lock coordination timer 25 or 35 is not activated and the locking relay 26 or 36 is not activated.

For example, when the first main detection relay unit 21 malfunctions, the output relay 13 of the normally operating second main detection relay unit 31 operates after the second main detection relay timer 32 has expired, and the contact circuit 13a ₂ and 15b, a logic level "1" potential is input to the first main detection relay unit 21. However, the first main detection relay unit 21
Since the entire system is stopped, the malfunction lock coordination timer 25 does not start, and the lock relay 26 does not operate. Therefore, the first main detection backup auxiliary relay 15 is operated by the output obtained through the malfunction cooperation timer 33 and the buffer timer 14, and a trip command 16 is obtained through the contact circuits 15a and 13al.

On the other hand, when the second main detection relay unit 31 malfunctions, it operates in the same way, and the units 21 and 3
1 backs up the malfunctioning side by mutual monitoring.

Buffer timers 10 and 14 are connected to output relays 11 and 15 so that the device can be locked even when the two series outputs of timers 22 and 23 and 32 and 33 of each relay unit 21 and 31 are output simultaneously. This is to ensure the timing of giving the signal.

[Effect of the invention] As is clear from the above, according to the present invention, 2
When one of the two relay systems stops and becomes malfunctioning, a conventional duplex two-line configuration, that is, a duplex protective relay system, is used to deal with the malfunction. Instead of the configuration in which two lines of protection relay systems are arranged in parallel, it is possible to adopt a duplex one-line configuration, that is, a configuration in which only one line of duplex protection relay system is provided.

As a result, the configuration is simplified by one line of the duplex protection relay system, making it possible to reduce the overall size of the device, as well as making operation and maintenance easier and achieving high reliability. .

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a configuration example of a conventional duplex two-line system, FIG. 2 is a circuit diagram showing the basic configuration of a duplex one-line system according to the present invention, and FIG.
The figure is a circuit diagram showing an embodiment of a duplex single-line system with a device lock function according to the present invention. 1A, 1B...Main detection protection relay, 2A, 2B
... Accident detection protection relay, 3A, 3B, 4A, 4
B... Output auxiliary relay, 5... Trip output command, 8... Main detection protection relay, 9... First main detection auxiliary output relay, 10... Buffer timer, 11
...First main detection backup output relay, 12
...Second main detection protection relay, 13...Second main detection auxiliary output relay, 14...Buffer timer, 15
...Second main detection backup output relay, 16
... Trip output command, 21 ... First main detection relay unit, 22 ... First main detection relay timer, 23 ... First main detection cooperation timer, 24 ...
Prohibition gate, 25...Malfunction lock coordination timer, 26...Second main detection lock relay, 27...
...Push button switch for lock reset, 31...
...Second main detection relay unit, 32...Second main detection relay timer, 33...Second main detection cooperation timer, 34...Prohibition gate, 35...Malfunction lock cooperation timer, 36...First main detection lock 37... Push button switch for lock reset, 40... Power supply device, 41... Main detection side power switch, 42... Accident detection side power switch.

Claims (1)

[Claims] 1. In a protective relay system having a first main detection protection relay system and a second main detection protection relay system, the output of the first main detection protection relay system is passed through a first time-limiting element to two main detection backup signals; the output of the second main detection protection relay system is passed through a second time-limiting element to become a first main detection backup signal; the output of the first main detection protection relay system and the first main detection backup signal output the logical sum of the output of the second main detection protection relay system and the second main detection backup signal, and output the logical product of the two logical sum outputs as a trip command. A protective relay system characterized by: