JP6868817B2 - Information presentation system, distribution board, information presentation method, and program - Google Patents

Description

The present invention generally relates to an information presentation system, a distribution board, an information presentation method, and a program, and more particularly, to an information presentation system, a distribution board, an information presentation method, and a program for supporting an abnormality determination due to a lightning strike. ..

Patent Document 1 describes a lightning strike frequency information providing device that provides information on the number of lightning strike occurrences to a user. The lightning strike frequency information providing device described in Patent Document 1 includes a lightning strike data acquisition unit, an observation condition acquisition unit, a count processing unit, and an information transmission unit. The count processing unit counts the number of lightning strikes based on the lightning strike data acquired by the lightning strike data acquisition unit and the lightning strike observation conditions acquired by the observation condition acquisition unit. Then, the information transmission unit transmits information indicating the number of lightning strikes counted by the count processing unit to the user terminal.

JP-A-2007-305100

In a lightning strike frequency information providing device (information presentation system) as described in Patent Document 1, it is desired to clarify the causal relationship between a lightning strike and a failure (abnormality) of an electric device (monitoring target).

The present invention has been made in view of the above problems, and provides an information presentation system, a distribution board, an information presentation method, and a program that can support a judgment on a causal relationship between a lightning strike and an abnormality to be monitored. The purpose.

The information presentation system according to one aspect of the present invention includes an acquisition unit, a monitoring unit, a storage unit, and a presentation unit. The acquisition unit acquires lightning strike information, which is information on lightning strikes. The monitoring unit monitors each of the plurality of power supply targets to which power is supplied from the external power source, and monitors the state of the plurality of the monitoring targets. The storage unit stores the lightning strike information acquired by the acquisition unit and the monitoring information which is the monitoring result of the monitoring unit. The presenting unit presents the lightning strike information and the monitoring information before and after the lightning strike. The acquisition unit is configured to acquire the lightning strike information from a server device that stores the lightning strike information via a network.

The distribution board according to one aspect of the present invention includes the information presentation system.

The information presentation method according to one aspect of the present invention includes an acquisition step, a monitoring step, a storage step, and a presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike , from a server device that stores the lightning strike information via a network . The monitoring step is a step of monitoring the state of a plurality of the monitoring targets by targeting each of the plurality of power supply targets to which power is supplied from the external power source. The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting the lightning strike information and the monitoring information before and after the lightning strike.

The program according to one aspect of the present invention causes a computer to perform an acquisition step, a monitoring step, a storage step, and a presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike , from a server device that stores the lightning strike information via a network . The monitoring step is a step of monitoring the state of a plurality of the monitoring targets by targeting each of the plurality of power supply targets to which power is supplied from the external power source. The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting the lightning strike information and the monitoring information before and after the lightning strike.

According to the present invention, it is possible to support the determination of the causal relationship between the lightning strike and the abnormality to be monitored.

FIG. 1 is a block diagram showing a configuration of an information presentation system according to an embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of a distribution board according to an embodiment of the present invention. FIG. 3 is a waveform diagram of currents flowing through a plurality of power supply targets electrically connected to the distribution board of the same.

Hereinafter, an embodiment of the present invention will be described. The following embodiments are just one of the various embodiments of the present invention. Further, the following embodiments can be variously modified according to the design and the like as long as the object of the present invention can be achieved.

(1) Outline of Information Presentation System The information presentation system according to the present embodiment is used for a distribution board that distributes electric power supplied from an external power source to a plurality of power supply targets. The information presentation system monitors each of the multiple power supply targets, and in order to support the judgment of the causal relationship between the lightning strike and the abnormality (failure) of the monitored target, the lightning strike information, which is information on the lightning strike, and before and after the lightning strike. It is a system that presents monitoring information that is the monitoring result of the monitoring target.

For example, in the case of a single-phase three-wire distribution system, as shown in FIG. 1, the distribution board includes a first voltage line (L1) 41, a second voltage line (L2) 42, and a neutral line (N) 43. Is electrically connected to the power line 4 having the above.

Then, the distribution board distributes the AC power from the power line 4 to a plurality of (7 in the example of FIG. 1) branch circuits 51 to 57. The branch circuits 51 and 52 are electrically connected to the first voltage line 41 and the neutral line 43, and the branch circuits 53 and 54 are electrically connected to the second voltage line 42 and the neutral line 43. 55-57 are electrically connected to the first voltage line 41 and the second voltage line 42.

In the following, when the plurality of branch circuits 51 to 57 are not particularly distinguished, each of the plurality of branch circuits 51 to 57 is also referred to as a “branch circuit 5”. In addition, the "branch circuit" here refers to the branch breaker, the wiring path connected to the secondary side of the branch breaker, the wiring equipment (outlets, wall switches, etc.), and the electrical equipment (lighting equipment, cooking appliances, etc.). Includes.

Here, assuming that the voltage between the first voltage line 41 or the second voltage line 42 and the neutral line 43 is 100 [V] (effective value), the branch circuits 51 to 54 have 100 [V]. ] Is applied, and 200 [V] is applied to the branch circuits 55 to 57.

As shown in FIG. 1, the information presentation system 2 according to the present embodiment includes an acquisition unit 11, a monitoring unit 12, a storage unit 13, and a presentation unit 14. The acquisition unit 11 acquires lightning strike information, which is information on lightning strikes. The lightning strike information includes, for example, time information when a lightning strike occurred. The monitoring unit 12 monitors each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power supply 7), and monitors the states of the plurality of monitoring targets. The storage unit 13 stores the lightning strike information acquired by the acquisition unit 11 and the monitoring information which is the monitoring result of the monitoring unit 12. The presentation unit 14 presents lightning strike information and monitoring information before and after the lightning strike.

In this way, by presenting the lightning strike information and the monitoring information before and after the lightning strike in the presentation unit 14, it is possible to support the determination of the causal relationship between the lightning strike and the abnormality (failure) of the monitoring target.

(2) Details of Information Presentation System In the present embodiment, the information presentation system is applied to a power measurement system for measuring at least one of power consumption and power consumption in a consumer facility. The "consumer facility" here means a facility of a consumer of electric power, and is not only a facility that receives power supply from an electric power company such as an electric power company, but also a private power generation facility such as a solar power generation facility. Includes facilities that receive electricity. In this embodiment, a detached house will be described as an example of a consumer facility.

(2.1) Basic Configuration Here, first, the basic configuration of the power measurement system 1 to which the information presentation system 2 is applied will be described with reference to FIG.

As shown in FIG. 1, the power measurement system 1 according to the present embodiment includes an acquisition unit 11, a monitoring unit 12, a storage unit 13, a presentation unit 14, a current consumption measurement unit 15, a calculation unit 16, and the like. A determination unit 17 and a communication unit 18 are provided. Further, the power measurement system 1 includes a plurality of current sensors 21, 22, 201 to 207 for measuring currents at a plurality of locations. Here, the components of the power measurement system 1 are common to the components of the information presentation system 2 except for the calculation unit 16. That is, the information presentation system 2 of the present embodiment includes the acquisition unit 11, the monitoring unit 12, the storage unit 13, the presentation unit 14, the current consumption measurement unit 15, the determination unit 17, and the communication unit 18. The current sensors 21, 22, 201 to 207 are provided. The plurality of current sensors 21, 22, 201 to 207 may be included in the current consumption measuring unit 15.

In the present embodiment, the components of the power measurement system 1 described above are housed in the cabinet 60 (see FIG. 2) of the distribution board 6 (see FIG. 2).

A pair of (main trunk) current sensors 21 and 22 and a plurality of (branching) current sensors 201 to 207 are each electrically connected to the current consumption measuring unit 15. The pair of current sensors 21 and 22 are provided on the first voltage line 41 and the second voltage line 42 in a one-to-one correspondence. Further, the plurality of current sensors 201 to 207 are provided in the plurality of branch circuits 5 in a one-to-one correspondence. As a result, the current consumption measuring unit 15 can measure the first current I1 flowing through the first voltage line 41 from the output of the current sensor 21, and the second current I2 flowing through the second voltage line 42 from the output of the current sensor 22. Is measurable. Further, the current consumption measuring unit 15 can measure the current flowing through each of the plurality of branch circuits 5 (hereinafter, referred to as “branch current”) from the outputs of the plurality of current sensors 201 to 207. Hereinafter, when the plurality of current sensors 201 to 207 for measuring the branch current are not particularly distinguished, each of the plurality of current sensors 201 to 207 is also referred to as a “current sensor 20”.

In the following, the branch current flowing through the branch circuit 51, that is, the branch current measured by the current sensor 201 is referred to as “branch current I11”. Similarly, the branch current flowing through the branch circuit 5n (n is a natural number), that is, the branch current measured by the current sensor 20n (n is a natural number) is called "branch current I1n".

The calculation unit 16 is electrically connected to the current consumption measurement unit 15, and using the measurement results of the current consumption measurement unit 15, at least one of the power consumption and the power consumption of each of the plurality of branch circuits 5. Is measured as a measured value. The measured value may be a power consumption representing an instantaneous power, or may be a power consumption amount representing a power consumption (usage amount) in a certain time period. Further, the measured value may be both power consumption and power consumption. In the present embodiment, as an example, the measured value is a power consumption amount obtained by integrating the power consumption for a certain period of time (for example, 1 minute).

The calculation unit 16 monitors the line voltage of the power lines (first voltage line 41, second voltage line 42, and neutral line 43) 4. The calculation unit 16 is composed of, for example, a microcomputer, and obtains a measured value by performing a calculation using a line voltage and a branch current. The calculation unit 16 may be configured to obtain not only the measured value for each of the plurality of branch circuits 5 but also the total power consumption of the consumer facility as the measured value.

The acquisition unit 11 is configured to acquire lightning strike information, which is information related to lightning strikes. In the present embodiment, the acquisition unit 11 has a surge current measurement unit 111, and the surge current Is (see FIG. 2) measured by the surge current measurement unit 111 is included in the lightning strike information. In the present embodiment, the surge current measuring unit 111 measures the surge current Is flowing through the ground wire 44 electrically connected to the lightning arrester 64 housed in the distribution board 6, as shown in FIG. Further, the lightning strike information includes time information obtained by measuring the surge current Is by the surge current measuring unit 111 as the time information when the lightning strike occurred. Specifically, the time when the surge current Is measured by the surge current measuring unit 111 exceeds a predetermined threshold value is defined as the time when the lightning strike occurs.

The monitoring unit 12 and the determination unit 17 are composed of, for example, a CPU (Central Processing Unit) and a microcomputer having a memory as a main configuration. Then, when the CPU executes the program stored in the memory, the microcomputer functions as the monitoring unit 12 and the determination unit 17. The program executed by the CPU is recorded in advance in the memory of the microcomputer here, but may be recorded in a recording medium such as a memory card and provided, or may be provided through a telecommunication line such as the Internet. .. Further, the program executed by the CPU may be recorded in advance in the storage unit 13 (described later).

The monitoring unit 12 is configured to monitor each of the plurality of power supply targets to which power is supplied from the system power supply 7 which is an external power source, and monitor the state of each of the plurality of monitoring targets. In the present embodiment, the plurality of monitoring targets are a plurality of (four in the example shown in FIG. 2) electric devices 8A to 8D. As an example, the electric device 8A is a lighting fixture, the electric device 8B is a television, the electric device 8C is an electric stove, and the electric device 8D is an air conditioner. In the following, when the electric 8A to 8D are not particularly distinguished, each of the electric devices 8A to 8D is also referred to as an "electric device 8". The monitoring unit 12 generates monitoring information that is the monitoring result of a plurality of monitoring targets. In the present embodiment, the monitoring unit 12 generates monitoring information including the first measured value and the second measured value (branch current) measured before and after the lightning strike by the current consumption measuring unit 15 for each of the plurality of monitored objects. .. This monitoring information is stored in the storage unit 13 in association with the lightning strike information acquired by the acquisition unit 11. Here, the first measured value and the second measured value also include a standby current that flows during standby of the electric device 8.

The determination unit 17 determines, among a plurality of monitoring targets, a monitoring target that has become abnormal due to a lightning strike, based on the lightning strike information acquired by the acquisition unit 11 and the monitoring information generated by the monitoring unit 12. It is configured. In the determination unit 17, for example, the first measured value and the second measured value included in the monitoring information are measured before and after the occurrence time of the lightning strike included in the lightning strike information, and the first measured value and the second measured value are measured. It is determined that the monitored object that has changed from the measured value has become abnormal due to a lightning strike. As an example, in the determination unit 17, if the first measured value is a predetermined value and the second measured value is zero, the electric device 8 to be monitored is in the stopped state from the operating state, and the electric device 8 is stopped. Is judged to have a high possibility of being stopped (abnormal) due to a lightning strike.

The storage unit 13 is a memory in which data can be rewritten, and is particularly preferably a non-volatile memory. The storage unit 13 is configured to store the current consumption (branch current) consumed by each of the plurality of monitoring targets. Further, the storage unit 13 is configured to store the measured value (power consumption) obtained by the calculation unit 16. Further, the storage unit 13 is configured to store the lightning strike information acquired by the acquisition unit 11 and the monitoring information generated by the monitoring unit 12 in association with each other.

The presentation unit 14 is, for example, a liquid crystal display. The presentation unit 14 is configured to present lightning strike information and monitoring information stored in association with the storage unit 13. The lightning strike information includes the surge current Is measured by the surge current measuring unit 111, the time when the lightning strike occurred, the magnitude of the lightning strike, and the like. The monitoring information includes the first measured value and the second measured value in the first predetermined period and the second predetermined period (for example, both 1 minute) set before and after the lightning strike occurrence time included in the lightning strike information. include. The first measured value is the current consumption (branch current) measured by the current consumption measuring unit 15 in the first predetermined period. For example, the average value, the maximum value, or the minimum value of the effective values of the current consumption in the first predetermined period. The value. The second measured value is the current consumption (branch current) measured by the current consumption measuring unit 15 in the second predetermined period. For example, the average value, the maximum value, or the minimum value of the effective values of the current consumption in the second predetermined period. The value. For example, if the first measured value included in the monitoring information is a predetermined value and the second measured value included in the monitoring information is zero, the electrical device 8 to be monitored is in the stopped state from the operating state. Therefore, it can be determined that there is a high possibility that the vehicle has stopped (abnormal) due to a lightning strike.

The communication unit 18 is configured to communicate with a server device 3 provided outside the distribution board 6 via a network NT such as the Internet. In the present embodiment, the communication unit 18 associates the lightning strike information acquired by the acquisition unit 11 with the monitoring information generated by the monitoring unit 12 and transmits the lightning strike information to the server device 3 periodically (for example, every 30 minutes). .. By periodically transmitting the lightning strike information and the monitoring information to the server device 3 in this way, the lightning strike information and the monitoring information can be recovered even if the storage unit 13 is damaged, for example. Further, by storing the data in the server device 3, it is possible to prevent falsification at the customer's facility. Further, when the server device 3 determines the state of the monitoring target based on the lightning strike information and the monitoring information, it is also possible to give advice to the consumer facility at the time of abnormality (breakdown).

(2.2) Distribution board Next, the configuration of the distribution board 6 will be described.

As shown in FIG. 2, the distribution board 6 includes a main breaker 61 electrically connected to the power line 4, a plurality of branch breakers 62 electrically connected to the secondary terminal of the main breaker 61, and a lightning arrester 64. And are provided in the cabinet 60. Further, the distribution board 6 includes a measuring unit 63, current sensors 21 and 22, and sensor units 23 and 24 in the cabinet 60.

In the present embodiment, as an example, among the components of the power measurement system 1, the functions as the acquisition unit 11, the monitoring unit 12, the storage unit 13, the current consumption measurement unit 15, the calculation unit 16, the determination unit 17, and the communication unit 18 are , Is provided in the measuring unit 63. Similarly, the function as the presentation unit 14 is provided in the HEMS (Home Energy Management System) controller provided outside the distribution board 6 and communicating with the measurement unit 63.

The primary terminal of the main breaker 61 is electrically connected to the system power supply 7 (see FIG. 1) via the power line 4 of the three-wire system (first voltage line 41, second voltage line 42, and neutral line 43). It is connected. In the present embodiment, the smart meter 100 (see FIG. 2) is electrically connected between the main breaker 61 and the system power supply 7. A three-pole (L1, L2, N) conductive bar is connected to the secondary terminal of the main circuit breaker 61. These three-pole conductive bars are electrically connected one-to-one with the first voltage line (L1) 41, the second voltage line (L2) 42, and the neutral line (N) 43.

The plurality of branch breakers 62 are electrically connected to the secondary terminal of the main breaker 61 by being connected to the conductive bar. The plurality of branch breakers 62 are divided on both sides (upper stage and lower stage) in the width direction of the conductive bar, and a plurality of each is arranged. Further, the lightning arrester 64 is electrically connected to the three-pole conductive bar on the primary side and electrically connected to the ground wire 44 on the secondary side.

Here, among the plurality of branch breakers 62, the branch breakers 62 included in the branch circuits 51 and 52 are connected to the conductive bar of L1 and the conductive bar of N. Further, among the plurality of branch breakers 62, the branch breaker 62 included in the branch circuits 53 and 54 is connected to the conductive bar of L2 and the conductive bar of N. Further, among the plurality of branch breakers 62, the branch breakers 62 included in the branch circuits 55 to 57 are connected to the conductive bar of L1 and the conductive bar of L2. As a result, each of the branch circuits 51 and 52 is electrically connected to the first voltage line (L1) 41 and the neutral line (N) 43. Further, each of the branch circuits 53 and 54 is electrically connected to the second voltage line (L2) 42 and the neutral line (N) 43. Further, each of the branch circuits 55 to 57 will be electrically connected to the first voltage line (L1) 41 and the second voltage line (L2) 42.

Here, the branch breaker 62 for 100 [V] is electrically connected to the first voltage line 41 and the neutral wire 43 in a state of being attached to the upper stage of the conductive bar, and is attached to the lower stage of the conductive bar. In this state, it is electrically connected to the second voltage line 42 and the neutral line 43. Further, the branch breaker 62 for 200V is electrically connected to the first voltage line 41 and the second voltage line 42 regardless of the upper or lower stage of the conductive bar.

A pair of current sensors 21 and 22 and sensor units 23 and 24 are electrically connected to the measurement unit 63, respectively. As the current sensors 21, 22, 201 to 207, for example, a CT (Current Transformer) sensor, a Hall element, a magnetic resistance element such as a GMR (Giant Magnetic Resistances) element, a shunt resistance, or the like is used. In this embodiment, as an example, each of the current sensors 21 and 22 includes a CT sensor. On the other hand, each of the plurality of current sensors 20 provided in the sensor units 23 and 24 is a logoski coil composed of a coreless (coreless) air-core coil and producing an output according to the current passing through the through hole. ..

The pair of current sensors 21 and 22 are attached to the power line 4 so as to measure the current of the power line 4 connected to the primary terminal of the main breaker 61. Here, of the pair of current sensors 21 and 22, one (first) current sensor 21 is attached to the first voltage line 41, and the other (second) current sensor 22 is attached to the second voltage line 42. It is attached. As a result, the measuring unit 63 (current consumption measuring unit 15) can measure the first current I1 flowing through the first voltage line 41 from the output of the current sensor 21, and flows from the output of the current sensor 22 through the second voltage line 42. The second current I2 can be measured.

Each of the sensor units 23 and 24 includes a plurality of current sensors 20, and the plurality of current sensors 20 have a one-to-one correspondence with the plurality of branch breakers 62, so that the plurality of branch breakers 62 and the conductive bar It is installed between. As a result, the measuring unit 63 (current consumption measuring unit 15) can measure the branch current flowing through each of the plurality of branch circuits 5 from the outputs of the sensor units 23 and 24.

Here, the branch breaker 62 at the upper stage of the conductive bar is electrically connected to the first voltage line 41 regardless of whether it is for 100 [V] or 200 [V]. On the other hand, the branch breaker 62 at the lower stage of the conductive bar is electrically connected to the second voltage line 42 regardless of whether it is for 100 [V] or 200 [V]. Therefore, in the sensor unit 23 that measures the current of the upper branch breaker 62, a plurality of current sensors 20 are installed between the first voltage line 41 and the branch breaker 62, and the first voltage line 41 and the branch breaker 62 are installed. Measure the current between and. On the other hand, in the sensor unit 24 that measures the current of the lower branch breaker 62, a plurality of current sensors 20 are installed between the second voltage line 42 and the branch breaker 62, and the second voltage line 42 and the branch breaker 62 are installed. Measure the current between and.

In the present embodiment, the electric device 8A is electrically connected to the branch breaker 62 included in the branch circuit 51, and the electric device 8B is electrically connected to the branch breaker 62 included in the branch circuit 52. .. Further, the electric device 8C is electrically connected to the branch breaker 62 included in the branch circuit 53 via the outlet 9, and the electric device 8D is electrically connected to the branch breaker 62 included in the branch circuit 55 via the outlet 9. It is connected to the.

(3) Operation of information presentation system By the way, in addition to the above-mentioned power line 4, there are communication lines such as a telephone line and a CATV line, an antenna, and the like as an approach route for a lightning surge, and lightning that enters through these approach routes. There is a possibility that the electric device 8 may break down due to the surge. However, the above-mentioned lightning strike frequency information providing device only presents the number of lightning strikes counted based on the lightning strike observation conditions set by the user, and until the causal relationship between the failure of the electric device 8 and the lightning strike is specified. Has not been reached.

Therefore, the information presentation system 2 according to the present embodiment presents information (lightning strike information, monitoring information) for supporting the determination of the causal relationship between the abnormality (malfunction, etc.) of the electrical device 8 to be monitored and the lightning strike. It is configured to be presented in Part 14. Hereinafter, an example of the operation of the information presentation system 2 according to the present embodiment will be described with reference to FIG. Here, a case where a lightning surge enters the electric device 8B (television) through the antenna will be described as an example.

As shown in FIG. 2, when a lightning surge enters the electric device 8B via the antenna, the surge current Is flows along the path of the branch breaker 62 of the branch circuit 52, the current sensor 20, and the lightning arrester 64 due to the lightning surge. Further, the surge current Is flows to the ground through the ground wire 44 electrically connected to the arrester 64. At this time, the surge current Is is preferably measured by the current sensor 20 provided in the sensor unit 24. That is, it is preferable that the surge current measuring unit 111 has a current sensor 20 that has a one-to-one correspondence with the lightning arrester 64. As described above, the current sensor 20 is a current sensor (logoski coil) using an air-core coil, and since magnetic saturation is unlikely to occur, it is possible to measure a large current such as surge current Is.

The acquisition unit 11 acquires lightning strike information including the surge current Is measured by the current sensor 20 of the surge current measurement unit 111. This lightning strike information includes the time when the lightning strike occurred, the magnitude of the lightning strike, and the like.

On the other hand, the monitoring unit 12 generates monitoring information including the first measured value and the second measured value in the first predetermined period and the second predetermined period before and after the lightning strike. In the present embodiment, the first measured value and the second measured value are average values of the effective values of the current consumption of each of the plurality of monitoring targets (electrical equipment 8) measured by the current consumption measuring unit 15. Here, it is preferable that the monitoring unit 12 is configured to identify the monitoring target (here, the electric device 8B) in which the abnormality has occurred among the plurality of monitoring targets, based on the monitoring information before and after the lightning strike. In this case, since a change occurs between the first measured value and the second measured value in the electric device 8B in which the lightning surge has entered, the monitoring unit 12 identifies that the monitoring target in which the abnormality has occurred is the electric device 8B. To do.

The determination unit 17 determines a monitoring target that has become abnormal due to a lightning strike among a plurality of monitoring targets based on the lightning strike information acquired by the acquisition unit 11 and the monitoring information before and after the lightning strike generated by the monitoring unit 12. .. In the present embodiment, the surge current Is is flowing through the electric device 8B, and there is a high possibility that the surge current Is causes an abnormality in the electric device 8B. In this case, for the electric appliance 8B to be monitored, the first measured value in the first predetermined period is a predetermined value, whereas the second measured value in the second predetermined period is zero. Then, the determination unit 17 determines that an abnormality has occurred in the electric device 8B due to the lightning strike, based on the time when the lightning strike occurred, the first measured value, and the second measured value.

At this time, the presentation unit 14 presents the lightning strike information and the monitoring information before and after the lightning strike. Specifically, the presentation unit 14 presents the time of occurrence of a lightning strike and the first measured value and the second measured value in each of the plurality of electric devices 8A to 8D. The user who saw the content of the presentation changed the current consumption (branch current) of the electric device 8B from the first measured value to the second measured value before and after the time when the lightning strike occurred. It is determined that an abnormality has occurred in. That is, by presenting the lightning strike information and the monitoring information before and after the lightning strike to the presentation unit 14, it is possible to support the determination of the causal relationship between the lightning strike and the monitoring target (here, the electric device 8B). In this case, not only the lightning strike information and the monitoring information before and after the lightning strike, but also the determination result of the determination unit 17 may be presented to the presentation unit 14. At this time, the storage unit 13 stores the lightning strike information and the monitoring information before and after the lightning strike in association with each other.

FIG. 3 is a waveform diagram of currents (branch currents) flowing through a plurality of electric devices 8A to 8D to be monitored. In FIG. 3, the branch current I11 is a current flowing through the electric device 8A, and the branch current I2 is a current flowing through the electric device 8B. Further, in FIG. 3, the branch current I13 is a current flowing through the electric device 8C, and the branch current I15 is a current flowing through the electric device 8D. FIG. 3 illustrates a case where an abnormality occurs in the electric device 8D due to a lightning strike.

In the example shown in FIG. 3, an abnormality has occurred in the electric device 8D due to the surge current Is due to a lightning strike that occurred at time t1. The branch current I11 of the electric device 8A, the branch current I12 of the electric device 8B, and the branch current I13 of the electric device 8C do not change before and after the time t1 which is the time when the lightning strike occurs. On the other hand, the branch current I15 of the electric device 8D is a predetermined value before the time t1, but gradually decreases after the time t1 when the lightning strike occurs, and finally becomes zero. .. As described above, since the branch current I15 of the electric device 8D changes before and after the time t1 which is the time when the lightning strike occurs, it can be determined that the electric device 8D has an abnormality due to the lightning strike. In other words, based on the lightning strike information and the monitoring information before and after the lightning strike, it is possible to support the determination of the causal relationship between the lightning strike and the abnormality (malfunction, etc.) of the electric device 8D to be monitored.

(4) Information presentation method and program By adopting the following information presentation method, the same functions as the information presentation system 2 of the present embodiment can be realized without using the dedicated measurement unit 63 and the HEMS controller.

That is, the information presentation method includes an acquisition step, a monitoring step, a storage step, and a presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike. The monitoring step is a step of monitoring the state of a plurality of monitoring targets by targeting each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power source 7). The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting lightning strike information and monitoring information before and after the lightning strike.

According to this information presentation method, the same functions as the information presentation system 2 of the present embodiment can be realized without using the dedicated measurement unit 63 and the HEMS controller, and the causal relationship between the lightning strike and the abnormality to be monitored can be determined. It has the advantage of being able to assist in making decisions.

Further, it is assumed that the measurement unit 63 and the HEMS controller mainly include a computer (including a microcomputer). In this case, the program recorded in the memory of the computer is a program for causing the computer to execute the acquisition step, the monitoring step, the storage step, and the presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike. The monitoring step is a step of monitoring the state of a plurality of monitoring targets by targeting each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power source 7). The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting lightning strike information and monitoring information before and after the lightning strike.

According to this program, the same functions as the information presentation system 2 of the present embodiment can be realized without using the dedicated measurement unit 63 and the HEMS controller, and the causal relationship between the lightning strike and the abnormality to be monitored can be determined. It has the advantage of being able to help.

(5) Modification Example Hereinafter, a modification of the present embodiment will be described.

In the present embodiment, the case where the surge current Is measured by the surge current measuring unit 111 is included in the lightning strike information is described as an example, but the information included in the lightning strike information is measured by the surge current measuring unit 111. It is not limited to the surge current Is. For example, when the information presentation system 2 and the server device 3 are connected to each other via the network NT as in the present embodiment, the information presentation system 2 may be configured to acquire lightning strike information from the server device 3. In this case, the lightning strike information includes the status of lightning strikes in the area around the consumer facility to which the information presentation system 2 is applied (for example, a map of the area affected by the lightning strike, the time when the lightning strike occurred, etc.). Is preferable.

In the present embodiment, the case where the monitoring information includes the current consumption (including the standby current) for each of the plurality of monitoring targets measured by the current consumption measuring unit 15 is described as an example, but this consumption The power consumption (power consumption) calculated based on the current may be included in the monitoring information. Even in this case, if the monitoring target is operating before the lightning strike, the power consumption will be a predetermined value, and if the monitoring target is stopped after the lightning strike, the power consumption will be zero. It can assist in determining the causal relationship between lightning strikes and monitored anomalies.

Further, the monitoring information may include both the current consumption and the power consumption of each of the plurality of monitoring targets measured by the current consumption measurement unit 15. In other words, the monitoring information may include at least one of the current consumption and the power consumption measured by the current consumption measuring unit 15.

In the present embodiment, the case where the second measured value, which is the measured value at the time of abnormality, is zero is described as an example, but the second measured value may be the measured value at the time of abnormality and is not limited to zero. For example, the current consumption may increase due to the abnormal operation of the electric device 8. In this case, the second measured value becomes larger than the first measured value. Further, the first measured value and the second measured value are not limited to the current consumption, and may be one of the power consumption (instantaneous power) and the power consumption (integrated power). Even in this case, not only when the second measured value, which is the measured value at the time of abnormality, is zero, the second measured value may be larger than the first measured value. Further, the first measured value and the second measured value may be the power factor of the electric device 8, and for example, when an abnormality occurs in the electric device 8, the second measured value is compared with the first measured value. become worse.

Further, when the electric device 8 to be monitored has a communication function with the communication unit 18, the communication status between the communication unit 18 and each electric device 8 may be included in the monitoring information. In this case, it is preferable that the communication unit 18 of the information presentation system 2 and each electric device 8 communicate with each other by a communication protocol such as ECHONET (registered trademark). In this case, if the electrical device 8 to be monitored becomes abnormal, the communication with the communication unit 18, which has been performed regularly until then, is not performed, so that the monitoring unit 12 communicates with the communication unit 18. It is determined that an abnormality has occurred in the lost electric device 8. In other words, the monitoring unit 12 identifies the monitoring target in which the abnormality has occurred among the plurality of monitoring targets based on the monitoring information before and after the lightning strike.

In the present embodiment, the case where the measurement points in the power supply path from the external power supply (system power supply 7) to the plurality of power supply targets is each electric device 8A to 8D, in other words, each branch circuit 5, is described as an example. On the other hand, the measurement point may be a main circuit including a main breaker 61. In this case, the current waveform of each electric device 8 may be separated by using a disaggregation technique for separating each electric device 8 from the current waveform of the current flowing through the main circuit. Further, the measurement point may be an outlet 9, a smart meter 100, or the like. In particular, when the measurement point is one of the main circuit and the smart meter 100, there is an advantage that only the main current needs to be measured.

In the present embodiment, a case where the surge current measuring unit 111 measures the surge current Is flowing through the ground wire 44 electrically connected to the lightning arrester 64 is described as an example. On the other hand, when a plurality of current sensors 20 corresponding to one-to-one with the plurality of branch circuits 5 are provided as in the present embodiment, the surge current Is is measured for each of the plurality of branch circuits 5. can do. That is, in this case, one current sensor 20 measures both the current consumption and the surge current Is that flow during the operation of the electric device 8. Generally, in the power measurement system 1, since the structure is such that the branch current is measured for each of the plurality of branch circuits 5, the current sensor for measuring the branch current is used as the current sensor for measuring the surge current Is. Can also be used.

Further, in this case, since the electric device 8 in which the surge current Is is measured can also be specified, the monitoring unit 12 has a correspondence relationship between the electric device 8 in which the surge current Is is measured and the electric device 8 in which the abnormality has occurred. Can be identified. In other words, the monitoring unit 12 identifies the correspondence between the monitoring target in which the surge current Is is measured and the monitoring target in which the abnormality has occurred, among the plurality of monitoring targets, based on the lightning strike information and the monitoring information before and after the lightning strike. To do. In this case, the lightning strike information includes information on the monitoring target in which the surge current Is is measured (for example, an ID assigned to each electric device 8) among the plurality of monitoring targets.

In the present embodiment, the acquisition unit 11 uses the time when the surge current Is is measured by the surge current measurement unit 111 as the time when the lightning strike occurs. On the other hand, the acquisition unit 11 may be configured to acquire the time information when the lightning strike occurred from the server device 3. In this case, the acquisition unit 11 acquires the time information from the server device 3 via the network NT. Further, the lightning strike information may further include the magnitude of the lightning strike and the like.

In the present embodiment, the case where the consumer facility is a detached house is described as an example, but the consumer facility is not limited to the detached house, and may be each dwelling unit of a condominium or the like. It may be a non-residential building such as a factory, a hospital, or an office building.

(6) Summary As is clear from the above-described embodiment, the information presentation system 2 according to the first aspect includes an acquisition unit 11, a monitoring unit 12, a storage unit 13, and a presentation unit 14. The acquisition unit 11 acquires lightning strike information, which is information on lightning strikes. The monitoring unit 12 monitors each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power supply 7), and monitors the states of the plurality of monitoring targets. The storage unit 13 stores the lightning strike information acquired by the acquisition unit 11 and the monitoring information which is the monitoring result of the monitoring unit 12. The presentation unit 14 presents lightning strike information and monitoring information before and after the lightning strike.

According to the first aspect, by presenting the lightning strike information and the monitoring information before and after the lightning strike in the presentation unit 14, it is possible to support the determination of the causal relationship between the lightning strike and the abnormality (failure) of the monitored object. ..

In the information presentation system 2 according to the second aspect, in the first aspect, the acquisition unit 11 has a surge current measuring unit 111 for measuring a surge current Is due to a lightning strike. The lightning strike information includes the surge current Is measured by the surge current measuring unit 111.

According to the second aspect, the surge current Is acquired by the acquisition unit 11 can be used as information for supporting the determination of the causal relationship between the lightning strike and the abnormality to be monitored. However, this configuration is not essential, and the acquisition unit 11 does not have to have the surge current measurement unit 111.

In the information presentation system 2 according to the third aspect, in the first aspect, the acquisition unit 11 is configured to acquire lightning strike information from the server device 3 that stores the lightning strike information via the network NT. ..

According to the third aspect, since the influence of the lightning surge extends over a wide range centering on the lightning strike location, for example, by acquiring the information on the lightning strike announced by the Japan Meteorological Agency or the like from the server device 3, the reliability of the measurement data on the lightning strike can be improved. Can be improved. However, this configuration is not essential, and the acquisition unit 11 may not be configured to acquire lightning strike information from the server device 3 via the network NT.

In the information presentation system 2 according to the fourth aspect, in any one of the first to third aspects, each of the plurality of monitoring targets is an electric device 8 having a communication function. The information presentation system 2 further includes a communication unit 18 that communicates with each of the plurality of electric devices 8. The monitoring information includes the communication state between each of the plurality of electric devices 8 and the communication unit 18.

According to the fourth aspect, it is possible to determine whether or not each of the plurality of electric devices 8 is normal depending on whether or not each of the plurality of electric devices 8 and the communication unit 18 can communicate with each other. However, this configuration is not essential, and the monitoring information does not have to include the communication state between each of the plurality of electric devices 8 and the communication unit 18.

In any of the first to third aspects, the information presentation system 2 according to the fifth aspect sets a predetermined measurement point in the power supply path from the external power source (system power source 7) to the plurality of power supply targets (electrical devices 8). A current consumption measuring unit 15 for measuring the flowing current consumption is further provided. The monitoring information includes at least one of the current consumption measured by the current consumption measuring unit 15 (for example, the branch current) and the power consumption calculated using the current consumption.

According to the fifth aspect, it is possible to determine whether or not each of the plurality of monitoring targets is normal based on at least one of the current consumption and the power consumption. However, this configuration is not essential, and the monitoring information does not have to include current consumption and power consumption.

In the information presentation system 2 according to the sixth aspect, in the fifth aspect, the monitoring unit 12 is configured to identify the monitoring target in which an abnormality has occurred among a plurality of monitoring targets based on the monitoring information before and after the lightning strike. Has been done.

According to the sixth aspect, it is possible to identify the monitoring target in which the abnormality has occurred based on the monitoring information before and after the lightning strike. However, this configuration is not essential, and the monitoring unit 12 may not be configured to identify the monitoring target in which the abnormality has occurred based on the monitoring information before and after the lightning strike.

In the information presentation system 2 according to the seventh aspect, in the sixth aspect, the lightning strike information includes information on the monitoring target in which the surge current due to the lightning strike is measured among the plurality of monitoring targets. Based on the lightning strike information and the monitoring information before and after the lightning strike, the monitoring unit 12 identifies the correspondence between the monitoring target in which the surge current Is is measured and the monitoring target in which the abnormality has occurred among the plurality of monitoring targets. It is configured.

According to the seventh aspect, it is possible to specify the correspondence relationship between the monitoring target in which the surge current Is is measured and the monitoring target in which the abnormality has occurred, based on the lightning strike information and the monitoring information before and after the lightning strike. However, this configuration is not indispensable, and the monitoring unit 12 specifies the correspondence relationship between the monitoring target in which the surge current Is is measured and the monitoring target in which an abnormality has occurred, based on the lightning strike information and the monitoring information before and after the lightning strike. It does not have to be configured as such.

In the information presentation system 2 according to the eighth aspect, in the second aspect, the surge current measuring unit 111 has a current sensor 20 using an air-core coil.

According to the eighth aspect, by using an air-core coil that is hard to be magnetically saturated even when a large current flows, it is possible to cope with the measurement of a large surge current Is. However, this configuration is not essential, and for example, the surge current measuring unit 111 may have a CT sensor.

In the information presentation system 2 according to the ninth aspect, in the second or eighth aspect, the surge current measuring unit 111 transfers the electric power supplied from the external power source (system power source 7) to a plurality of power supply targets (electrical devices 8). It has a lightning arrester 64 housed in the distribution board 6 as an internal unit of the distribution board 6 to be distributed. The surge current measuring unit 111 is configured to measure the surge current Is flowing through the ground wire 44 electrically connected to the lightning arrester 64.

According to the ninth aspect, since the surge current Is due to the lightning strike flows toward the ground, the surge current Is can be effectively measured by measuring the surge current Is flowing through the ground wire 44. However, this configuration is not essential, and the surge current measuring unit 111 may not be configured to measure the surge current Is flowing through the ground wire 44 electrically connected to the lightning arrester 64.

In the information presentation system 2 according to the tenth aspect, in any one of the first to ninth aspects, the lightning strike information includes the time information when the lightning strike occurred.

According to the tenth aspect, it is possible to support the determination of the causal relationship between the lightning strike and the abnormality of the monitored object based on the time information when the lightning strike occurred and the monitoring information. However, this configuration is not essential, and the time information at which the lightning strike occurred may not be included in the lightning strike information as long as it can support the determination of the causal relationship between the lightning strike and the abnormality to be monitored.

In any of the first to tenth aspects, the information presentation system 2 according to the eleventh aspect is a monitoring target that has become abnormal due to a lightning strike among a plurality of monitoring targets based on lightning strike information and monitoring information before and after the lightning strike. A determination unit 17 for determining the above is further provided.

According to the eleventh aspect, it is possible to identify the monitoring target that has become abnormal due to a lightning strike from the determination result of the determination unit 17. However, this configuration is not essential, and the determination unit 17 may be omitted.

The distribution board 6 according to the twelfth aspect includes the information presentation system 2 according to any one of the first to eleventh aspects.

According to the twelfth aspect, by applying any of the above-mentioned information presentation systems 2 to the distribution board 6, it is possible to determine the causal relationship between the abnormality (failure) of the monitoring target in the distribution board 6 and the lightning strike. Can be assisted.

The information presentation method according to the thirteenth aspect includes an acquisition step, a monitoring step, a storage step, and a presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike. The monitoring step is a step of monitoring the state of a plurality of monitoring targets by targeting each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power source 7). The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting lightning strike information and monitoring information before and after the lightning strike.

According to the thirteenth aspect, the same function as the above-mentioned information presentation system 2 can be realized without using a dedicated device, and it is possible to support the determination of the causal relationship between the lightning strike and the abnormality to be monitored. ..

The program according to the fourteenth aspect causes a computer to execute an acquisition step, a monitoring step, a storage step, and a presentation step. The acquisition step is a step of acquiring lightning strike information, which is information about a lightning strike. The monitoring step is a step of monitoring the state of a plurality of monitoring targets by targeting each of the plurality of power supply targets (electrical devices 8) to which power is supplied from the external power source (system power source 7). The storage step is a step of storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step. The presentation step is a step of presenting lightning strike information and monitoring information before and after the lightning strike.

According to the fourteenth aspect, the same function as the above-mentioned information presentation system 2 can be realized without using a dedicated device, and it is possible to support the determination of the causal relationship between the lightning strike and the abnormality to be monitored. ..

2 Information presentation system 3 Server device 6 Distribution board 64 Lightning arrester (internal unit)
7 system power supply (external power supply)
8 Electrical equipment (target for power supply)
11 Acquisition unit 111 Surge current measurement unit 12 Monitoring unit 13 Storage unit 14 Presentation unit 15 Current consumption measurement unit 17 Judgment unit 18 Communication unit 20 Current sensor 44 Ground line Is surge current NT network

Claims (13)

The acquisition department that acquires lightning strike information, which is information about lightning strikes,
A monitoring unit that monitors the status of the plurality of monitoring targets by monitoring each of the plurality of power supply targets to which power is supplied from an external power source.
A storage unit that stores the lightning strike information acquired by the acquisition unit and the monitoring information that is the monitoring result of the monitoring unit.
It is provided with a presentation unit that presents the lightning strike information and the monitoring information before and after the lightning strike .
The acquisition unit, the information presentation system that is configured to acquire the lightning information via the network from a server device storing the lightning information. The acquisition unit has a surge current measuring unit that measures a surge current due to a lightning strike.
The information presentation system according to claim 1, wherein the lightning strike information includes the surge current measured by the surge current measuring unit. Each of the plurality of monitoring targets is an electric device having a communication function.
A communication unit that communicates with each of the plurality of electric devices is further provided.
The monitoring information includes a communication state between each of the plurality of electric devices and the communication unit.
The information presentation system according to claim 1 or 2. Further, a current consumption measuring unit for measuring the current consumption flowing through a predetermined measurement point in the power feeding path from the external power supply to the plurality of power feeding targets is further provided.
The monitoring information includes at least one of the current consumption measured by the current consumption measuring unit and the power consumption calculated using the current consumption.
The information presentation system according to claim 1 or 2. The monitoring unit is configured to identify a monitoring target in which an abnormality has occurred among the plurality of monitoring targets based on the monitoring information before and after a lightning strike.
The information presentation system according to claim 4. The lightning strike information includes information on the monitoring target in which the surge current due to the lightning strike is measured among the plurality of monitoring targets.
Based on the lightning strike information and the monitoring information before and after the lightning strike, the monitoring unit identifies the correspondence between the monitoring target in which the surge current is measured and the monitoring target in which an abnormality has occurred among the plurality of monitoring targets. Is configured to
The information presentation system according to claim 5. The surge current measuring unit has a current sensor using an air-core coil.
The information presentation system according to claim 2. The surge current measuring unit has a lightning arrester housed in the distribution board as an internal unit of the distribution board that distributes the electric power supplied from the external power supply to the plurality of power supply targets, and is electrically connected to the lightning arrester. It is configured to measure the surge current flowing through the ground wire connected to
The information presentation system according to claim 2 or 7. The lightning strike information includes time information when a lightning strike occurred.
The information presentation system according to any one of claims 1 to 8. A determination unit for determining a monitoring target that has become abnormal due to a lightning strike among the plurality of monitoring targets is further provided based on the lightning strike information and the monitoring information before and after the lightning strike.
The information presentation system according to any one of claims 1 to 9. The information presentation system according to any one of claims 1 to 10 is provided.
Distribution board. An acquisition step of acquiring lightning strike information, which is information about a lightning strike, from a server device that stores the lightning strike information via a network, and
A monitoring step in which each of a plurality of power supply targets to which power is supplied from an external power source is monitored, and the status of the plurality of monitoring targets is monitored.
A storage step for storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step, and a storage step.
It includes a presentation step for presenting the lightning strike information and the monitoring information before and after the lightning strike.
Information presentation method. On the computer
An acquisition step of acquiring lightning strike information, which is information about a lightning strike, from a server device that stores the lightning strike information via a network, and
A monitoring step in which each of a plurality of power supply targets to which power is supplied from an external power source is monitored, and the status of the plurality of monitoring targets is monitored.
A storage step for storing the lightning strike information acquired in the acquisition step and the monitoring information which is the monitoring result of the monitoring step, and a storage step.
A program for executing a presentation step for presenting the lightning strike information and the monitoring information before and after the lightning strike.

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