JP7072982B2 - Discharge accident detection structure - Google Patents

Description

The present invention relates to a discharge accident detection structure.

If a cable deteriorates or a short circuit occurs in the electric circuit connected to the breaker, a discharge accident such as tracking, short circuit between poles, disconnection, or ground fault occurs. For example, due to the occurrence of tracking, discharge such as an arc may occur in an electric line between plugs formed in an outlet. As a countermeasure, the breaker is cut off by detecting the noise superimposed on the electric wire. However, since discharge noise is superimposed on the electric circuit even when the open / close switch is turned ON / OFF, there is a risk that the discharge noise may be detected and determined as a discharge accident. Therefore, as described in Patent Document 1, a method for determining the presence or absence of a discharge accident by removing a frequency component due to switching noise has been developed.

Japanese Unexamined Patent Publication No. 2014-134445

By the way, it is desired that the determination of the occurrence of a discharge accident is relatively simple and accurate.

The inventor of this case tried to solve this problem by diligently examining this point. An object of the present invention is to make it possible to determine the occurrence of a discharge accident relatively easily and accurately.

In order to solve the above problems, a filter unit that detects discharge from noise superimposed on the voltage or current of the electric circuit connected to the load, a current detector that detects current before and after discharge detection, and discharge detection. The discharge accident detection structure is provided with a determination unit for determining the presence / absence of a discharge accident based on the presence / absence of fluctuation of the current before and after the detection of the discharge.

In addition, the determination unit shall be configured to determine that a discharge accident has occurred if it is determined that there is no change in the energization current before and after the detection of the discharge with respect to the energization current of the electric circuit detected from the current detector. Is preferable.

In addition, the determination unit shall be configured to determine that it is not a discharge accident if it is determined that there is a fluctuation in the energization current before and after the detection of the discharge with respect to the energization current of the electric circuit detected from the current detector. Is preferable.

Further, it is preferable that the filter unit is configured to detect the occurrence of discharge by detecting a noise level equal to or higher than a threshold value superimposed on the voltage or current of the electric wire.

Further, the filter unit is a high-pass filter that allows noise in the high frequency band to pass through, and it is preferable that the filter unit has a configuration in which the generation of electric discharge is detected by detecting the energization in the filter unit.

In the present invention, it is possible to determine the noise of the open / close switch or the occurrence of a discharge accident relatively easily and accurately.

It is a block diagram showing a breaker provided with a discharge accident detection structure. It is a figure which shows the example of the time-dependent change of the current detected by a current detector, and the noise detected by a filter part. However, the upper portion represents the detection result detected by the current detector, and the lower portion represents the detection result detected by the filter unit. It is a block diagram different from FIG. 1 showing a breaker provided with a discharge accident detection structure. It is a block diagram showing a state in which a discharge accident detection device provided with a discharge accident detection structure and a breaker are connected.

The embodiment for carrying out the invention is shown below. As can be understood from FIGS. 1 to 4, the discharge accident detection structure 1 of the present embodiment includes a filter unit 3 for detecting discharge from noise superimposed on the voltage or current of the electric path 2 and a discharge. A current detector 7 that detects the current before and after the detection, and a determination unit 5 that determines the presence or absence of a discharge accident by detecting the discharge and the presence or absence of fluctuations in the current before and after the detection of the discharge. , Is equipped. Therefore, it is possible to determine the occurrence of a discharge accident relatively easily and accurately.

Here, the discharge accident detection structure 1 will be described by taking FIG. 1 as an example. The discharge accident detection structure 1 in FIG. 1 is incorporated in the breaker 9. In the embodiment, the filter unit 3 is provided on the secondary side of the open / close switch 91. When a discharge occurs, noise is superimposed on the voltage or current of the electric circuit 2 to which the breaker 9 and the electric device such as a dryer or vacuum cleaner, which often performs ON / OFF operation as a load, are connected. Discharge is detected by detecting the above noise level. Further, a high-pass filter for passing noise in a high frequency band as shown in FIG. 3 described later may be used, and the generation of discharge can be detected by detecting the energization in the filter unit 3. By also measuring the noise generation time, the discharge may be determined by combining the noise generation time and the noise level. As it is, it cannot be determined whether the discharge is a switch noise of an electric device or a discharge accident such as tracking, short circuit between poles, disconnection, and ground fault.

Further, in the discharge accident detection structure 1 in FIG. 1, a current detector 7 for detecting the current of the electric circuit 2 is provided on the secondary side of the filter unit 3. The current detector 7 can detect the current before and after the detection of the discharge. Further, the filter unit 3 and the determination unit 5 connected to the current detector 7 are provided. The determination unit 5 determines the presence or absence of a discharge accident based on the detection of the discharge and the presence or absence of current fluctuations before and after the detection of the discharge. If it is determined that there is a discharge accident, the open / close switch 91 Control to open. A low-pass filter 19 is provided on the primary side of the open / close switch 91, and noise when noise enters the filter unit 3 from the primary side of the low-pass filter 19 or when a discharge accident occurs on the load side of the breaker 9. Is restrained from wrapping around to another breaker 9.

The waveform detected by the filter unit 3 is detected as shown in the lower part of FIG. However, it is not clear what causes the noise in this waveform. Therefore, in the present invention, it is assumed that the current before and after the timing when the noise is generated, that is, the current before and after the detection of the discharge is detected. An example of fluctuation of the current value is shown on the upper side of FIG. 2, but in this figure, it is shown that the current does not flow at first, the alternating current flows for a certain period later, and then the current stops flowing again. .. No current is flowing in the portion represented by the straight line extending substantially to the side, and current is flowing in the portion represented by the other schematic waveform. Further, in the determination that the current of the determination unit 5 has a fluctuation, for example, the determination unit 5 is provided with a data mining function, the current value in the past normal time is recorded, and the current difference is significant. At this time, it is preferable that it is determined that there is a fluctuation in the current. This is because standby current may be generated depending on the electrical equipment, but if the information recorded by the data mining function is used, it is possible not to determine that the current fluctuates even if standby current is generated. Because it can be done.

At the timing represented by (a) in FIG. 2, for example, with the plug of an electric device such as a dryer inserted in the outlet, no current flows in the portion that can be measured by the current detector 7. The fact that the filter unit 3 detects noise at this timing means that the filter unit 3 detects the discharge, and the current value in the current detector 7 does not fluctuate significantly before and after the discharge, that is, there is no current difference. Is detected by the determination unit 5, which means that a discharge accident has occurred due to tracking or the like.

At the timing represented by (b) in FIG. 2, for example, with an electric device such as a dryer turned on, a current starts to flow in a portion that can be measured by the current detector 7. The noise detected by the filter unit 3 at this timing detects the discharge by the filter unit 3, and the current value in the current detector 7 fluctuates greatly before and after the discharge, that is, a current difference occurs. This is the noise generated by the determination unit 5 detecting that the opening / closing switch 91 is closed, which means that it is not a discharge accident.

The timing represented by (c) in FIG. 2 is, for example, in a state where an electric device such as a dryer is in use, and a current is flowing in a portion that can be measured by the current detector 7. The fact that noise is detected by the filter unit 3 at this timing means that the discharge is detected by the filter unit 3, and the current value in the current detector 7 does not fluctuate significantly before and after the discharge, that is, a current difference occurs. The determination unit 5 detects that there is no such thing, which means that a discharge accident has occurred due to tracking or the like.

At the timing represented by (d) in FIG. 2, for example, in a state where an electric device such as a dryer is turned off, no current flows to a portion that can be measured by the current detector 7. For the noise detected by the filter unit 3 at this timing, the filter unit 3 detects the discharge, and it is determined that the current value in the current detector 7 does not fluctuate significantly before and after the discharge, that is, there is no current difference. It is a noise generated by the opening / closing switch 91 detected by the unit 5 and means that it is not a discharge accident.

The determination unit 5 of the embodiment determines that a discharge accident has occurred when it is determined that there is no change in the energization current before and after the detection of the discharge with respect to the energization current of the electric path 2 detected from the current detector 7. However, regarding the energization current of the electric path 2 detected from the current detector 7, it is determined that there is a fluctuation in the energization current before and after the detection of the discharge, that is, there is a significant difference in the current difference between the pre-detection and the post-detection of the discharge. If so, it is determined that the open / close switch 91 has been operated.

By the way, it is also possible to use a mode different from the example shown in FIG. For example, in the example shown in FIG. 3, the open / close switch 91 can be controlled by using the discharge accident detection structure 1. In the example shown in FIG. 3, the discharge accident detection structure 1 is provided inside the breaker 9, but the low-pass filter 19 is provided on the secondary side of the open / close switch 91 of the breaker 9. Further, a cutoff unit 81 that receives a signal sent from the determination unit 5 and operates to open the open / close switch 91 is provided separately from the determination unit 5. The circuit breaker 9 provided with the discharge accident detection structure 1 is provided with an alarm display unit 82 capable of displaying an alarm externally, and the alarm display unit 82 operates when the determination unit 5 determines that there is a discharge accident. do.

The filter unit 3 in the example shown in FIG. 3 is a high-pass filter, and the high-pass filter has a resistance 12 and a capacitor 13 arranged so as to pass between the electric circuits 2. Further, a detection unit 14 capable of detecting the voltage between the resistors 12 is provided. The capacitor 13 provided in the high-pass filter has a characteristic that it is difficult to flow when the frequency of the AC circuit is low. Therefore, no current flows in the low frequency band, and the detection unit 14 cannot detect the current (voltage between the resistors 12). On the other hand, a current flows in the high frequency band, and the detection unit 14 can detect the current (voltage between the resistors 12). Therefore, it is possible to determine whether or not a discharge has occurred by detection by the detection unit 14.

The discharge accident detection structure 1 does not need to be incorporated in the breaker 9, and the discharge detection device 89 provided with the discharge accident detection structure 1 may be provided separately from the breaker 9. In the example shown in FIG. 4, the discharge detection device 89 is connected to the secondary side of the breaker 9.

Although the present invention has been described above by taking an embodiment as an example, the present invention is not limited to the above embodiment and can be various modes.

1 Discharge accident detection structure 2 Electric circuit 3 Filter part 5 Judgment part 91 Open / close switch

Claims (5)

A filter unit that detects discharge from noise superimposed on the voltage or current of the electric circuit connected to the load,
A current detector that detects the current before and after the discharge is detected, and
It is equipped with a discharge detection unit and a determination unit that determines the presence or absence of a discharge accident based on the presence or absence of current fluctuations before and after the discharge detection .
The determination unit
A discharge accident detection structure for determining that a discharge accident has occurred when it is determined that there is no fluctuation in the energization current before and after the detection of the discharge with respect to the energization current of the electric circuit detected from the current detector. The determination unit
The discharge accident detection according to claim 1 , wherein if it is determined that there is a fluctuation in the energization current before and after the detection of the discharge with respect to the energization current of the electric circuit detected from the current detector, it is determined that the energization current is not a discharge accident. Construction. A filter unit that detects discharge from noise superimposed on the voltage or current of the electric circuit connected to the load,
A current detector that detects the current before and after the discharge is detected, and
It is equipped with a discharge detection unit and a determination unit that determines the presence or absence of a discharge accident based on the presence or absence of current fluctuations before and after the discharge detection.
The determination unit
A discharge accident detection structure for determining that it is not a discharge accident when it is determined that there is a fluctuation in the energization current before and after the detection of the discharge with respect to the energization current of the electric circuit detected from the current detector. The discharge accident detection structure according to any one of claims 1 to 3, wherein the filter unit detects the occurrence of discharge by detecting a noise level equal to or higher than a threshold value superimposed on the voltage or current of an electric wire. The filter unit is a high-pass filter that allows noise in the high frequency band to pass through.
The discharge accident detection structure according to any one of claims 1 to 3, wherein the generation of discharge is detected by detecting the energization in the filter unit.

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