JP5752908B2 - Watch support system and watch support method - Google Patents

Description

  The present invention relates to a monitoring support system and a monitoring support method for watching a family living alone from a remote location.

  There are various systems for watching the situation of children who go to university by living alone from a remote location. When watching an elderly person living alone, there is a system that uses an electric kettle used in an elderly person's house (for example, see Patent Document 1). In this system, an on / off operation of a hot water supply switch provided in an electric pot is detected. Thereafter, the system periodically transmits the detected operation status to the monitor unit via the communication network. The monitor unit grasps the living situation of an elderly person living alone based on the received operation situation. If there is an abnormality in the living situation, the monitor unit notifies the occurrence of the abnormality by telephone or the like to the family watching over the elderly.

Japanese Patent Laid-Open No. 10-248093

  By the way, the system described above using the electric pot has the following problems. In a general electric pot, a magnet plug is used at the end of a power cable. The magnet plug has a structure in which a magnet is attached to a plug connected to an electric pot, and the power cable can be attached and detached freely by this plug. However, when the magnet plug is connected to the electric pot, an elderly person living alone who is a user of the pot hooks a leg or the like on the power cable, and the power cable may come off from the electric pot.

  As described above, a power cable may be disconnected from an electric device such as an electric pot. In such a state, the above-described system using a specific electric device cannot transmit the operation status of the electric device. As a result, when the power cable is disconnected, even if an abnormality occurs in the living conditions of an elderly person living alone, there is a problem that the monitor unit cannot communicate the abnormality to the family watching over the elderly person. is there.

  An object of the present invention is to provide a watching support system and a watching support method that solve the above-described problems and enable reliable watching.

In order to solve the above problems, the invention of claim 1 is a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on and off as necessary, and the continuous operation type device. A monitoring support system for a residential home where a consumer having an on / off type device with a large change in power consumption during on / off and a low frequency of occurrence is used, and is used in the residential home a power consumption overall electric device is consumed to have a transmitting means for transmitting the power consumption for each predetermined time, receives the power consumption from the transmitting unit, the on-off type stored in advance The threshold value for detecting the on / off state of the device, the power consumption amount of the continuous operation type device, and the received power consumption amount obtained by adding the power consumption amount of the on / off type device are compared. More power consumption Detecting the on and off al the on-off type device, comprising: a time-on of the on-off type device that has detected, and the determining processing means the consumers during off is at home, the, the The threshold is set based on the transition of the power consumption of the continuous operation type device.
It is a watching support system characterized by this.

According to the first aspect of the present invention, there is a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on / off as necessary, and the power consumption during the on / off operation from the continuous operation type device. The transmission means transmits the power consumption per predetermined time in the home of a consumer having an on / off type device with a large change in frequency and a low frequency of occurrence . When the processing means receives the power consumption from the transmission means, the threshold for detecting the on / off of the on / off type device stored in advance, the power consumption of the continuous operation type device, and the on / off type device The received power consumption amount added to the power consumption amount of the power source is compared, and the on / off type device is detected on and off from the power consumption amount equal to or higher than the threshold value. Then, the processing means determines that the consumer is at home when the detected on / off type device is on and off.

The invention of claim 2 is a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on / off as necessary, and the power consumption during on / off from the continuous operation type device. Is a monitoring support system for a residential home where a consumer having an on / off-type device with a large change in frequency and a low frequency of occurrence, and the power consumption consumed by the entire electrical equipment used in the residential home When receiving the power consumption from the transmission means and the transmission means for transmitting power consumption every predetermined time, the power consumption is stored, and the power consumption more than the threshold of the previous day is stored. When the transition is obtained, the power consumption pattern of each electrical device stored in advance is compared with all the patterns included in the transition of the power consumption that is equal to or more than the threshold of the previous day. the on-off type was Vessels and to identify and use time, and a processing means for detecting a change in the life pattern of the day from the change in usage of the on-off type device is identified, the threshold value the continuous operation-type equipment It is a monitoring support system characterized by the fact that it is set based on the transition of the power consumption of .

In the invention of claim 2 , a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on / off as necessary, and that is consumed by the continuous operation type device. The transmission means transmits the power consumption per predetermined time in the home of a consumer having an on / off type device with a large change in frequency and a low frequency of occurrence . When the processing unit receives the power consumption from the transmission unit, the processing unit stores the power consumption. Thereafter, when the processing means obtains the transition of the power consumption on the previous day , the processing means includes the power consumption pattern of each electrical device stored in advance and the transition of the power consumption over the threshold on the previous day. All the patterns to be used are compared to identify all used on / off type devices and usage time. And a processing means detects the change of the daily life pattern from the change of the usage condition of the specified electric equipment.

  A third aspect of the present invention is the monitoring support system according to the first or second aspect, wherein the transmission means is installed at the home of the consumer and measures the power consumption used at the home of the home And a watt hour meter having a function of storing the measurement result and a function of transmitting the measurement result.

The invention according to claim 4 is a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on / off as necessary, and the power consumption during the on / off state from the continuous operation type device. Is a monitoring support method for a residential home where a consumer having an on / off type device with a large change in frequency and a low frequency of occurrence, and the power consumed by the entire electrical equipment used in the residential home a consumption, and transmits the power consumption for each predetermined time, it receives the power consumption, a threshold for detecting the on-off type device on and off which is stored in advance, the continuous operation-type equipment Is compared with the received power consumption that is the sum of the power consumption of the on / off type device and the on / off type device is turned on / off from the power consumption above this threshold. And the detected And when ON down-off type device, the consumer is determined to be at home at the time of off, the threshold value is set based on the transition of power consumption of the continuous operation type device, characterized in that It is a watch support method.

The invention according to claim 5 is a continuous operation type device that is an electric device that is continuously operated, and an electric device that is turned on / off as necessary, and the power consumption at the on / off time from the continuous operation type device. Is a monitoring support method for a residential home where a consumer having an on / off type device with a large change in frequency and a low frequency of occurrence, and the power consumed by the entire electrical equipment used in the residential home When the power consumption is transmitted and the power consumption is transmitted every predetermined time and the power consumption is received, this power consumption is stored, and when the transition of the power consumption more than the stored threshold of the previous day is obtained, Compare the power consumption pattern of each electrical device stored in advance with all the patterns included in the transition of power consumption over the threshold of the previous day, and use all the on / off specific and type equipment, and the use time , Detects changes in the life pattern of the day from the change in usage of the on-off type device identified, serial threshold was set based on the transition of power consumption of the continuous operation type apparatus, that This is a monitoring support method that is characteristic.

  According to the first and fifth aspects of the present invention, since the power consumption of the entire electrical equipment used at the home of the consumer is detected based on the power consumption selected by the threshold, the home of the consumer is detected. Compared to the case where the living situation is examined based on the operation for a specific electric device as in the past, even if no power is supplied to one electric device, the home is detected based on the power consumption of the remaining electric device. , Which enables us to watch over changes in the lives of consumers. In addition, since the power consumption is selected based on the threshold, it is possible to exclude detection of ON and OFF due to the power consumption having a value smaller than the threshold, that is, the power consumption having a weak correlation with the life of the consumer.

  According to the invention of claim 2 and claim 6, based on the power consumption of the entire electrical equipment used in the home of the consumer, the used electrical equipment and the usage time are detected, Changes in lifestyle patterns are detected by changes. Thereby, compared with the case where the living situation is examined based on an operation on a specific electric device as in the past, it is possible to surely watch the life change of the consumer.

  According to invention of Claim 3, since the measured electric power consumption is transmitted from a consumer's house with the watt-hour meter provided with various functions, the installation of new transmission equipment can be made unnecessary.

  According to invention of Claim 4, since the threshold value set based on the transition of the electric power consumption of the electric equipment operated continuously is used, ON / OFF of electric equipments, such as a refrigerator, can be detected. Because it is not, it will be possible to watch the changes in the lives of consumers more reliably.

1 is a configuration diagram illustrating a watching support system according to Embodiment 1. FIG. It is a block diagram which shows an example of an electric energy meter. It is a figure which shows an example of a user table. It is a figure which shows an example of an electric energy table. It is a figure which shows an example of an electric equipment table. It is a figure which shows an example of the pattern of an electric equipment, FIG. 6 (a) is a figure which shows the pattern of a microwave oven, FIG.6 (b) is a figure which shows the pattern of a dryer, FIG.6 (c) shows the pattern of an air conditioner. FIG. It is a block diagram which shows an example of a management server. FIG. 8A is an explanatory diagram for explaining a threshold value of an electric device, FIG. 8A is a diagram showing power consumption of an on / off type device, FIG. 8B is a diagram showing power consumption of a continuous operation type device, FIG. 8 (c) is a diagram showing the power consumption of measurement data. It is explanatory drawing explaining an on-off threshold value. It is a flowchart which shows a home watching process. It is explanatory drawing explaining an at-home confirmation signal. It is a flowchart which shows a life pattern watching process. It is explanatory drawing explaining an apparatus use confirmation signal. It is explanatory drawing explaining an apparatus use confirmation signal. It is a block diagram which shows the monitoring assistance system by Embodiment 2. 6 is a configuration diagram showing a distribution board used in Embodiment 2. FIG.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
In this embodiment, the management center provides a watch service. The watching service is a service for watching a change in the life of a person who watches over a single person living in a home (hereinafter referred to as a “resident”). Consumers include elderly people who live alone, children who go to school apart from their parents, and those who work on a single basis. The management center is installed in an electric power company, or is installed in a service provider company that has a cooperative relationship with the electric power company.

  A watch support system for providing such watch services is shown in FIG. The monitoring support system of FIG. 1 includes a monitoring device 10 installed in the management center A, a watt-hour meter 20 such as a smart meter installed in a consumer's house B, and a user of the monitoring service (hereinafter referred to as “the monitoring service”). Mobile phone 30 used simply by “user”. The monitoring device 10 of the management center A is in an environment in which data communication can be performed with the watt-hour meter 20 and the mobile phone 30 at the home B through the communication network NW.

  Electricity is supplied to the consumer's house B from the lead-in line 101 of the electric power company. The watt-hour meter 20 is an electronic meter having a communication function in addition to a function as a measuring instrument for measuring electricity. The watt-hour meter 20 is connected to a lead-in line 101 that supplies power to the consumer's house B. When electric power is used at the home B, the watt hour meter 20 measures and integrates the used electric power. As shown in FIG. 2, the watt-hour meter 20 includes a voltage input unit 20A, a current input unit 20B, a conversion unit 20C, a processing unit 20D, a storage unit 20E, a display unit 20F, and a communication unit 20G.

  The voltage input unit 20A of the watt-hour meter 20 receives the detection voltage of the transformer 102 provided in the lead-in line 101, and the current input unit 20B receives the detection current of the current transformer 103 provided in the lead-in line 101. . The conversion unit 20C generates a pulse signal proportional to the power used from the detection voltage of the voltage input unit 20A and the detection current of the current input unit 20B, and sends the pulse signal to the processing unit 20D. The storage unit 20E stores in advance a meter number that is identification information of the watt-hour meter 20. The display unit 20F includes a display panel (not shown) such as a liquid crystal display, and displays an integrated value of power consumption on the display unit 20F under the control of the processing unit 20D. The communication unit 20G has a communication function and communicates with the management center 1 via the communication network NW.

  The processing unit 20D is an arithmetic circuit such as a CPU. The processing unit 20D has a calendar function for examining the date and a timer function for examining the time. When the processing unit 20D receives a pulse signal from the conversion unit 20C, the processing unit 20D counts pulses of the pulse signal. That is, the processing unit 20D calculates the power consumption by counting the pulses proportional to the power consumed by the customer and integrating the power consumed by the customer. The processing unit 20D displays the integrated value of the power consumption thus calculated on the display unit 20F. Further, the processing unit 20D records the number of pulses per predetermined time, that is, the power consumption for every predetermined time, for example, the power consumption for every 10 minutes, in the storage unit 20E. At this time, the processing unit 20D adds the date and time at the time of recording to the recorded power consumption. Further, the processing unit 20D periodically transmits, for example, every predetermined time to the management center A via the communication unit 2G as the power consumption for every predetermined time as measurement data. At this time, the processing unit 20D adds the instrument number stored in the storage unit 20E to the power consumption to be transmitted. That is, the instrument number, date and time are added to the power consumption transmitted to the management center A.

  The watt-hour meter 20 supplies the electric power from the lead-in line 101 to the consumer's house B through the distribution board 21 installed in the consumer's house B. In the home B, electric devices such as a microwave oven 22A, a dryer 22B, ..., an air conditioner 22C are used. The distribution board 21 supplies electric power to these electric devices through an earth leakage breaker or the like. As described above, the watt-hour meter 20 transmits the power consumption for a predetermined time to the management center A as measurement data. This power consumption is the sum of the power consumed by the microwave oven 22A, the dryer 22B,.

  The monitoring device 10 of the management center A provides a monitoring service based on the measurement data received from the home B, and includes a communication control device 11, a management server 12, a database (DB) server 13, and the like. And a management terminal 14.

  The communication control device 11 of the management center A enables data communication via the communication network NW. That is, the communication control device 11 receives measurement data from the home B and sends it to the management server 12, and also sends data from the local area network 11A in the company, for example, data from the management server 12 to the communication network. The data is transmitted to the mobile phone 30 or a personal computer (not shown) of the watching service user via the NW.

  The management terminal 14 of the management center is a dedicated management computer operated by a person in charge. The management terminal 14 performs, for example, new registration of the user of the watching service to the management server 12 by the operation of the person in charge.

  The database server 13 of the management center is a dedicated computer for storing and managing data required for the watching service. The data stored in the database server 13 includes a user table. The user table records a list of users who have applied for watching service. An example of this user table is shown in FIG. In the user table, the name of the user, an ID (IDentification) for identifying the user, and a password are recorded. Moreover, the meter number of the watt-hour meter of a consumer's house is recorded on the user table. Further, an e-mail address or the like is recorded in the user table as a user contact address.

  The data stored in the database server 13 includes an electric energy table. The power amount table is data on the amount of power consumed at each home, and is generated based on the measurement data received from the power meter at the home. That is, the power consumption table records the power consumption for every predetermined time every day, in this embodiment, the power consumption for every 10 minutes. An example of the power amount table is shown in FIG. In this power amount table, the power consumption at each time interval at 10-minute intervals is recorded up to the present time every day corresponding to the instrument number. For example, the power consumption of “0:10” represents the power consumption between 00:00 and 00:10.

  The data stored in the database server 13 includes an electrical device table. The electrical device table records a pattern of electric energy consumed by each electrical device used at home. An example of this electrical equipment table is shown in FIG. This electric device table is a pattern corresponding to each electric device, and records a pattern of power consumption consumed by the device. The power consumption pattern represents the power consumption of an electrical device that changes with the passage of time as the power consumption for each predetermined time. In an electric device, the power consumed immediately after the start of energization forms a characteristic pattern with time. If the electric device is, for example, a microwave oven or a dryer, the power consumed is a peak load, and a pattern of power consumption as shown in FIGS. 6A and 6B is formed. Further, if the electric device is an air conditioner, the consumed power reaches a peak at the start-up, and then the load is constant and stable, so that a power consumption pattern as shown in FIG. 6C is formed. Such a power consumption pattern can be obtained, for example, by examining different patterns such as models for one electric appliance in advance and averaging each pattern. The power consumption pattern thus obtained is a collection of power consumption data recorded at each predetermined time.

  The management server 12 of the management center is a dedicated computer for providing a watching service to the user. As illustrated in FIG. 7, the management server 12 includes a processing unit 12A, a storage unit 12B, a display unit 12C, and a communication unit 12D. The communication unit 12D is an interface that transmits and receives data to and from the local area network 11A under the control of the processing unit 12A. The display unit 12C displays the operating state of the management server 12 and the like under the control of the processing unit 12A. The storage unit 12B is a storage device that stores data. The storage unit 12B stores programs and data necessary for the operation of the management server 12 in advance. Further, the storage unit 12B temporarily stores data as necessary when executing the program.

  The data stored in the storage unit 12B includes an on / off threshold value used when detecting on / off of the electrical device. Here, the on / off threshold value will be described. The on / off threshold is defined as a change in power consumption (load fluctuation) of an electric device that is continuously operated (hereinafter referred to as “continuously operated device”) such as a refrigerator, and a dryer or a microwave oven, for example. This is to sort out the change (load fluctuation) of the power consumption of an electrical device that is turned on and off as needed (hereinafter referred to as “on / off type device”). For example, as shown in FIG. 8A, an on / off type device has a characteristic that changes in power consumption LC1 and LC2 at the time of on / off are large, and load fluctuation LC3 other than on / off is small. . Moreover, since it is used according to the needs of consumers, the number of on / off occurrences during the day is small. On the other hand, as shown in FIG. 8B, the continuous operation type apparatus has a characteristic that the load fluctuation LC11 is small because the apparatus is automatically and continuously operated. In addition, since the equipment is automatically operated, load fluctuations frequently occur during the day.

  As shown in FIG. 8C, the power consumption detected by the watt-hour meter 20 is the sum of the power consumption of the continuous operation type device and the power consumption of the on / off type device. Of these, it is necessary to detect changes LC1 and LC2 in power consumption during on / off. In order to detect a change in power consumption when turning on / off in an on / off type device, as shown in FIG. 9, when the occurrence frequency is large from the relationship between the change in power consumption and the occurrence frequency Power consumption by operating a continuous operation type device. Then, a lower value than the power consumption when the frequency of occurrence is large is set as the on / off threshold value TW. Thereby, as will be described later, the processing unit 12A uses a change in the power consumption that is smaller than the on / off threshold as a noise component of the load fluctuation, and does not detect the change at this time as on / off.

  The storage unit 12B of the management server 12 stores the on / off threshold value set in this way.

  The processing unit 12A of the management server 12 executes various programs stored in the storage unit 12B. The program executed by the processing unit 12A includes a data reception process. When the processing unit 12A receives the measurement data from the watt-hour meter at the home, the processing unit 12A refers to the instrument number of the measurement data, records the power consumption represented by the measurement data in the corresponding column of the power amount table, and Update the quantity table.

  In addition, the program executed by the processing unit 12A includes a home watching process for watching the home as a change in the life of the consumer based on the power consumption of the measurement data received on the day. For example, when the measurement unit 12A receives measurement data from the watt-hour meter 20 of the home B, the processing unit 12A performs a data reception process, and then performs a home watching process illustrated in FIG. When the processing unit 12A starts the home monitoring process, the processing unit 12A checks the updated power consumption of the consumer home B (step S1). In step S1, the processing unit 12A periodically refers to the power amount table of the storage unit 12B.

  The processing unit 12A compares the updated power consumption amount with the on / off threshold value stored in the storage unit 12B (step S2), and determines whether or not the received power consumption amount is greater than or equal to the on / off threshold value. (Step S3). When the updated power consumption is lower than the on / off threshold value in step S3, the processing unit 12A returns the process to step S1. Based on such an on / off threshold, the processing unit 12A sorts a change in power consumption (load fluctuation) due to operation of a continuously operated device such as a refrigerator as a noise component of the load fluctuation. Since such a change in power consumption has a weak correlation with the life of the consumer, the processing unit 12A does not detect the change in power consumption (load fluctuation) at this time as an on / off state of the electrical device. When the updated power consumption is greater than or equal to the on / off threshold value in step S3, the electrical device is an on / off type device and is an electrical device such as a microwave oven or a dryer. Detects on / off of the device in the subsequent processing.

  If the received power consumption is greater than or equal to the on / off threshold value in step S3, the processing unit 12A determines whether the electrical device is on or off (step S4). In step S4, the processing unit 12A determines that the electrical device is turned on when the power consumption received this time is larger than a predetermined value compared to the previous power consumption received 10 minutes ago. . Further, the processing unit 12A determines that the electrical device is turned off when the power consumption amount received this time falls more than a predetermined value compared to the power consumption amount received last time.

  When step S4 ends, the processing unit 12A generates an at-home confirmation signal based on the determination result (step S5). In step S <b> 5, the processing unit 12 </ b> A generates a home confirmation signal on the assumption that the consumer is at home when the electrical device is turned on and when the electrical device is turned off. For example, as shown in FIG. 11, in the home confirmation signal, the home is represented by a pulse signal. That is, a pulse signal representing home is generated when the electrical device is on and off.

  When step S5 is completed, the processing unit 12A refers to the home confirmation signal at a preset timing, for example, morning, noon, and evening time, referring to the contact information in the user table, and the user's mobile phone 30 or personal An electronic mail is transmitted to the computer (step S6), and the home watching process is terminated.

  Thereafter, the processing unit 12A records the home confirmation signal generated in the home monitoring process, the transition of the power consumption, and the like in the database server 13 as required by the user, for example.

  On the other hand, the processing unit 12A performs the life pattern watching process together with the home watching process. A program for performing this process is stored in the storage unit 12B. The home watching process watches the changes in the life of the consumer depending on whether or not he / she is at home B, but the life pattern watching process is based on the usage status of the electrical equipment in the house B. Watch over. The processing unit 12A starts the life pattern watching process shown in FIG. 12 at a preset time, for example, midnight, and checks the transition of the power consumption of the previous day (step S21). In step S21, the processing unit 12A refers to the power amount table of the storage unit 12B.

  The processing unit 12A checks on / off of the electric device from the transition of the daily power consumption checked in step S1 (step S22), and the power consumption until the electric device is turned on to off. Are extracted (step S23). Thereafter, the processing unit 12A performs pattern matching between each pattern of the electrical device table registered in the database server 13 and the pattern extracted in step S23 (step S24), and has the pattern with the highest matching degree. The name of the electric device is checked from the electric device table (step S25). Thereafter, the processing unit 12A adds the name of the electrical device extracted in step S25 to the corresponding pattern of the daily power consumption checked in step S21, and generates a device usage confirmation signal (step S26). . For example, as shown in FIG. 13, the device shown in FIG. 14 is based on the name of the electric device having a high degree of matching between the pattern between the on and off of the daily power consumption and the pattern of the electric device. Generate a usage confirmation signal.

  When step S26 ends, the processing unit 12A determines whether all on / off of the daily power consumption has been checked (step S27). If there is ON / OFF not checked in step S27, the processing unit 12A returns the process to step S23. When it is determined that all on / off of the daily power consumption has been checked, the processing unit 12A obtains the generated device use confirmation signal and the past device use confirmation signal recorded in the database server 13. Compare (step S28). In step S28, when a large difference occurs in the use time of the electric device, the processing unit 12A determines that the life pattern has changed, and changes the life pattern, for example, the name of the electric device whose use time has shifted, as a comparison result. And

  When step S28 ends, the processing unit 12A refers to the contact information in the user table for the device use confirmation signal generated in step S26 and the comparison result in step S28, and the user's mobile phone 30 or personal An electronic mail is transmitted to the computer (step S29), and the life pattern watching process is terminated.

  Thereafter, the processing unit 12A records the device usage confirmation signal, the comparison result, and the like generated by the life pattern watching process in the database server 13 as required by the user, for example.

  Next, a watch support method using the watch support system according to this embodiment will be described. Normally, the management server 12 updates the power amount table of the database server 13 by reception processing. In this state, if there is a new user of the life change detection service, the person in charge of the management center operates the management terminal 14 to register the new user in the user table of the database server 13.

  Thereafter, the management server 12 periodically receives, from the watt-hour meter 20, measurement data of power consumption used by a consumer designated by a new user, for example, a consumer at the home B. Then, the management server 12 performs home watching processing, and transmits a home confirmation signal to the user's mobile phone 30 or personal computer by e-mail, for example, in the morning, noon, or evening time. When a personal computer is used, the management server 12 asks for input of the ID and password of the user table and confirms the identity. The user can know the staying home situation of a living person living away from the sent e-mail. That is, it is possible for the user to watch changes in the life of the consumer depending on whether or not the user is at home B.

  Furthermore, the management server 12 performs a daily pattern watching process based on the measurement data of the previous day once a day, and compares the generated device usage confirmation signal with the past device usage confirmation signal. E-mail is sent to the telephone 30 or personal computer. Thereby, it becomes possible to watch the lifestyle change of the consumer from the usage status of the electrical equipment in the consumer's house B.

  In this way, according to this embodiment, it is obtained from the power consumption by a plurality of electric devices, unlike the conventional method of checking the home of a consumer based on the operation status of a specific electric device (electric pot). Thus, it is possible to surely watch the consumer from both the home status whether the user is at home B and the usage status of the electric device. Also, even if the outlet of a specific electrical device is disconnected and the device is not energized as in the past, the remaining electrical device is used to check the home so that the influence on the oversight of consumers can be reduced. . Furthermore, in this embodiment, since the measurement data of the power consumption is received from the watt-hour meter 20, that is, the smart meter, it is not necessary to newly install equipment or the like for transmitting the measurement data from the home B.

(Embodiment 2)
In this embodiment, when the watt-hour meter 20 at the home B is not a smart meter, measurement data is transmitted to the management center A as follows. A watching support system according to this embodiment is shown in FIG. In FIG. 15, descriptions of the communication network NW and the management center A are omitted. In this embodiment, components that are the same as or the same as those in FIG. 1 described above are denoted by the same reference numerals, and description thereof is omitted.

In this embodiment, the home B is provided with a normal watt-hour meter 40 having only a function of measuring power consumption, a distribution board 41, a measurement unit 42, and a communication control device 43. At the consumer's house, electricity from the distribution line 101 is branched by the distribution board 41 through the watt-hour meter 40 installed at the consumer's house B. As shown in FIG. 16, the distribution board 41 detects an overcurrent breaker 41 </ b> A that detects and interrupts an overcurrent, a branch circuit 41 </ b> B for branching electricity, and leakage of each distribution line through which the branched current flows. and a leakage breaker _41C 1 _{~41C 3} to block detect and.

  In addition, the distribution board 41 includes a current sensor 42 </ b> A of the measurement unit 42. The current sensor 42A measures the current flowing through the overcurrent breaker 41A and sends the measurement result to the measurement unit 42, respectively. The electricity branched by the branch circuit 41B of the distribution board 41 is supplied to a microwave oven 22A, a dryer 22B,..., An air conditioner 22C, etc., through an outlet (not shown) installed in a household. .

  The communication control device 43 installed in the home B is a router and enables data communication via the communication network NW. At this time, the communication control device 43 sends the data from the local area network 43A in the home, that is, the measurement data from the measurement unit 42 installed in the home B to the management center via the communication network NW. Send.

  The measurement unit 42 is a device that records electricity consumed in the consumer premises B every predetermined time. The measurement unit 42 stores the instrument number of the watt-hour meter 40 in advance. In this embodiment, the measurement unit 42 records the power consumption amount, for example, every 10 minutes through the distribution board 41. Furthermore, the measurement unit 42 adds a date and time at the time of recording to the recorded power consumption. And the measurement unit 42 sends the power consumption for every predetermined time to the communication control apparatus 43 as measurement data. At this time, the measurement unit 42 adds the instrument number stored in advance to the power consumption to be sent to the communication control device 43. That is, the instrument number, date, and time are added to the power consumption amount that the communication control device 43 transmits to the management center A.

  Thereafter, the measurement data transmitted to the management center A is processed in the same manner as in the first embodiment.

  Thus, according to this embodiment, even if the watt-hour meter 40 is a normal meter, it is possible to watch over the consumers living in the home B.

(Embodiment 3)
In this embodiment, when performing the lifestyle pattern watching process shown in FIG. 12, the process of step S21 is performed as follows. That is, in step S21, the processing unit 12A checks the power consumption of the previous day. At this time, the processing unit 12A uses the on / off threshold for the transition of the daily power consumption obtained by referring to the power amount table of the storage unit 12B. Thereby, the process after step S22 is performed with respect to transition of the electric power consumption of the day more than an on / off threshold value.

  According to this embodiment, since the use status of electrical equipment such as a microwave oven and a dryer, which has a strong correlation with the lives of consumers, is found, it is possible to examine changes in lifestyle patterns with high accuracy.

  The present invention can be used not only for monitoring a consumer, but also for confirming the absence of a consumer or confirming the safety of an elderly person.

A Management center B Residential home 10 Watching device (processing means)
DESCRIPTION OF SYMBOLS 11 Communication control apparatus 12 Management server 13 Database server 14 Management terminal 20 Electricity meter (transmission means)
30 Mobile phone

Claims (5)

Continuous operation equipment that is continuously operated electric equipment, and electrical equipment that is turned on and off as necessary, and the power consumption at the time of on / off is larger than the continuous operation equipment. A monitoring support system for a residential home where a consumer having an on / off type device with a low frequency lives,
A power consumption overall electrical equipment used in the consumers home consumes, transmitting means for transmitting the power consumption for each predetermined time,
Upon receiving the power consumption from the transmitting means, and the threshold for detecting the on-off type device on and off which is stored in advance, and the power consumption of the continuous operation type device, wherein the on-off type device Is compared with the received power consumption, and the on / off type device is detected from the power consumption above the threshold, and the detected on / off type is detected. Processing means for determining that the consumer is at home when the device is on and off,
The threshold is set based on the transition of the power consumption of the continuously operated device,
Watch support system characterized by that. Continuous operation equipment that is continuously operated electric equipment, and electrical equipment that is turned on and off as necessary, and the power consumption at the time of on / off is larger than the continuous operation equipment. A monitoring support system for a residential home where a consumer having an on / off type device with a low frequency lives,
A power consumption overall electrical equipment used in the consumers home consumes, transmitting means for transmitting the power consumption for each predetermined time,
When the power consumption from the transmission means is received, this power consumption is stored, and when the transition of the power consumption over the threshold of the previous day is obtained, the power consumption pattern of each electrical device stored in advance is stored. And all the patterns included in the transition of power consumption over the threshold of the previous day, identify all used on / off type devices and usage time, and a processing means for detecting a change in the life pattern of the day from the change in usage of the on-off type device,
The threshold is set based on the transition of the power consumption of the continuously operated device,
Watch support system characterized by that. The transmission means is installed in the consumer's house and has a function of measuring power consumption used at the consumer's house, a function of storing a measurement result, and a function of transmitting a measurement result A meter,
The monitoring support system according to claim 1 or 2, wherein Continuous operation equipment that is continuously operated electric equipment, and electrical equipment that is turned on and off as necessary, and the power consumption at the time of on / off is larger than the continuous operation equipment. A monitoring support method for a residential home where a consumer having an on / off type device with a low frequency lives,
A power consumption overall electrical equipment used in the consumer's home is consumed to transmit the power consumption for each predetermined time,
Upon receiving the power consumption, a threshold for detecting the on-off type device on and off which is stored in advance, and the power consumption of the continuous operation type device, and the power consumption of the on-off type device Is compared with the received power consumption added to detect the on / off of the on / off type device from the power consumption above this threshold,
It is determined that the consumer is at home when the detected on / off type device is on and off ,
The threshold is set based on the transition of the power consumption of the continuously operated device,
Watch support method characterized by that. Continuous operation equipment that is continuously operated electric equipment, and electrical equipment that is turned on and off as necessary, and the power consumption at the time of on / off is larger than the continuous operation equipment. A monitoring support method for a residential home where a consumer having an on / off type device with a low frequency lives,
A power consumption overall electrical equipment used in the consumer's home is consumed to transmit the power consumption for each predetermined time,
When power consumption is received, this power consumption is stored,
When you get the transition of power consumption more than the threshold of the day before stored, all patterns included in the power consumption pattern of each electrical device stored in advance and the transition of power consumption over the threshold of the previous day Are compared with each pattern, and all the used on / off type devices and usage times are identified.
Detecting a change in the life pattern of the day from the change in usage of the on-off type device is identified,
The threshold is set based on the transition of the power consumption of the continuously operated device,
Watch support method characterized by that.

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