JP2883472B2 - Circuit breaker malfunction prevention device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit breaker non-operation countermeasure device having an automatic monitoring function, and more particularly to a device for forming a trip circuit with a fault protection condition of a line protection device as a fail-safe condition. The present invention relates to a circuit breaker inoperability countermeasure device in which a fail-safe condition is not lost even if the continuation is continued and a monitoring failure is not always detected.

[0002]

2. Description of the Related Art When an accident current cannot be interrupted when a circuit breaker is defective, the accident current can be removed at high speed due to damage to equipment and the extent of the accident due to the accident current, widening of the range of power failure, and spreading to the entire power system. It is necessary to cut off the selection correctly.

[0003] In general, measures to be taken in the event of failure to shut off an accident due to a circuit breaker non-operation, etc., depend on far-end protection.
As described above, a circuit breaker non-operation countermeasure device is applied to a circuit breaker at an important electric station in which the accident spread due to the failure of the circuit breakout is significantly increased. The cause of failure to shut off in the event of an accident is as follows. (1) Faulty circuit breaker tripping circuit Disconnection of the tripping circuit, short circuit, faulty pallet switch, D
C control power supply failure, etc. (2) Defective mechanical operation system of circuit breaker Defective operation mechanism, low operating pressure, etc. (3) Defective main interrupting section Failure due to short-range accidents between flashovers between poles after opening the main interrupting section due to multiple lightning, and breaker breakage.

The countermeasure against circuit breaker non-operation is to deal with the failure of the circuit breaker due to the above-mentioned cause of the failure. FIG. 2 is an example of a basic circuit configuration diagram. That is, as shown in FIG. 1, the lines 2a, 2b, 2c are connected to the bus 1 via circuit breakers 3a, 3b, 3c, respectively. The line protection device 6 includes the voltage from the transformer 5 provided on the bus 1 and the line 2.
The current of the current transformer 4a provided in c is input. Also, the output of the current transformer 4b provided on the line 2c is a bus-tie breaker BP
7 to be input to the overcurrent relay 8. The output 6t of the line protection device 6 and the output 8i of the overcurrent relay 8 correspond to the settling time t of the circuit breaker non-operation determination timer 9.
By continuing one or more, it is determined that the circuit breaker is not operating,
The trip command 9t is output, and the circuit breakers 3a, 3b, 3c connected to the same bus 1 are cut off to eliminate the accident. Note that the overcurrent relay 8 is added as a malfunction prevention device since a malfunction of the circuit breaker inoperability countermeasure device significantly affects the system.

[0005] Further, the shut-off command by the shut-off device non-operation countermeasure device is usually selectively shut off through the control circuit of the bus protection device. The interruption method differs depending on the bus method. Here, selective interruption by the double-bus standard method will be described with reference to the circuit configuration diagram of FIG.

FIG. 3 is a circuit diagram of the dual bus system. If an accident F occurs on the line L1 and the circuit breaker CB1 fails to cut off, the busty circuit breaker CB7 and the bus 1
The circuit breakers CB3 and CB5 connected to a are cut off to eliminate the accident. L2, L3, L4 are tracks, C
B2, CB4, CB6 are circuit breakers connected to bus 1, T
1 and T2 are transformers.

The above explanation is about the basic concept of the countermeasure against circuit breaker non-operation. Next, FIG.
The circuit breaker non-operation detecting circuit and the trip circuit of FIG.

When an accident occurs on the track, the track protection device 6
Detects an accident and outputs a trip command to the circuit breaker, and at the same time, trips to the circuit breaker non-operation countermeasure device.
a, 6b, 6c and an accident detection condition signal 6d. In the circuit breaker non-operation countermeasure device, the trip command conditions 6a, 6b, 6c, 6d and the overcurrent relay outputs 0C1, 0C are set.
By AND condition between C2,0C3 is (operation more breaker) settling limit t ₁ or more breaker inoperative determination timer 9 continues to detect a breaker inoperative, by selecting shutdown circuit 21 of the busbar protection device Then, the trip command relay 31 of the circuit breaker connected to the same bus is operated. In consideration of the influence on the system when the circuit breaker non-operation countermeasure device malfunctions, the trip circuit includes a fail-safe relay (accident detection condition) 32 and the above-described shut-off command relay 3 as shown in FIG.
By configuring 1 as an AND condition, malfunction is prevented. The fail safe relay 32 is also used as a fail safe relay of the bus protection device. This is because the failure is eliminated by performing selective interruption using the interruption circuit of the device, and the fail-safe relay can also be used. However, in a case where the detection of an accident of the bus protection device cannot be expected, such as an uncompleted accident on the track (an end-to-end accident near the other end), the fail-safe relay 32 does not operate.
Since the circuit breaker cannot be tripped and the accident cannot be removed, as a countermeasure, the accident detection condition 6d, which is taken in by the line protection device for the judgment of the interruption non-operation detection, is used as a fail-safe relay. Make up the circuit.

In general, a protection device, particularly an all-stationary or digital device, has an automatic monitoring function, detects defects early, and improves the reliability of the device. That is, as shown in FIG. 4 (c), the circuit breaker inoperability countermeasure device constantly monitors the contacts of the fail-safe relay 32 and the break command relay 31, thereby improving the reliability. Specific methods of automatic monitoring can be divided into monitoring and inspection. Monitoring is to constantly check for the presence or absence of an abnormality in the relay.For example, always monitor the final output of the output of the relay, which should always be inoperative, and if it operates, detect it as abnormal and detect the failure, An alarm is output. However, since the final output of the relay naturally operates in the event of a system failure, it is necessary to determine that the relay is abnormal on the condition that the operation continues for the duration of the system failure or longer.
Inspection is performed by applying a simulated input different from that in the normal state to the relay at regular intervals to determine whether the operation is normal. This is necessary because the relay has the characteristic that it is always inoperative as the final output, and finds out the malfunction of the relay beforehand.

[0010]

Therefore, in the case of the circuit breaker inoperability countermeasure device shown in FIG. 4 having the above-mentioned automatic monitoring,
When an accident occurs on the track, the fault is detected by the line protection device 6 of the line, the circuit breaker of the line is tripped, and at the same time, the fault detection condition 6 is transmitted to the circuit breaker non-operation countermeasure.
d, outputting the shutoff command conditions 6a, 6b, 6c. In the circuit breaker non-operation device, the outputs 6a, 6b, 6c, and 6d from the line protection device 6 and the overcurrent relay outputs 0C1,
At the 0C2,0C3 the AND condition is continued stabilization time limit t ₁ or more breaker inoperative determination timer 9, determines that the breaker inoperable, to operate the cutoff command relay 31. The fail-safe relay 32 is connected to the bus protection device 11, 1
3 operates under the output of the fault detection conditions 11a and 13a or the fault detection condition 6d of the line protection device, and is connected to the circuit breaker non-operation line when the AND condition with the operation of the above-mentioned breaking command relay 31 is satisfied. To select and cut off the bus. Therefore, the fault detection conditions 11a, 13b and 6d of the bus protection device and the line protection device connected to the stop bus continue to operate due to no bus voltage. As a countermeasure, the bus protection devices 11 and 13 have a bus voltage of 3
Full stop detection circuits 12 and 14 are provided for determining that all stops have occurred when the unconditions of the phases continue for a certain period of time and locking the output.

However, the accident detection condition 6 of the track protection device 6
d is not always securely locked on the sending side. In order to perform the total stop lock on the receiving side, it is impossible for the receiving side to determine which bus the accident detection condition 6d is connected to, and the full stop lock by the bus protection devices 11 and 13 is not performed. Therefore, the accident detection condition 6 of the track protection device 6
As for d, the output is continued without the bus voltage due to the bus stop, and the fail-safe relay 32 is continuously operated. Therefore, the fail-safe relay condition is lost. Also, FIG.
Since the contacts make the fail-safe relay 32 continues the settling time t ₃ or more continuous monitoring timer 16 at all times monitoring circuit (c), to detect constant monitoring failure of the output circuit,
There is a problem that a device lock and a display alarm are output.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object to provide a circuit breaker non-operation countermeasure using a fault detection condition from a line protection device as a fail-safe condition. It is an object of the present invention to provide a circuit breaker inoperability countermeasure that prevents a fail-safe relay condition from being lost even when a bus stops due to selective blockage due to removal, and that does not always result in monitoring failure.

[0013]

In order to achieve the above object, according to the first aspect of the present invention, an accident of a line connected to a bus via a circuit breaker is detected and the circuit breaker of the line is tripped. A line protection device that outputs an accident detection condition signal together with a command condition signal, a one-shot timer that outputs an operation signal only for a set time t2 based on the accident detection condition signal, and that a current flowing in the line is in an overcurrent state. The output signal of the overcurrent detection relay, the condition signal in which the output time of the trip command condition signal is shorter than the set time t2 and continues for the set time t1 corresponding to the operation time of the circuit breaker, the accident detection condition, A cutoff command relay that operates based on the logical product of the output signal of the line overcurrent detection relay, and a small number of the operation signal and the bus fault detection signal from the one-shot timer. A file safe relay that operates based on one signal, and a trip command to each circuit breaker of a bus connected to the line where the accident is detected on condition that the shutoff command relay and the failsafe relay operate. Output means for outputting. According to a second aspect of the present invention, in the first aspect of the invention, the operation time of the shutoff command relay or the fail-safe relay is set to a set time t3 (> t2:
If it is detected that the time is equal to or longer than the time set by the one-shot timer, a constant monitoring and detecting means for detecting that the output means is defective is provided.

[0014]

According to the present invention, the fault detection condition from the line protection device used for the fail-safe relay is output by the one-shot circuit only for a certain period of time, so that the one bus stop due to the selective interruption when the interruption is not activated. Thus, even if the accident detection condition is a continuous output, by operating the fail-safe relay only for a certain period of time, it is possible to prevent the loss of the fail-safe condition and to prevent a continuous monitoring failure.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a circuit breaker inoperative countermeasure device according to an embodiment of the present invention. 4, the reference numerals corresponding to those in FIG. 4 have the functions described in FIG. 4, and a detailed description thereof will be omitted.

[0017] 15 is a one-shot timer, and performs output when there is a signal input by settling limit t _2. Accident detection condition 6d from line protection device when no interruption
Input become bus stops at selected cut-off by the breaker inoperable by issuing the predetermined time t ₂ only the output signal 6e from the one-shot timer 15 when there is an accident detection condition 6
This prevents the fail-safe relay 32 from continuing to operate even if d continues to output.

[0018] As described above, if one-shot signal of a fault detection condition by line protection device, even if a single bus stop performs selection cut-off at the breaker inoperative measures, the loss of the fail safe relay condition And the constant monitoring circuit of the circuit breaker non-operation countermeasure device can prevent the failure from being detected.

FIGS. 5A and 5B are time charts. First, in the time chart of FIG.
When the circuit breaker is not operated, the fault detection condition 6d of the line protection device continues to be output due to no bus voltage due to one bus stop due to selective interruption, and the fail-safe relay 32 continues to operate, losing the function of the fail-safe condition. Further, the contact of the fail-safe relay 32 keeps making, and if the contact make time exceeds the settling time t ₂ of the constant monitoring timer 16, the monitoring of the output circuit always fails. FIG. 5B is a time chart according to the present invention. The one-shot timer 15 sets the accident detection condition 6d for the track protection device.
With one-shot signal 6e for a predetermined time t ₂ at, 6d is so not the operation of the fail safe relay 32 and continued as an output continuous, constant monitoring failure of loss prevention or output circuit of the fail-safe condition To prevent that. Further, the settling time t ₂ of the one-shot timer 15 as can be seen from the time chart, it is necessary to t _3> t ₂ than the settling time t ₃ of the continuous monitoring failure detection timer 16. Further, it is necessary to set t ₂ > t ₁ from the settling time t _{1 of the} circuit breaker non-operation detection timer 9.

In the above-described embodiment, the one-shot signal generation by the one-shot timer has been described. However, the one-shot signal can also be generated by the method of locking the output when the accident detection condition continues for a certain period of time.

[0021]

As described above, according to the present invention, the failure detection condition of the line protection device used in the fail-safe relay is converted into a one-shot signal, so that the failure due to the stop of the bus due to the selective interruption when the interruption is not activated. It is possible to provide a circuit breaker inoperability countermeasure device that does not lose the safe condition and does not always result in monitoring failure.

[Brief description of the drawings]

FIG. 1A is a circuit configuration diagram of an embodiment of the present invention,
(B) is a trip circuit diagram, and (c) is a circuit diagram that constantly monitors both contacts of the fail-safe relay and the cutoff command relay.

FIG. 2 is a circuit configuration diagram of a conventional circuit breaker inoperative.

FIG. 3 is a circuit diagram of a conventional double bus type circuit breaker inoperative.

FIG. 4A is a circuit configuration diagram of one conventional example, and FIG.
FIG. 3 is a circuit diagram of the trip circuit, and FIG. 3C is a circuit diagram for constantly monitoring both contacts of the fail-safe relay and the cutoff command relay.

5A is a conventional time chart, and FIG. 5B is a time chart of the present invention.

[Explanation of symbols]

6: Track protection device, 9: Breaker non-operation judging timer,
11, 13 ... busbar protection device, 12, 14 ... all stop detection circuit, 15 ... one-shot timer, 16 ... constantly monitors Thailand
Ma , 21 ... Selection interruption circuit, 31 ... Interruption command relay,
32 ... Fail safe relay.

Claims (2)

(57) [Claims] 1. A line connected to a bus via a circuit breaker
Detecting accidents and tripping the line breaker
Line protection device that outputs an accident detection condition signal together with a case signal
And only for a set time t2 based on the accident detection condition signal.
A one-shot timer that outputs the operation signal and
Overcurrent detection to output that the flowing current is overcurrent status
Output relay, the output time of the trip command condition signal
The fixed time t2 signal, the accident detection condition, and the overcurrent of the line
A relay that operates based on the logical product of the output signal of the detection relay
Disconnect command relay and operation from the one-shot timer
Signal and at least one signal of bus fault detection signal
File-safe relay that operates based on
Command relay and the fail-safe relay have been activated
Each of the buses connected to the track where the accident was detected
An output device for outputting a trip command to the circuit breaker. 2. The relay according to claim 1, wherein
Operating time of the safe relay is set time t3 (> t2:
If the detected time is longer than the time set by the
In this case, a continuous monitoring and detecting means for detecting that the output means is defective.
The circuit breaker according to claim 1, further comprising a step.
Non-operation countermeasure device.