JPH09182273A - Protective relay device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To see that the device does not lock even in the case of having detected the trouble of automatic monitor uselessly, by detecting the detection time of the trouble occurrence of automatic monitor being within a specified time, and deferring a plural systems of devices from locking, by detection output. SOLUTION: A protective relay device is a circuit for detecting the detection time of the trouble occurrence of the automatic monitoring of plural devices being within a specified time. Then, in case that the device 11A outputs a signal of automatic monitor trouble A, a holding circuit 16A is set after confirming, for a time limited by a timer 14A, that there is no output of automatic monitor trouble of the device 11B with an AND gate 12A through a NOT gate 13A, and the device lock 17A is performed by the output of the holding circuit 16A. Moreover, the cancellation of the holding circuit is performed by the trouble of the device 11A having vanished by the NOT gate 15A. This is of the same constitution as to the trouble of the device 11B. As a result, even in case that it detects trouble of automatic monitor uselessly by system phenomena, the protective function can be made the most of without getting into device lock.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a protective relay device having an automatic monitoring function, which locks the device when a defect is detected and protects a power system.

[0002]

2. Description of the Related Art Automatic monitoring is an important function for protective relay devices. The protection relay does not operate when the power system is normal, and operates only when an accident occurs in the system. Therefore, it is absolutely necessary to avoid a situation where the protective relay itself has a failure and cannot operate when a system accident occurs. This is the basic idea of automatic monitoring in protection relays.

There are two modes of protection relay failure. That is, there are a mode in which the relay malfunctions and a mode in which the relay malfunctions. It is relatively easy to detect a mode that causes a malfunction, and this can be achieved by constantly monitoring the output of the protection relay and issuing an alarm when the output continues for a certain time or longer.

That is, an accident that occurs in the electric power system does not continue for a long time. Therefore, if the protection relay continues to output operation for a time longer than the maximum duration of an accident that can occur in the power system, it is determined that the protection relay has a failure. This failure detection method is generally called “constant monitoring”.

On the other hand, the malfunction detection on the malfunction side is relatively difficult because the malfunction phenomenon does not become apparent during normal times. "Automatic inspection" is necessary to detect this malfunction-side failure.

[0006] For example, the protection function is locked once a week, and an AC input similar to that of a system accident is simulated to confirm that the protection relay responds correctly. By such automatic monitoring including “always monitoring” and “automatic inspection”, the protection relay has conventionally established high operation reliability.

FIG. 3 shows a general structure of a digital relay. In the figure, reference numeral 33 is an input converter, which receives the voltage amount of the power system from the PD 31 and the current amount from the CT 32, respectively, and converts it into a voltage signal of an appropriate size. Reference numeral 34 is an A / D converter, which sequentially converts a plurality of analog signals from the input converter 33 into digital signals.

Reference numeral 35 is a memory unit for storing digital conversion data of system voltage and current output from the A / D conversion unit 34. Reference numeral 36 is an arithmetic unit MPU, which is usually composed of a microcomputer. 37 is a memory (ROM) for storing the calculation program.

Reference numeral 38 is an input interface (D / I) for taking in external conditions, and the settling value of the protection relay is also taken in through this input interface. 39 is an output interface (D / O), and a trip command to the circuit breaker 310 installed in the electric power system is also issued via this output interface 38.

[0010]

In such a digital relay, usually, it is strictly and automatically monitored. The automatic monitoring system for digital relays is described in detail in Electric Cooperative Research (Vol. 50, No. 1, "2nd Generation Digital Relays", Chapter 4), so it will not be detailed here, but as an examination item for the automatic monitoring system. An example of unnecessary detection of the analog input section is given.

The analog input section is a section for taking in the voltage or current on the secondary side of the PD 31 and CT 32 and converting it into digital data. The input converter 33, the A / D conversion section 34, and these inside the apparatus. And a control cable for connecting between the relay device and the PD, CT.

Therefore, as an automatic monitoring method for the analog input section, it is necessary to detect disconnection and short circuit between the PD and CT and the A / D conversion section, and the following monitoring method is applied.

(I) CT circuit ・ Zero-phase current monitoring

[Number 1] _{| I a + I b + I} c -3I 0 | -α × max (|
I _a |, | I _b |, | I _c |)> ε where α: ratio coefficient, ε: detection sensitivity.・ Monitoring current balance of each phase

[Number 2] _{max [I i] -α × min} [I i]> ε However, I _i: the phase current. As a result, even if the current is about 5% of the rated current, disconnection,
Detect a short circuit failure.

(Ii) PD (PT) circuit

## EQU3 ## | V _a + V _b + V _c |> ε Detection sensitivity ε is set to about 20% to detect disconnection and short circuit failure of the PD (PT) circuit.

On the other hand, in the above-described analog input automatic monitoring method, there are many cases in which the automatic monitoring failure is unnecessarily detected due to a system phenomenon. (Case example) Current fluctuation due to flicker load. A system micro-ground fault. Generation of zero-phase voltage during system switching. PD (PT) insulator cleaning work. Current imbalance in the bus bridge.

As a countermeasure of this example, the setting of the detection sensitivity and the detection time is changed, but it is difficult to quantitatively grasp the system phenomenon, and unnecessary detection cannot be avoided.

In many cases, in the protection relay device, when automatic monitoring failure occurs, a device lock for automatically locking the protection function is implemented so as not to actually damage the system operation.

A protection relay device which has an automatic monitoring function and protects the power system such that the device is locked when a defect is detected is
When a failure is unnecessarily detected due to a system phenomenon, all protection relay devices connected to the same power system also detect a failure, and all protection relay devices become device locked, and all protection functions of the power system are lost. . This causes the system reliability improvement measures such as the multi-sequencing of the device or the dual configuration of the main protection and the backup protection to lose their functions.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a protection relay device that does not lock the device even when an automatic monitoring failure is unnecessarily detected. There is.

[0020]

A protection relay device according to claim 1 of the present invention takes in an amount of electricity from a power system,
In a protection relay device that performs arithmetic processing to protect the power system and has an automatic monitoring function and locks the device when a failure is detected, the automatic monitoring failure occurrence time of multiple series devices having the same function must be within a predetermined time. And means for preventing the plurality of series of devices from locking the device due to the detection output.

In short, when a plurality of devices separated by hardware detect a defect at approximately the same time, it can be said that this is a common phenomenon rather than a cause peculiar to the devices. Thus, even if an automatic monitoring failure is unnecessarily detected due to a system phenomenon, the device is not locked and the original protection function can be utilized.

A protection relay device according to a second aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, means for detecting that the contents of failure of automatic monitoring failure occurrence in a plurality of series devices having the same function are the same, and means for preventing the plurality of series devices from locking the device due to the detection output. It was

In short, if a plurality of devices separated by hardware have the same defect content, it can be said that they are common causes. Thus, even if an automatic monitoring failure is unnecessarily detected due to a system phenomenon, the device is not locked and the original protection function can be utilized.

A protection relay device according to a third aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, a means for detecting that the detection time of the automatic monitoring failure occurrence of the main protection device and the protection device for protection in the protection section is within a predetermined time, and the main protection device and the concerned by the detection output. And a means for preventing the protection device from locking the device.

In the third aspect, the basic operation is the same as that of the first aspect, except that the compared devices are the main protection device and the backup protection device in the protection section.

A protection relay device according to a fourth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, means for detecting that the main protection targeting the protection section and the contents of the automatic monitoring failure of the backup protection device are the same, and the detection output, the main protection device and the backup protection device. Means for preventing the device from locking.

The fourth aspect of the invention is the same as the third aspect of the invention, except that the condition for preventing the device lock is that the cause of the automatic monitoring failure is the same.

A protection relay device according to a fifth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, a means for detecting that the detection time of the automatic monitoring failure occurrence of the main detection relay having the protection judgment function and the fail-safe accident detection relay is within a predetermined time, and the protection device is locked by the detection output. And a means for blocking.

According to a fifth aspect of the present invention, the devices to be compared are a main detection relay having a protection determination function and a fail-safe accident detection relay, and the basic operation is the same as that of the first aspect.

A protection relay device according to a sixth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, a means for detecting that the main contents of the automatic detection failure of the main detection relay having the protection judgment function and the fail-safe accident detection relay are the same and the detection output prevents the protection device from locking the device. And means for doing so.

The sixth aspect is the same as the fifth aspect, except that the condition for preventing the device lock is the same as the cause of the automatic monitoring failure occurrence.

A protection relay device according to a seventh aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the equipment, the amount of electricity of a predetermined line is taken in and the protection calculation and automatic monitoring are performed. The automatic monitoring failure time of the transmission line protection relay device and the amount of electricity of multiple lines connected to the busbar are taken in to perform the protection calculation and automatic monitoring. A means for detecting that the time of occurrence of a failure in automatically monitoring the electric quantity of the predetermined line of the protection relay device is within a predetermined time, and the transmission output protection relay device and the busbar protection relay device are locked by the detection output. And a means for blocking.

According to a seventh aspect of the present invention, the devices to be compared are a transmission line protection relay device and a bus protection relay device, and the basic operation is the same as that of the first aspect.

A protection relay device according to an eighth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the equipment, the amount of electricity of a predetermined line is taken in and the protection calculation and automatic monitoring are carried out. A means for detecting that the contents of failure of automatic monitoring of electricity quantity of the predetermined line of the busbar protection relay device to be performed are the same, and the transmission output protection relay device and the busbar protection relay device are device-locked by the detection output. And a means for preventing this.

The eighth aspect is the same as the seventh aspect, except that the condition for preventing the device lock is the same as the cause of the automatic monitoring fault occurrence.

A protection relay device according to a ninth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, the time of occurrence of automatic monitoring failure of the busbar communication protection relay device that takes in the CT electric quantity of the busbar communication and performs the protection calculation and automatic monitoring and the predetermined electricity of the transformer protection relay device connected to the same busbar as the busbar communication. A means for detecting that the time when the automatic monitoring failure of the quantity occurs is within a predetermined time, and a means for preventing the bus lock protection relay device and the transformer protection relay device from being locked by the detection output.

In the ninth aspect, the devices to be compared are the busbar connection protection relay device and the transformer protection relay device, and the basic operation is the same as in the first aspect.

A protection relay device according to a tenth aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. In the device, the contents of failure in automatic monitoring of a busbar communication protection relay device that takes in the CT electric quantity of the busbar communication and performs protection calculation and automatic monitoring and a predetermined value of a transformer protection relay device connected to the same busbar as the busbar communication are specified. Automatic monitoring of the electric quantity of the device, means for detecting that the content of the failure is the same, and means for preventing the bus lock protection relay device and the transformer protection relay device from being locked by the detection output. It was

The tenth aspect of the invention is the same as the ninth aspect, except that the condition for preventing the device lock is that the cause of the automatic monitoring failure is the same.

A protection relay device according to an eleventh aspect of the present invention is a protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. The device takes in a plurality of electricity quantities (voltage quantity, current quantity, etc.) and detects that a predetermined number or more (including all) of the plurality of electricity quantities have an automatic monitoring failure at the same time. And a means for preventing the protective device from locking the device due to the detection output.

For example, in one protection relay device that takes in a plurality of voltage amounts or current amounts, if it is known that the voltage amounts or current amounts are the same, for each voltage amount or current amount, If a failure in the same mode is detected, it is highly possible that the failure is detected due to a systematic phenomenon. Therefore, even if a single device is equipped with a circuit for detecting the simultaneous failure occurrence of a plurality of electric quantities,
The output prevents the protection relay device from locking the device.

Further, when the voltage amount and the current amount are fetched and used for the protection relay calculation for the same protection section, the simultaneous failure detection in both the voltage amount and the current amount causes the system disturbance. There is a possibility that Therefore,
These cases are basically the same as those described above.

[0043]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing an embodiment of a protection relay device of the present invention. This example is a circuit that detects that the detection time of occurrence of automatic monitoring failure of a plurality of devices is within a predetermined time, and is configured to lock the devices when it is outside the predetermined time.

In FIG. 1, 11A and 11B are devices each having an automatic monitoring function. When the device 11A outputs the automatic monitoring failure A, the AND gate 12A confirms that the automatic monitoring failure B of the device 11B is not output and sets the holding circuit 16A after confirming only the time of the timer 14A via the NOT gate 13A.
The purpose of the timer 14A is to prevent the holding circuit 16A from being unnecessarily set due to the defect detection time lag between the device 11A and the device 11B, and has a time limit of, for example, several seconds.

Device lock 17A by output of holding circuit 16A
It was designed to do. Releasing the holding circuit is NO
This is done because the defect of the device 11A is eliminated by the T gate 15A. Although not shown, it may be added if an operation for restoring the display is necessary. The device 11B has the same configuration for the defect.

FIG. 2 is a diagram showing another embodiment of the protection relay device of the present invention. In this example, a circuit for detecting that the contents of failure in the automatic monitoring failure occurrence of a plurality of devices are the same, and is configured to lock the device when the contents of the defects are not the same.

In FIG. 2, 21A and 21B are devices each having an automatic monitoring function, and have monitoring items 1, 2, ..., N. If device 21A outputs monitoring item 1, A
ND gate 22 has the same monitoring item 1 for device 21A and device 21B.
Is detected, and there is no same monitoring item, NO
The T gate 23 outputs.

The output of this 23 and the output of the monitoring item 1 of the device 21A are output by the AND gate 24A, and after checking only the time limit of the timer 25A, the device lock 35 is output via the OR gate 34A.
It is configured to produce the output of A.

The purpose of installing the timer 25A is to prevent the device from being unnecessarily locked due to the time lag of the defect detection time of the device 21A and the device 21B. For example, the time is set to about several seconds. The monitoring items 2 to n have the same configuration. Further, the same configuration is applied to the defect of the device 21B.

As a plurality of devices to which the present invention shown in FIGS. 1 and 2 is applied, the following various combinations are possible due to the operation of taking in power from the power system or the protection function. Multiple series of devices with the same function. The main protection device and the backup protection device for protection within the protection section. Main detection relay with protection judgment function and fail-safe accident detection relay.

Transmission line protection relay device and busbar protection relay device. When applied to the n-line of the busbar protection relay device, the condition of the n-line of the transmission line protection relay device is used. By combining the busbar protection relay device and the transformer protection relay device, it is possible to detect defects due to the transformer inrush current.

Next, in each of the above-described embodiments, 11A and 11B are described as devices or functions, but the invention is not limited to this. That is, 11A and 11B may be the monitoring failure detection processing in the same device for the voltage amount 1 and the voltage amount 2, respectively. At this time, the value of the timer 14A may be determined in consideration of the time lag of the defect detection time due to the difference in processing time between the monitoring failure A and the monitoring failure B.

Further, 11A can be used as a detection error detection for the current amount 1 and 11B for the current amount 2, and 11A can be used as the voltage amount and 11B can be the current amount related to the voltage amount of 11A. .

[0054]

As described above, according to the present invention, even when an automatic monitoring failure is unnecessarily detected due to a system phenomenon, the device is not locked and the original protection function can be utilized.

[Brief description of the drawings]

FIG. 1 is a device lock diagram when an automatic monitoring failure occurs according to an embodiment of the present invention.

FIG. 2 is a device lock diagram of another embodiment of the present invention when an automatic monitoring failure occurs.

FIG. 3 is a functional block diagram of a protection relay device.

[Explanation of symbols]

11A, 11B, 21A, 21B Device 12A, 12B, 22, 24A, 24B, 26, 28A, 28B, 30, 32A, 32B
AND gates 13A, 13B, 15A, 15B, 23, 27, 31 NOT gates 14A, 14B, 25A, 25B, 29A, 29B, 33A, 33B Timers 34A, 34B OR gates 16A, 16B Holding circuit

Claims (11)

[Claims] 1. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. A means for detecting that the detection time of the automatic monitoring failure occurrence of the protection relay device is within a predetermined time with the detection time of the automatic monitoring failure occurrence of the protection relay device, and the protection output device locks the device by the detection output. And a protection relay device having means for preventing the above. 2. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. A protection relay device comprising: means for detecting that the contents of failure caused by automatic monitoring failure are the same; and means for preventing the plurality of series of devices from being locked by the detection output. 3. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. A means for detecting that the detection time of the automatic monitoring failure occurrence of each of the main protection device and the backup protection device is within a predetermined time, and the main protection device and the backup protection device are locked by the detection output. A protection relay device comprising means for blocking. 4. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. Means for detecting that the main protection device and the backup protection device have the same content of failure in automatic monitoring failure, and the detection output prevents the main protection device and the backup protection device from locking. And a protection relay device. 5. A main detection relay having a protection determination function in a protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. And a means for detecting that the detection time of occurrence of automatic monitoring failure of each of the fail-safe accident detection relays is within a predetermined time, and means for preventing the protection relay device from locking the device by the detection output. A protective relay device characterized in that 6. A main detection relay having a protection judgment function in a protection relay device which takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. And a means for detecting that the failure contents of the respective automatic monitoring failures of the fail-safe accident detection relay are the same, and means for preventing the protection relay device from locking the device by the detection output. Protection relay device characterized by. 7. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. The automatic monitoring failure time of the transmission line protection relay device that performs calculation and automatic monitoring, and the amount of electricity of the multiple lines connected to the bus bar are taken in. It is provided with means for detecting that the time of occurrence of automatic monitoring failure is within a predetermined time, and means for preventing the transmission line protection relay device and the busbar protection relay device from being locked by the detection output. And protection relay device. 8. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. Automatic monitoring of the transmission line protection relay device that performs calculation and automatic monitoring The failure content of the occurrence of failure and the electric quantity of multiple lines connected to the bus bar are taken in, and the electricity of the predetermined line of the bus line protection relay device that performs protection calculation and automatic monitoring is acquired. A means for detecting that the contents of the failure of the automatic monitoring of the quantity are the same, and a means for preventing the transmission line protection relay device and the bus bar protection relay device from being locked by the detection output. Characteristic protection relay device. 9. In a protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected, the amount of CT electricity for busbar communication is taken in. Within a predetermined time, the automatic monitoring failure time of the bus relay protection relay device that performs protection calculation and automatic monitoring and the automatic monitoring failure time of the specified electricity quantity of the transformer protection relay device connected to the same bus as the bus communication And a means for preventing the bus lock protection relay device and the transformer protection relay device from being locked by the detection output. 10. A protection relay device that takes in the amount of electricity from the power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. Fault content of automatic monitoring failure of bus relay protection relay device that performs protection calculation and automatic monitoring and fault content of automatic monitoring failure of predetermined amount of electricity of transformer protection relay device connected to the same bus as the bus communication And a means for preventing the bus lock protection relay device and the transformer protection relay device from being locked by the detection output. 11. A protection relay device that takes in the amount of electricity from a power system, performs arithmetic processing to protect the power system, has an automatic monitoring function, and locks the device when a failure is detected. A means for detecting that an automatic monitoring failure has occurred at the same time with respect to a predetermined number or more of a plurality of electric quantities and a means for preventing the protection device from locking due to the detection output are provided. Protection relay device characterized by.