JP7266952B2 - Discharge detector and distribution board - Google Patents

Description

TECHNICAL FIELD The present invention relates to a discharge detection device for detecting a discharge phenomenon occurring in a wiring path connected to load equipment, and a distribution board provided with the discharge detection device.

Patent Literature 1 describes that a breaker is reliably tripped when an abnormal current flows in a branch circuit of a distribution board.

JP 2016-220265 A

Tripping the breaker when an abnormal current flows is necessary to prevent accidents such as fires, but for critical loads that require continuous power supply without interruption. , it is not desirable to trip immediately.

The inventor of this case tried to solve the problem by earnestly studying this point. SUMMARY OF THE INVENTION The problem to be solved by the present invention is to provide a discharge detection device provided with a switch unit that can select whether or not to immediately trip a branch circuit of a distribution board when a discharge phenomenon occurs. is.

In order to solve the above-mentioned problems, there is provided a discharge detection device for detecting a discharge phenomenon in a wiring path, comprising: a sensor unit for retrieving data of a frequency superimposed on the wiring path; an output unit that outputs a cutoff signal to a power distribution device that supplies power to a wiring path determined to have a discharge phenomenon when it is determined that the discharge phenomenon has occurred; and a determination that the discharge phenomenon has occurred. The discharge detection device includes a switch section for switching between an immediate shutdown mode in which a shutdown signal is immediately output and an immediate shutdown prohibition mode in which a shutdown signal is not output immediately.

In addition, when the switch unit is set to the immediate shutdown prohibition mode, when the measured number of occurrences of the discharge phenomenon exceeds the threshold, the output unit is turned off for the power distribution equipment determined to have occurred multiple discharge phenomena. It is preferable to set it as the structure which outputs a cutoff signal.

In addition, when the switch unit is set to the immediate shutdown prohibition mode, if the measured duration of the discharge phenomenon exceeds the threshold, for the distribution equipment determined that the diameter duration of the discharge phenomenon has exceeded the threshold, It is preferable that the output section outputs a cutoff signal.

Further, a distribution board equipped with the above-described discharge detection device includes a plurality of branch breakers, the sensor section is arranged in the wiring path on the secondary side of the branch breaker, and the output section cuts off the branch breaker. It is preferable that the switch unit be a distribution board capable of outputting a signal and capable of switching between an immediate shutdown mode and an immediate shutdown prohibited mode for each branch breaker.

INDUSTRIAL APPLICABILITY The present invention can provide a discharge detection device having a switch section that can select whether or not to trip immediately when a discharge phenomenon occurs in a branch circuit of a distribution board.

FIG. 4 is a conceptual diagram showing an example in which a discharge detection device is installed in a distribution board; FIG. 2 is a conceptual diagram showing the relationship between the discharge detection device and power distribution equipment; FIG. 4 is a conceptual diagram showing an example in which a unit of the discharge detection device is provided with a centrally controllable switch section;

Modes for carrying out the invention are shown below. The discharge detection device 1 of this embodiment detects a discharge phenomenon in the wiring path 81 . As can be understood from FIGS. 1 to 3, the discharge detection device 1 includes a sensor section 12 for extracting data of the frequency superimposed on the wiring path 81, and a sensor section 12 for detecting the occurrence of the discharge phenomenon from the extracted data. A determination unit 13 that determines the presence or absence of a discharge phenomenon, and an output unit 15 that, when determining the occurrence of a discharge phenomenon, outputs a cutoff signal to the power distribution device 60 that supplies power to the wiring path 81 determined that the discharge phenomenon has occurred. and a switch part 18 for switching between an immediate shutdown mode for immediately outputting a shutdown signal and an immediate shutdown prohibition mode for not outputting a shutdown signal immediately when it is determined that a discharge phenomenon has occurred. Therefore, it is possible to provide the discharge detection device 1 having the switch section 18 capable of selecting whether or not to trip immediately when a discharge phenomenon occurs in the branch circuit of the distribution board.

The discharge phenomenon that occurs in the wiring path 81 refers to tracking that occurs between poles of the outlet plug, poor contact of the outlet plug, disconnection of the wiring path 81, and spark discharge and arc discharge that occur due to ground fault accidents. . The wiring path 81 is an electric wire between a breaker and a load device or an outlet, an electric wire between an outlet plug and a load device, or a line such as an outlet/outlet plug. Normally, when a discharge phenomenon occurs in wiring path 81 , noise in a high frequency band is superimposed on the voltage or current of wiring path 81 .

Even if such a discharge phenomenon occurs, a sensor unit 12 that takes out data of the frequency superimposed on the wiring path 81, a judgment unit 13 that judges whether or not the discharge phenomenon has occurred from the extracted data, and a discharge phenomenon. When it is determined that the occurrence of a accidents can be prevented.

However, in the event of a commercial power outage or disaster, the power distribution equipment 60 that supplies power to important loads such as loads and facilities that require continuous power supply without interruption may be affected by the occurrence of a discharge phenomenon. Immediate shutdown is not preferred. Therefore, in the present invention, it is possible to distinguish between the handling of such important loads and the handling of general loads other than important loads. Typical examples of critical loads include operating rooms and life support systems in medical equipment, computers in information processing equipment, elevator equipment, fire extinguishing equipment, and the like.

In order to make such a thing possible, in the present invention, an immediate shutdown mode in which a shutdown signal is immediately output to the distribution equipment 60 upon occurrence of a discharge phenomenon, and an immediate shutdown mode in which a shutdown signal is not immediately output to the distribution equipment 60 are provided. A switch section 18 that can switch the prohibition mode is provided. By doing so, the mode can be switched according to the connected load, such as the immediate shutdown mode for the distribution equipment 60 connected to the general load and the immediate shutdown prohibition mode for the distribution equipment 60 connected to the important load.

Here, the movement of the discharge detection device 1 after the occurrence of the discharge phenomenon will be described. Normally, noise is superimposed on the wiring path 81 due to a discharge phenomenon occurring in the wiring path 81 . Data on the frequency of the noise is taken out by the sensor unit 12, and the judgment unit 13 judges whether or not a discharge phenomenon has occurred. In the embodiment, it is determined that the discharge phenomenon has occurred when the frequency data of the target frequency band exceeds the threshold.

The target frequency referred to here is a target frequency for detecting noise generated by the discharge phenomenon. This target frequency is the high frequency band. In the embodiment, noise in a high frequency band caused by a discharge phenomenon in the wiring path 81 is transmitted through the wiring path 81, and the sensor unit 12 extracts frequency data of the noise. The high frequency band is preferably the frequency band of radiation noise.

By providing the discharge detection device 1 with a filter section that attenuates noise in the target frequency band, it is possible to extract only the noise in the target frequency band caused by the discharge phenomenon occurring in the wiring path 81 on the sensor section 12 side. It is possible to identify the location where the discharge phenomenon occurs. Therefore, it is preferable to separately provide such a filter section or to provide such a filter section and the sensor section 12 integrally. The extracted noise may be amplified by the amplifier 14 and then sent to the determination unit 13 .

When the determination unit 13 determines that a discharge phenomenon has occurred, the output unit 15 outputs a cutoff signal to the power distribution device 60 that supplies power to the wiring path 81 determined to have a discharge phenomenon, Power distribution device 60 is cut off. By doing so, the power supply to the wiring path 81 is interrupted to prevent a disaster such as a fire. Note that the cutoff signal may be output to any power distribution device 60 as long as the power supply to the wiring path 81 can be cut off. It should be noted that, when the determination unit 13 determines that a discharge phenomenon has occurred, the display unit 17 may display a display different from the normal state.

The power distribution device 60 that supplies power to the wiring line 81 determined to have the discharge phenomenon is the power distribution device 60 located on the commercial power supply side among the power distribution devices 60 to which the wiring line 81 in which the discharge phenomenon has occurred is connected. Say. The power distribution device 60 may be any device that supplies power to the wiring path 81 and load devices connected thereto, and is preferably a circuit breaker or circuit breaker that cuts off the circuit in response to a cutoff signal from the output unit 15 .

By the way, when the switch unit 18 provided in the discharge detection device 1 selects the immediate shutdown prohibition mode in which the shutdown signal is not immediately output to the power distribution device 60, basically even if the discharge phenomenon occurs, the immediate shutdown is immediately stopped. Do not cut off the power distribution equipment 60 during However, if the discharge phenomenon occurs continuously or if the discharge phenomenon occurs for a long period of time, the risk of fire increases, so it is necessary to cut off the power distribution device 60 .

Therefore, in order to cope with the case where the discharge phenomenon occurs continuously, the determination unit 13 of the embodiment measures the number of times the discharge phenomenon occurs in the wiring path 81, and when the number of occurrences exceeds the threshold, the fire is detected. It determines that the possibility of occurrence of such as has increased, and outputs a cutoff signal to the power distribution device 60 . In the embodiment, the determination unit 13 measures the number of times the noise level of the target frequency band exceeds the threshold, and when it is determined that the number of occurrences exceeds a certain number, the output unit 15 outputs a cutoff signal to the power distribution device 60. do. In this way, when the switch unit 18 is set to the immediate shutdown prohibition mode, when the measured number of occurrences of the discharge phenomenon exceeds the threshold, , the output unit 15 is preferably configured to output a cut-off signal.

In particular, the greater the number of occurrences of the discharge phenomenon at the same location, the greater the risk of fire or the like. For this reason, it is preferable that the determining unit 13 also store the location where the discharge phenomenon occurs, and set a threshold for the number of occurrences of the discharge phenomenon at the same location.

Further, in order to cope with the case where the occurrence time of the discharge phenomenon is long, the determination unit 13 of the embodiment measures the duration of the discharge phenomenon occurring in the wiring path 81, and when the duration exceeds the threshold value, a fire or the like occurs. is determined to have increased, and a cutoff signal is output to the power distribution device 60 . In the embodiment, the determination unit 13 measures the time from when the noise level of the target frequency band exceeds the threshold to when it falls below the threshold, and when it is determined that the duration exceeds the threshold, the output unit 15 outputs power distribution equipment 60 to output a cutoff signal. It should be noted that in the discharge phenomenon, the longer the discharge occurs, the greater the risk of fire or the like. In this way, when the switch unit 18 is set to the immediate shutdown prohibition mode, when the measured duration of the discharge phenomenon exceeds the threshold, the power distribution device 60 is determined to have exceeded the threshold for the diameter duration of the discharge phenomenon. It is preferable that the output unit 15 output a cutoff signal.

Incidentally, by arranging the sensor unit 12 of the discharge detection device 1 on the secondary side of the power distribution device 60, it is possible to detect the discharge phenomenon occurring in the load devices connected to the power distribution device 60 and the wiring line 81 therebetween. . Therefore, the sensor unit 12 is arranged on the secondary side of the plurality of branch breakers 62 housed in the distribution board, and the discharge phenomenon that occurs in the load equipment connected to each branch breaker 62 and the wiring line 81 between them is detected. Further, it is preferable that the mode can be switched for each branch breaker 62 by switching the switch section 18 provided in the discharge detection device 1 . For example, the branch breaker 62 to which the important load is connected is in the immediate shutdown prohibited mode, and the branch breaker 62 to which the general load is connected is in the immediate shutdown mode. It is preferable to be able to switch between modes.

At this time, the discharge detection device 1 including the sensor unit 12, the determination unit 13, the output unit 15, and the switch unit 18 may be arranged for each branch breaker 62, but the sensor unit 12 is arranged for each branch breaker 62, At least the determination unit 13 , the output unit 15 and the switch unit 18 may be shared by the plurality of branch breakers 62 . The latter case is preferable because it can be collectively managed.

FIG. 3 shows an example in which a unit 19 that shares the determination section 13, the output section 15, the switch section 18, and the like is arranged in the distribution board. In this case, the sensor section 12 arranged for each branch breaker 62 and the unit 19 are connected by a signal line, and the data extracted by the sensor section 12 through a plurality of wiring paths 81 are aggregated in the unit 19, and the determination in the unit 19 is performed. The unit 13 determines whether a discharge phenomenon has occurred.

Then, a cutoff signal is individually output to the power distribution device 60 that supplies power to the wiring path 81 in which the discharge phenomenon has occurred, and the power distribution device 60 is cut off. In the example shown in FIG. 3, the switch unit 18 is configured to include an individual switch 21 for selecting the mode for each power distribution device 60 and a comprehensive switch 22 for collectively selecting the mode for the plurality of power distribution devices 60. . In the embodiment, selection of the individual switch 21 functions when the comprehensive switch 22 is turned off.

As in the example shown in FIG. 3, when the data on the presence or absence of the discharge phenomenon of the plurality of branch breakers 62 in the distribution board can be aggregated in the unit 19, the communication unit 16 is provided in the unit 19, and the data is preferably communicated to an external device so that it can be collectively managed.

Using such a discharge detection device 1, a plurality of branch breakers 62 are provided, the sensor section 12 is arranged in the wiring path 81 on the secondary side of the branch breaker 62, and the output section 15 is connected to the branch breaker 62. It is preferable that the switch unit 18 be a distribution board capable of outputting a cutoff signal and capable of switching between an immediate cutoff mode and an immediate cutoff prohibited mode for each branch breaker 62 .

Although the present invention has been described above using the embodiments as examples, the present invention is not limited to the above-described embodiments, and various aspects are possible. For example, it is possible to place the unit of the discharge detection device outside the distribution board.

1 discharge detection device 12 sensor unit 13 determination unit 15 output unit 18 switch unit 60 power distribution device 62 branch breaker 81 wiring path

Claims (4)

A discharge detection device for detecting a discharge phenomenon in a wiring path,
a sensor unit for extracting data of a frequency superimposed on the wiring path;
a determination unit that determines whether or not a discharge phenomenon has occurred from the extracted data;
an output unit that, when determining the occurrence of a discharge phenomenon, outputs a cutoff signal to a power distribution device that supplies power to the wiring path determined to have the discharge phenomenon;
a switch unit for switching between an immediate shutdown mode in which a shutdown signal is output immediately when it is determined that a discharge phenomenon has occurred, and an immediate shutdown prohibition mode in which a shutdown signal is not output immediately;
A discharge detection device comprising: When the switch unit is set to the immediate shutdown prohibition mode,
2. The discharge detection device according to claim 1, wherein when the measured number of occurrences of the discharge phenomenon exceeds a threshold value, the output section outputs a cutoff signal to the power distribution equipment determined to have multiple discharge phenomena. When the switch unit is set to the immediate shutdown prohibition mode,
3. The output unit according to claim 1 or 2, wherein when the measured duration of the discharge phenomenon exceeds a threshold, the output unit outputs a cutoff signal to the power distribution device determined that the diameter duration of the discharge phenomenon has exceeded the threshold. discharge detection device. A distribution board comprising the discharge detection device according to any one of claims 1 to 3,
Equipped with multiple branch breakers,
The sensor unit is arranged in a wiring path on the secondary side of the branch breaker,
The output unit can output a cutoff signal to the branch breaker,
The switch unit is a distribution board capable of switching between the immediate shutdown mode and the immediate shutdown prohibited mode for each branch breaker.

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