JP6549274B2 - Center device - Google Patents

Description

  The present invention relates to a center apparatus for disaster prevention information distribution.

  BACKGROUND ART Conventionally, a disaster prevention information distribution system for distributing disaster prevention information to each dwelling unit when a disaster such as an earthquake occurs has spread. The disaster prevention information distribution system includes, for example, a master station transmitting a signal related to disaster prevention information by radio, a slave station receiving a signal transmitted from the master station, and disaster prevention information based on a signal transmitted from the slave station. And an in-house receiver for voice reproduction (for example, see Patent Document 1). Alternatively, the disaster prevention information distribution system is configured as a system that reproduces disaster prevention information by voice using the disaster prevention speakers installed in each area.

Unexamined-Japanese-Patent No. 2004-072183

  However, in the conventional disaster prevention information distribution system provided with the above-mentioned in-house reception apparatus, since it is necessary to install a dedicated in-housing reception apparatus for reproducing disaster prevention information in each dwelling unit, the spread of the disaster prevention information distribution system There was a problem of Moreover, in the conventional disaster prevention information distribution system provided with the above-mentioned disaster prevention speaker, since only the distribution of disaster prevention information targeting at a large number of dwelling units existing in the area where the disaster prevention speaker is installed can be performed, for example There is a problem that it is not possible to deliver disaster prevention information only to dwelling units existing in a specific area of the department. In addition, depending on the positional relationship between the disaster prevention speaker and the dwelling unit, the distance may be long and the disaster prevention information may not be heard, or may be difficult to hear due to echo or the like.

  The present invention has been made in view of the above, and provides a center apparatus for distributing disaster prevention information that can perform distribution of disaster prevention information in units of dwelling units without requiring a dedicated terminal. The purpose is to

  In order to solve the problems described above and to achieve the object, the center apparatus according to claim 1 is a center side communication unit that communicates with an apparatus installed in a dwelling unit, and for uniquely identifying the apparatus. Area information that stores center identification means for storing device identification information, type of cause event of disaster prevention information, occurrence point of cause event of disaster prevention information, and area where disaster prevention information is to be distributed in association with each other In order to uniquely identify the storage means, a region to which the disaster prevention information is to be distributed, and a map database which stores the addresses included in the region to which the disaster prevention information is to be distributed in association with one another, the address and the device Information database that mutually stores the device identification information of each other, the type of cause event of the disaster prevention information to be delivered to the dwelling unit, and the occurrence point of the cause event of the disaster prevention information, the type and the occurrence The area to which the disaster prevention information is to be distributed is specified by referring to the area information storage means based on the point, and the area specified is included in the specified area by referring to the map database based on the specified area A delivery target specifying means for obtaining device identification information of the device installed in the dwelling unit of the specified address by specifying the address and referring to the information database based on the specified address, and distributing to the dwelling unit When the disaster prevention information to be provided and the device installed in the dwelling unit to which the disaster prevention information is to be delivered are identified, the device identification information corresponding to the identified device is acquired by the delivery target identification unit, The acquired device identification information and the disaster prevention identification information for identifying the disaster prevention information to be delivered are installed in the dwelling unit through the center communication means. Comprising a center-side delivery control means for transmitting to the device.

  The center apparatus according to claim 2 is the center apparatus according to claim 1, the type of the cause event of the disaster prevention information, the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, the disaster prevention Content information storage means for storing areas where information should be distributed and disaster prevention specific information in association with each other, types of cause events of disaster prevention information to be delivered to dwelling units, and occurrence points of cause events of disaster prevention information When the occurrence level of the cause event of the disaster prevention information and the area to which the disaster prevention information is to be distributed are specified, the content information storage means is referred to based on the type, the occurrence point, the occurrence level, and the area. And distribution content specifying means for acquiring disaster prevention specific information corresponding to the contents of the disaster prevention information to be distributed, and the center side distribution control means comprises the disaster prevention specific information acquired by the distribution content specifying means. To send.

  The center apparatus according to claim 3 transmits, in the center apparatus according to claim 2, disaster prevention information identification information for uniquely identifying the content of the disaster prevention information as the disaster prevention identification information.

  The center apparatus according to claim 4 is the center apparatus according to any one of claims 1 to 3, wherein the area to which the disaster prevention information stored in the area information storage means is to be distributed is predetermined from the Gulf and the estuary. It includes an area subject to the range of distance.

According to the center apparatus of claim 1, since disaster prevention information in the dwelling unit can be output through the device installed in each dwelling unit, a dedicated terminal for performing the disaster prevention information is required. Instead, it will be possible to deliver disaster prevention information on a dwelling unit basis. In particular, in the disaster prevention information distribution system provided with the in-house reception apparatus as in the prior art, it was premised that one in-housing reception apparatus is installed in one dwelling unit, so there is a place where the disaster prevention information is difficult to hear There is a possibility that there will be more than one disaster prevention terminal installed in one dwelling unit, so there is a place where it is difficult to hear disaster prevention information by outputting disaster prevention information via such a disaster prevention terminal. It is possible to reduce the possibilities.
In addition, since the device installed in the dwelling unit located in the area to which the disaster prevention information is to be distributed is automatically identified based on the type of the cause event and the occurrence point of the disaster prevention information, the type of the cause event and the occurrence point The disaster prevention information can be distributed easily and quickly to the device applied to the above, and the disaster prevention information can be distributed more effectively.

  According to the center apparatus of claim 2, the contents of the disaster prevention information are automatically identified based on the type of the cause event of the disaster prevention information, the occurrence point, and the occurrence level. It becomes possible to distribute the disaster prevention information of the content applied to the occurrence point and the occurrence level easily and quickly, and the disaster prevention information can be more effectively delivered.

  According to the center apparatus of claim 3, since the disaster prevention terminal acquires and outputs the disaster prevention information in the disaster prevention terminal based on the disaster prevention information identification information transmitted from the center apparatus, it is necessary to transmit the disaster prevention information itself from the center apparatus It is possible to reduce the communication load.

It is a schematic diagram showing composition of a disaster prevention information distribution system concerning an embodiment of the invention. FIG. 2 is a block diagram conceptually showing the electrical configuration of the center device. It is a figure which shows the structural example of smart meter information. It is a figure which shows the structural example of disaster prevention information. It is a block diagram which shows the electric constitution of a smart meter functionally. It is a block diagram which shows functionally the electric constitution of a disaster prevention terminal. It is a flowchart of a disaster prevention information delivery process.

  Hereinafter, an embodiment of a center apparatus according to the present invention will be described in detail with reference to the drawings. However, the present invention is not limited by the embodiments.

[Basic concept of the embodiment]
First, the basic concept of the embodiment will be described. The embodiment relates generally to a center apparatus that constitutes a part of a disaster prevention information distribution system. The disaster prevention information distribution system is a system for distributing disaster prevention information from the center station 2 to dwelling units. The center station 2 is a distribution source of disaster prevention information, and corresponds to, for example, a broadcasting station, a city office, a fire station or a police station. In the following description, although the case where there is one center station 2 will be described, actually, a plurality of center stations 2 may exist. A "dwelling unit" is a building targeted for distribution of disaster prevention information, and includes a detached house and an apartment house. In practice, disaster prevention information is distributed to all or a part of a plurality of dwelling units, but since the configuration regarding the disaster prevention information distribution system in these plurality of dwelling units is common to each other, one particular dwelling unit will be described below. Will be explained. “Disaster prevention information” is information for preventing damage caused by disasters, and the specific content is arbitrary, such as earthquakes, tsunamis, tornadoes, typhoons, heavy rains, landslides, or disputes. Includes information such as occurrence forecast, occurrence alert, evacuation advisory, evacuation order, etc. regarding natural disasters or man-made disasters.

  The disaster prevention information distribution system is configured to include at least a "center device", a "smart meter", and a "disaster prevention terminal". The "center device" is a device installed in the center station 2 to deliver disaster prevention information. The “smart meter” is a power measurement device equipped with a communication function related to the amount of power used and data for controlling home appliances. For example, a gas company installed in each dwelling unit to perform automatic meter reading and remote gas shutoff control. The smart meter corresponds. The “disaster prevention terminal” is a device installed at least one for each dwelling unit in order to monitor an abnormality of the monitoring area in the dwelling unit in which the disaster prevention terminal is installed. Although the specific type of the disaster prevention terminal is arbitrary, for example, a fire detector, a gas leak alarm, or a human sensor corresponds. A plurality of the disaster prevention terminals may be arranged in one dwelling unit, and hereinafter, an example in which at least one disaster prevention terminal is disposed for each room of the dwelling unit will be described. As described above, in the present embodiment, the disaster prevention information is distributed from the center apparatus to the disaster prevention terminal via the smart meter, and the disaster prevention information is output via the disaster prevention terminal. Thus, by using a smart meter or a disaster prevention terminal installed mainly for uses different from disaster prevention information, it is possible to deliver disaster prevention information without requiring a dedicated device for disaster prevention information. Become. In addition, by using a smart meter or a disaster prevention terminal installed in each dwelling unit, it becomes possible to deliver disaster prevention information on a dwelling unit basis.

  Communication between the center device and the smart meter can be performed by any method, for example, using known FTTH (Fiber To The Home) or wireless communication. In the present embodiment, the center apparatus transmits at least information for distributing disaster prevention information to the smart meter, and the smart meter transmits at least information on power consumption to the center apparatus. Bidirectional communication can be performed between the device and the smart meter. However, information on power consumption may be provided from the smart meter to any device other than the center device. In this case, only one-way communication from the center device to the smart meter is performed. It is also good.

  Communication between the smart meter and the disaster prevention terminal can also be performed by any method. For example, communication can be performed using near-field wireless communication or wired communication conforming to a known near-field wireless communication standard. As such a short distance wireless standard, Zigbee (registered trademark) and ECHONET Lite (registered trademark) can be mentioned, for example.

  Further, although communication between the smart meter and the disaster prevention terminal may involve other devices, in the present embodiment, a case will be described where direct communication is performed without the intervention of other devices. As a result, since the disaster prevention information distribution system according to the present embodiment can be constructed without installing any device other than the disaster prevention terminal in the dwelling unit, the spread of the disaster prevention information distribution system can be improved. Become. Further, in the present embodiment, two-way wireless communication is performed between the smart meter and the disaster prevention terminal, and more specifically, the signal transmission from the smart meter to the disaster prevention terminal is performed in one of the 426 MHz band and the 920 MHz band. By performing the signal transmission from the disaster prevention terminal to the smart meter by either one of the 426 MHz band and the 920 MHz band, it is possible to perform quick communication in two frequency bands.

[Specific content of the embodiment]
Next, specific contents of the embodiment will be described.

(Constitution)
First, the configuration of the disaster prevention information distribution system will be described. FIG. 1 is a schematic view showing a configuration of a disaster prevention information distribution system according to the embodiment. As shown in FIG. 1, the disaster prevention information distribution system 1 includes a center device 10 installed in the center station 2, a smart meter 20 installed in the dwell unit 3, and a disaster prevention terminal 40. The center apparatus 10 and the smart meter 20 are connected by the optical fiber 4 constituting FTTH, and the smart meter 20 and the disaster prevention terminal 40 can communicate wirelessly.

(Configuration-Center device)
First, the configuration of the center apparatus 10 will be described. FIG. 2 is a block diagram conceptually showing the electrical configuration of the center apparatus 10. As shown in FIG. As shown in FIG. 2, the center apparatus 10 includes an input unit 11, an output unit 12, a communication unit 13, a storage unit 14, and a control unit 15.

(Configuration-Center device-Input unit)
The input unit 11 is an input unit that receives an input of information necessary for the operation of the center apparatus 10, and includes, for example, a microphone, a touch panel, a keyboard, a mouse, and an external input terminal. The user of the center apparatus 10 can, for example, input the contents of the disaster prevention information or input the area to which the disaster prevention information should be distributed via a microphone or a touch panel, or any of these information can be external It can be input from the device through the external input terminal.

(Configuration-Center device-Output unit)
The output unit 12 is an output unit that outputs information necessary for the operation of the center apparatus 10, and includes, for example, a speaker, a display, a display lamp, and an external output terminal. For example, the user of the center apparatus 10 causes the contents of disaster prevention information to be output through a speaker, causes an area to be targeted for distribution of disaster prevention information to be output through a display or a display light, or any of these pieces of information. Can be output to the external device through the external output terminal.

(Configuration-Center device-Communication unit)
The communication unit 13 is a center-side communication unit that communicates with the smart meter 20. For example, the communication unit 13 converts an optical terminal for performing communication with the smart meter 20 with FTTH, and converts between an optical signal and an electrical signal. Is configured to include a conversion unit.

(Configuration-Center Device-Storage Unit)
The storage unit 14 is a storage unit that stores programs necessary for the operation of the center apparatus 10 and various data. For example, although the storage unit 14 is configured using a hard disk (not shown) as an external storage device, a magnetic storage medium such as a magnetic disk, a DVD or a Blu-ray disc is used instead of or together with the hard disk. Any other storage media can be used, including optical storage media such as that described above (this also applies to the storage of other devices and devices). The storage unit 14 stores a smart meter information database (hereinafter, a database is referred to as a "DB") 14a, a disaster prevention information DB 14b, and a map DB 14c.

  The smart meter information DB 14a is a smart meter information storage unit that stores smart meter information. The "smart meter information" is information related to the smart meter 20 and includes the item "smart meter ID" and the item "address" as illustrated in FIG. 3, and the information of each item is associated with each other and configured It is done. The information of the item “smart meter ID” is device identification information for uniquely identifying the smart meter 20, and is given, for example, by any method before shipping the smart meter 20. That is, the smart meter information DB 14a is a center-side storage unit that stores the smart meter ID. The information of the item “address” is the address of the dwell unit 3 in which the smart meter 20 is installed. The smart meter information configured in this way is registered by the user of the center apparatus 10 in the smart meter information DB 14a, for example, after the installation of the smart meter 20 is completed.

  The disaster prevention information DB 14 b is disaster prevention information storage means (area information storage means, content information storage means) for storing disaster prevention information. The “disaster prevention information” is information for specifying the content of the smart meter 20 for distributing the disaster prevention information and the disaster prevention information, and as illustrated in FIG. 4, the item “type of cause event”, the item “cause The event occurrence status, the item “cause event occurrence point”, the item “cause event occurrence level”, the item “area”, and the item “disaster prevention information ID”, and the information of each item is associated with each other It is configured. The information of the item "type of cause event" is information for specifying the type of cause event of the disaster prevention information, and in the present embodiment, "earthquake", "tsunami", "tornado", "typhoon", " It is one of "rare rain". The information of the item “occurrence situation of cause event” is information for specifying what kind of situation the cause event of the disaster prevention information is at the time of distributing the disaster prevention information, and in the present embodiment, the cause event Is either an "alert" indicating that it has not actually occurred yet, or a "preliminary alert" indicating that a causal event has actually occurred. Besides this, "forecast" or "alert" may be included. The information of the item “occurrence point of cause event” is information for specifying the occurrence point of the cause event of disaster prevention information and the passage route after the occurrence, and in the present embodiment, “Tokyo” or “Saitama prefecture” Etc., and names of areas such as "Tokyo Bay" and "Sagami Bay". The information of the item “cause event occurrence level” is information for specifying the degree and the magnitude of the cause event of the disaster prevention information, and in the present embodiment, “cause event” = “earthquake” In the case of “seismic intensity”, “cause event” = “tsunami”, “wave height”, “cause event” = “tornado”, “F-scale”, “cause event” = “typhoon” In the case of "pressure or wind speed", "cause event" = "heavy rain", it is "the amount of precipitation per unit time". The information of the item "area" is information for specifying the area to which the disaster prevention information should be distributed, and in the present embodiment, the name of the prefecture city, such as "Tokyo" or "Saitama", It is an area based on a specific place name or area name, such as an area name such as "Tokyo Metropolitan Area" or "less than 3 km from the Gulf and Estuary". The information of the item “disaster prevention information ID” is information for specifying the content of the disaster prevention information, and in the present embodiment, it is “disaster prevention information ID”. Here, the "disaster prevention information ID" is disaster prevention specific information for identifying disaster prevention information to be distributed, and is disaster prevention information identification information for uniquely identifying the content of the disaster prevention information. In the present embodiment, voice data of a plurality of disaster prevention information having different contents is stored in a storage unit described later of the disaster prevention terminal 40, and the disaster prevention information ID is set for each of the voice data of the plurality of disaster prevention information. It is done. The disaster prevention information configured in this way is set, for example, with reference to an area map such as a landslide disaster alert area defined by each local government, a tsunami hazard map, etc., and registered in the disaster prevention information DB 14b by the user of the center apparatus 10. .

  The map DB 14c is a map information storage unit that stores map information. Here, “map information” is information for specifying the correspondence between the address included in the smart meter information and the area included in the disaster prevention information, and, for example, the address of each dwelling unit 3, Composition including address of dwelling unit 3 belonging to each area such as "Tokyo metropolitan area" and address of dwelling unit 3 belonging to each area based on specific place name or area name such as "less than 3 Km from bay and estuary" It is done.

(Configuration-Center device-Control unit)
The control unit 15 is a control unit that controls the center device 10. Specifically, the control unit 15 includes a CPU, various programs to be interpreted and executed on the CPU (including a basic control program such as an OS, and an application program activated on the OS to realize a specific function), It is a computer configured to be provided with an internal memory such as a RAM for storing programs and various data (this is also the case with control units of other devices and devices). In particular, the center-side disaster prevention information distribution program according to the present embodiment substantially configures each part of the control unit 15 by being installed in the center apparatus 10 via an arbitrary storage medium or a network.

  The control unit 15 conceptually includes a center-side distribution control unit 15a, a distribution target specification unit 15b, and a distribution content specification unit 15c. When the disaster prevention information to be distributed to the dwelling unit 3 and the smart meter 20 of the dwelling unit 3 to which the disaster prevention information is to be distributed are specified, the center side distribution control unit 15a corresponds to the smart meter corresponding to the specified smart meter 20 A center-side distribution control unit that acquires an ID from the storage unit 14 and transmits the acquired smart meter ID and disaster prevention information ID for identifying disaster prevention information to be distributed to the smart meter 20 via the communication unit 13 . When the type of the cause event of the disaster prevention information to be distributed to the dwelling unit 3 and the occurrence point of the cause event of the disaster prevention information are specified, the distribution target identification unit 15b determines the storage unit 14 based on the type and the occurrence point The distribution target specification which specifies the area | region which should distribute the said disaster prevention information by referring, and acquires smart meter ID corresponding to the smart meter 20 installed in the dwelling unit 3 located in the said specified area | region from disaster prevention information DB14b It is a means. The distribution content specifying unit 15c includes the type of the cause event of the disaster prevention information to be delivered to the dwelling unit 3, the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, and the area where the disaster prevention information is to be delivered Distribution that acquires disaster prevention information ID corresponding to the contents of disaster prevention information to be distributed by referring to the storage unit 14 based on the type, the occurrence point, the occurrence level, and the area when the It is a content specifying means. The specific processing performed by the center-side distribution control unit 15a, the distribution target specifying unit 15b, and the distribution content specifying unit 15c will be described later.

(Configuration-Smart Meter)
Next, the configuration of the smart meter 20 will be described. FIG. 5 is a block diagram conceptually showing the electrical configuration of the smart meter 20. As shown in FIG. As shown in FIG. 5, the smart meter 20 includes a communication unit 21, a power measurement unit 22, a storage unit 23, and a control unit 24.

(Configuration-Smart Meter-Communication Unit)
The communication unit 21 is an apparatus-side communication unit that communicates with the center apparatus 10 and the disaster prevention terminal 40, and, for example, an optical terminal for communicating with the center apparatus 10 in FTTH, or between an optical signal and an electrical signal. And an antenna for performing near field communication with the disaster prevention terminal 40, and a frequency conversion unit.

(Configuration-Smart Meter-Power Measurement Unit)
The electric power measurement part 22 is an electric power measurement means which measures the electric power consumption of the dwelling unit 3 in which the said smart meter 20 was installed, and is comprised similarly to a well-known electric power meter.

(Configuration-Smart Meter-Storage Unit)
The storage unit 23 is a storage unit (apparatus side storage unit) that stores programs necessary for the operation of the smart meter 20 and various data. The smart meter ID of the smart meter 20 in which the storage unit 23 is provided is registered in the storage unit 23.

(Configuration-Smart Meter-Control Unit)
The control unit 24 is a control unit that controls the smart meter 20. In particular, the device-side disaster prevention information distribution program according to the present embodiment substantially configures each part of the control unit 24 by being installed in the smart meter 20 via an arbitrary storage medium or a network.

  The control unit 24 functionally and conceptually includes an apparatus-side measurement control unit 24 a and an apparatus-side distribution control unit 24 b. The device-side measurement control unit 24 a is a device-side measurement control unit that transmits the amount of power consumption measured by the smart meter 20 to the center device 10 via the communication unit 21. When the smart meter ID and the disaster prevention information ID are received by the communication unit 21, the apparatus-side distribution control unit 24b determines whether the smart meter ID matches the smart meter ID stored in the storage unit 23, It is an apparatus side distribution control means which transmits disaster prevention information ID to the disaster prevention terminal 40 via the communication part 21 when it corresponds. The specific processing performed by the device-side measurement control unit 24 a and the device-side distribution control unit 24 b will be described later.

(Configuration-disaster prevention terminal)
Next, the configuration of the disaster prevention terminal 40 will be described. FIG. 6 is a block diagram conceptually showing the electrical configuration of the disaster prevention terminal 40. As shown in FIG. As shown in FIG. 6, the disaster prevention terminal 40 includes an abnormality detection unit 41, an output unit 42, a communication unit 43, a storage unit 44, and a control unit 45.

(Configuration-disaster prevention terminal-anomaly detection unit)
The abnormality detection unit 41 is an abnormality detection unit that detects an abnormality in a monitoring area in the dwell unit 3 in which the disaster prevention terminal 40 is installed. Although the specific configuration of the abnormality detection unit 41 is arbitrary, for example, when the disaster prevention terminal 40 = fire detector, it is a smoke sensor or a heat sensor, and when the disaster prevention terminal 40 = gas leak alarm Is a gas sensor, and is an infrared sensor when the disaster prevention terminal 40 is a human sensor.

(Configuration-disaster prevention terminal-output unit)
The output unit 42 is an output unit that outputs information necessary for the operation of the disaster prevention terminal 40, and is an output unit that outputs an alarm when an abnormality is detected by the abnormality detection unit 41. It has an indicator light.

(Configuration-disaster prevention terminal-communication unit)
The communication unit 43 is a terminal-side communication unit that communicates with the smart meter 20, and includes, for example, an antenna for performing near-field wireless communication with the smart meter 20, and a frequency conversion unit. In addition, wireless communication can be performed directly with another disaster prevention terminal 40 via the communication unit 43 or indirectly via any relay device, and it is possible to construct an in-home disaster prevention network. It has become. For example, when a signal can not be directly transmitted and received between the disaster prevention terminal 40 and the smart meter 20, it is possible to transmit and receive via another disaster prevention terminal 40 or the like.

(Configuration-disaster prevention terminal-storage unit)
The storage unit 44 is a storage unit (disaster prevention information storage unit) that stores programs necessary for the operation of the disaster prevention terminal 40 and various data. The storage unit 44 stores voice data of a plurality of disaster prevention information. The voice data of the plurality of disaster prevention information is voice data having mutually different contents, and is stored in the storage unit 44 in association with the different disaster prevention information IDs.

(Configuration-disaster prevention terminal-control unit)
The control unit 45 is a control unit that controls the disaster prevention terminal 40. In particular, the terminal-side disaster prevention information distribution program according to the present embodiment substantially configures each part of the control unit 45 by being installed in the disaster prevention terminal 40 via an arbitrary storage medium or network.

  The control unit 45 functionally and conceptually includes a terminal side detection control unit 45a and a terminal side distribution control unit 45b. The terminal-side detection control unit 45 a is a terminal-side detection control unit that causes the output unit 42 to output an alarm based on the detection result of the abnormality detection unit 41. The terminal side distribution control unit 45 b is a terminal side distribution control unit that outputs the disaster prevention information specified by the disaster prevention information ID via the output unit 42 when the communication unit 43 receives the disaster prevention information ID. The specific processing performed by the terminal side detection control unit 45 a and the terminal side distribution control unit 45 b will be described later.

(processing)
Next, processing executed by the disaster prevention information distribution system 1 configured as described above will be described.

(Processing-Power consumption measurement process)
First, the power amount measurement process will be described. This process is a process for measuring the power consumption of the dwelling unit 3 and transmitting it to the center device 10. In this process, the power measuring unit 22 of the smart meter 20 of each dwelling unit 3 measures the power consumption of the dwelling unit 3 in which the smart meter 20 is installed by a known method in a predetermined cycle, and the measured power consumption It is output to the control unit 24. The device-side measurement control unit 24 a of the control unit 24 transmits the power consumption amount and the smart meter ID stored in the storage unit 23 to the center device 10 via the communication unit 21. When the power consumption and the smart meter ID are received through the communication unit 12, the control unit 15 of the center device 10 associates the power consumption with the smart meter ID with each other in the storage unit 14. Remember. Then, at an arbitrary timing thereafter, the user of the smart meter 20 is charged for the power charge by an arbitrary method based on the power consumption and the smart meter ID. However, since the details of the power amount measurement process can be performed in the same manner as the power amount measurement process in the known smart meter 20, the description thereof is omitted.

(Process-error detection process)
Next, the abnormality detection process will be described. This process is a process for detecting an abnormality in the monitoring area in the dwell unit 3 and outputting an alarm. In this process, the abnormality detection unit 41 of each disaster prevention terminal 40 of each dwelling unit 3 detects an anomaly of the monitoring area in the dwelling unit 3 in which the disaster prevention terminal 40 is installed with a predetermined anomaly detection cycle by a known method The result is output to the control unit 45. The terminal-side detection control unit 45a of the control unit 45 determines the presence or absence of an abnormality in the monitoring area by comparing the detection result with a predetermined abnormality determination threshold or the like, and when it is determined that there is an abnormality, the output unit Make the alarm output. However, since the details of the abnormality detection processing can be performed in the same manner as the abnormality detection processing in the known disaster prevention terminal 40, the description thereof will be omitted.

  There are "normal mode" and "disaster prevention mode" as modes for performing this abnormality detection process, and these two modes can be switched alternatively. The “normal mode” refers to the normal time (specifically, before the disaster prevention terminal 40 receives the disaster prevention information ID, or after a predetermined time (for example, 30 minutes) since the disaster prevention terminal 40 receives the disaster prevention information ID) The possibility of misreporting by reducing the power consumption of the disaster prevention terminal 40 or increasing the abnormality determination threshold by lengthening the anomaly detection cycle compared to the disaster prevention mode. Mode to reduce the The “disaster prevention mode” is a mode selected at the time of disaster prevention (specifically, before a predetermined time (for example, 30 minutes) elapses after the disaster prevention terminal 40 receives the disaster prevention information ID), compared to the normal mode This is a mode in which an abnormality is detected early by shortening the abnormality detection cycle or reducing the abnormality determination threshold. When the power of the disaster prevention terminal 40 is turned on, the normal mode is set as the default mode, and switching to the disaster prevention mode is automatically performed in a disaster prevention information distribution process described later.

(Process-disaster prevention information distribution process)
Next, disaster prevention information distribution processing will be described. This processing is processing for distributing disaster prevention information from the center device 10 to the dwelling unit 3, and is repeatedly executed by these devices after the power is supplied to the center device 10, the smart meter 20, and the disaster prevention terminal 40. . FIG. 7 is a flowchart of disaster prevention information distribution processing. In the following, “step” is abbreviated as “SA”.

  First, the center-side distribution control unit 15a of the center apparatus 10 determines whether the distribution timing to distribute the disaster prevention information has arrived (SA1). This determination can be made based on any criteria. For example, the type of the cause event, the occurrence situation of the cause event, the occurrence point of the cause event, and the occurrence level of the cause event are input through the input unit In this case, it is determined that this delivery timing has arrived. For example, the user of the center apparatus 10 may manually input various information related to these cause events by referring to weather information or the like, or may be automatically input from an external system such as an earthquake early warning. You may However, the timing based on a predetermined reference different from the timing when the various information is input may be used as the delivery timing.

  Next, when it is determined that the delivery timing has arrived (SA1, Yes), the delivery target specifying unit 15b of the center apparatus 10 acquires the smart meter ID of the smart meter 20 to which the disaster prevention information should be delivered (SA2). For example, in the case where the type of the cause event, the occurrence situation of the cause event, the occurrence point of the cause event, and the occurrence level of the cause event are input through the input unit, the distribution target specifying unit 15b The area to which the disaster prevention information is to be distributed is specified by referring to the disaster prevention information DB 14b based on each of these pieces of information, and is included in the specified area by referring to the map DB 14c based on the specified area. The address of the target dwelling unit 3 is specified, and the smart meter ID of the smart meter 20 installed in the dwelling unit 3 of the specified address is acquired by referring to the smart meter information DB 14a based on the specified address. As an example, when the type of cause event = "earthquake", the occurrence situation of the cause event = "alarm", the occurrence point of the cause event = "Tokyo", and the occurrence level of the cause event = "seismic intensity 5" 4 specifies the area = "Tokyo" to which the disaster prevention information is to be distributed with reference to the disaster prevention information of FIG. Then, the address of the dwelling unit 3 located in the specified area = “Tokyo” is specified with reference to the map DB 14 c. Furthermore, smart meter ID of the smart meter 20 installed in the dwelling unit 3 of the said address is acquired with reference to smart meter information DB14a.

  Next, the distribution content specification unit 15c of the center device 10 acquires disaster prevention information ID corresponding to the content of the disaster prevention information to be distributed (SA3). For example, in the case where the type of cause event, the occurrence situation of the cause event, the occurrence point of the cause event, and the occurrence level of the cause event are input through the input unit, the distribution content specifying unit 15c The content of the disaster prevention information is specified by referring to the disaster prevention information DB 14b based on each of these pieces of information. However, in the present embodiment, the content of the disaster prevention information is specified by specifying the disaster prevention information ID. As an example, when the type of cause event = "earthquake", the occurrence situation of the cause event = "alarm", the occurrence point of the cause event = "Tokyo", and the occurrence level of the cause event = "seismic intensity 5" Refers to the disaster prevention information of FIG. 4 to acquire the content of the disaster prevention information = "disaster prevention information ID".

  Then, the center-side distribution control unit 15a of the center apparatus 10 transmits the smart meter ID acquired at SA2 and the disaster prevention information ID acquired at SA3 (SA4). For example, the center side distribution control unit 15a generates a disaster prevention signal including the smart meter ID and the disaster prevention information ID, and transmits the generated disaster prevention signal via the communication unit 13.

  On the other hand, the device-side distribution control unit 24b of the smart meter 20 monitors the reception state of the signal transmitted from the center device 10, and receives the disaster prevention signal transmitted from the center device 10 via the communication unit 21. (SA5, Yes), it is determined whether or not the smart meter ID included in the disaster prevention signal matches the smart meter ID stored in its own storage unit 23 (SA6). And when it does not correspond (SA6, No), the said disaster prevention signal is not the signal transmitted to self, and it returns to SA5. On the other hand, if they coincide (SA6, Yes), the disaster prevention signal is transmitted to the self, and the disaster prevention information ID included in the disaster prevention signal is transmitted via the communication unit 21 (SA7) .

  On the other hand, the terminal side distribution control unit 45 b of the disaster prevention terminal 40 monitors the reception state of the signal transmitted from the smart meter 20, and receives the disaster prevention information ID transmitted from the smart meter 20 via the communication unit 43. In the case (SA8, Yes), disaster prevention information specified by the disaster prevention information ID is output via the output unit 42 (SA9). For example, the terminal-side distribution control unit 45b acquires voice data of disaster prevention information corresponding to the disaster prevention information ID from the storage unit 44, and outputs the obtained voice data from the output unit 42 as voice.

  As a result, voice data corresponding to the type of cause event, the occurrence situation of the cause event, the occurrence point of the cause event, and the occurrence level of the cause event is output from each disaster prevention terminal 40 of the dwell unit 3. For example, if the type of cause event = "earthquake", the occurrence state of the cause event = "alarm", the origin point of the cause event = "Tokyo", and the occurrence level of the cause event = "seismic intensity 5" It is an alarm. The sound data of "Please prepare for shaking 5" is output. Alternatively, when the type of cause event = "tsunami", the occurrence situation of the cause event = "alarm", the occurrence point of the cause event = "Tokyo Bay", and the occurrence level of the cause event = "wave height 5 to 10 m" "Is a tsunami warning. A tsunami of up to 10 m may come. Please evacuate to high ground." Voice data is output.

  In addition, when the terminal side distribution control unit 45b of the disaster prevention terminal 40 receives the disaster prevention information ID in SA10, the mode of the abnormality detection processing based on the detection result of the abnormality detection unit 41 before or after SA11 is a normal mode Switch to disaster prevention mode (SA10). Although the specific target or method of this switching is arbitrary, for example, in the case where the received disaster prevention information ID corresponds to the type of cause event = “earthquake” (in the example of the disaster prevention information of FIG. Because, when the leading symbol of the disaster prevention information ID is “J”, it is expected that fires will increase as a result of the earthquake, so it is possible to detect an abnormality early by switching the normal mode to the disaster prevention mode. To be possible.

  After that, the terminal-side distribution control unit 45b determines whether a predetermined stop condition is satisfied (SA11). Here, the “stop condition” is a condition for stopping the output of the disaster prevention information whose output has been started at SA9 in the disaster prevention terminal 40, and is a condition for returning the disaster prevention mode switched at SA10 to the normal mode. . That is, for example, when a disaster such as a tsunami where a dangerous state continues for a relatively long time is predicted or occurs, it is preferable to continuously warn the user for a relatively long time. Therefore, the terminal-side distribution control unit 45b continues the warning to the user by continuing the output of the disaster prevention information until it is determined that the stop condition is satisfied, and maintains the disaster prevention mode. Continue early detection. Although the specific content of this stop condition is arbitrary, for example, when the disaster prevention terminal 40 is provided with an input unit such as an operation button, the terminal side distribution control unit 45b uses a predetermined method via this input unit. When the alarm stop operation is performed, it is determined that the stop condition is satisfied. Alternatively, the disaster prevention stop signal including the smart meter ID may be transmitted from the center device 10, and the smart meter 20 transmits the disaster prevention stop signal including the smart meter ID coincident with its own smart meter ID to the disaster prevention terminal 40 When the disaster prevention terminal 40 receives the disaster prevention stop signal, the terminal side distribution control unit 45b determines that the stop condition is satisfied. Alternatively, the terminal-side distribution control unit 45b determines that the stop condition is satisfied when a predetermined disaster prevention state duration time has elapsed after the start of the output of the disaster prevention information at SA9. In this case, the disaster prevention state continuation time may be changed according to the type of the cause event, for example, 5 minutes in the case of type = earthquake, 2 hours in the case of type = tsunami, and type = heavy rain Set to one hour. Alternatively, these various stop conditions may be combined.

  Alternatively, the determination as to whether or not the stop condition is satisfied may be performed based on the detection result by the abnormality detection unit 41. Although it is arbitrary about the classification of the abnormality detection part 41 referred in this case, the detection result by the abnormality detection part 41 of a human sensor is referred to, for example. For example, when the disaster prevention terminal 40 including the terminal side distribution control unit 45 b is a human sensor, the terminal side distribution control unit 45 b refers to the human body detection result by the abnormality detection unit 41 included in the disaster prevention terminal 40. Alternatively, when the disaster prevention terminal 40 including the terminal side distribution control unit 45 b is not a human sensor (for example, when it is a fire detector or a gas leak alarm), the terminal side distribution control unit 45 b may be the disaster prevention terminal 40. The human body detection result by the abnormality detection part 41 with which the human detection sensor which is another disaster prevention terminal 40 installed in the same monitoring area as the above is referred to. Then, when the human body is detected, by determining that the stop condition is not satisfied, the output of the disaster prevention information is continued, and the danger is surely notified to the detected person. On the other hand, when a human body is not detected, the output of disaster prevention information is started at SA9, and it is determined that the stop condition is satisfied when a predetermined disaster prevention state continuation time has elapsed, so that SA12 described later The output of the disaster prevention information is stopped, the continuation of the unnecessary output is avoided, and the battery consumption of the disaster prevention terminal 40 is reduced. Alternatively, the determination of the stop condition may be combined with the determination of the stop condition according to the type of the cause event described above. For example, in the case of type = earthquake or tsunami, the human body detects because the risk is particularly high. Regardless of whether or not it is determined that the stop condition is not satisfied, if the type = heavy rain, the risk is relatively low, so the stop condition is satisfied only when a human body is detected. It may be determined not to be present.

  When the terminal side distribution control unit 45b determines that the predetermined stop condition is satisfied (SA11, Yes), the terminal side distribution control unit 45b stops the output of the disaster prevention information whose output is started at SA9 (SA12), and switches at SA10. The disaster prevention mode is returned to the normal mode (SA13). This completes the disaster prevention information distribution process.

[Modification to the embodiment]
Although the embodiment according to the present invention has been described above, the specific configuration and means of the present invention can be arbitrarily modified and improved within the scope of the technical idea of the present invention described in the claims. Can. Hereinafter, such a modified example will be described.

(About problem to be solved and effect of invention)
First of all, the problems to be solved by the invention and the effects of the invention are not limited to the above contents, and may differ depending on the details of the implementation environment and configuration of the invention, and only some of the problems described above And may only play a part of the above mentioned effects. For example, even if the delivery efficiency can not be improved more than the conventional system, the delivery efficiency of the present invention can be achieved by the system of the present invention different from the conventional system. The issue has been solved.

(About distribution and integration)
In addition, each of the above-described electrical components is functionally conceptual and does not necessarily have to be physically configured as illustrated. That is, the specific form of the distribution and integration of each part is not limited to the illustrated one, and all or a part thereof is functionally or physically dispersed or integrated in any unit according to various loads, usage conditions, etc. Can be configured. For example, the center device 10 and the smart meter 20 may be distributed to a plurality of devices, or the smart meter information DB 14 a and the disaster prevention information DB 14 b of the smart meter 20 may be distributed to a plurality of DBs. The information DB 14a and the disaster prevention information DB 14b may be mutually integrated, or a part of one function of the center apparatus 10 or the smart meter 20 may be provided to the other. Moreover, when each part is disperse | distributed, cooperation between these parts can be performed by any one or both of a wire communication and a radio | wireless.

(Relationship of the embodiment)
In the case where a plurality of embodiments are described, among the plurality of embodiments, parts of the configuration and processing may be interchanged with each other, or one configuration or processing may be applied to the other. May be

(About shape, number, structure, time series)
With regard to the components illustrated in the embodiments and the drawings, the shape, the numerical value, or the structure or the time-series correlation of a plurality of components may be arbitrarily modified and improved within the scope of the technical idea of the present invention. Can.

(About disaster prevention information)
A part of the disaster prevention information may be omitted. For example, for the purpose of specifying the area to which the disaster prevention information is to be distributed, the type of the cause event of the disaster prevention information and the occurrence point of the cause event of the disaster prevention information The disaster prevention information (area information) is configured to include only the area to which the disaster prevention information is to be distributed, and the distribution target specifying unit 15b receives the type of the cause event and the occurrence point of the cause event through the input unit 11. In this case, the area to which the disaster prevention information is to be distributed may be specified by referring to the disaster prevention information based on each of the information. Also, for example, for the purpose of specifying the contents of the disaster prevention information, the type of the cause event of the disaster prevention information, the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, and the disaster prevention information The disaster prevention information (content information) should be configured to include only the area where the disaster prevention information should occur and the area where the disaster prevention information should be distributed. When the occurrence level of the cause event of the disaster prevention information and the area to which the disaster prevention information is to be distributed are specified, the content of the disaster prevention information is specified by referring to the disaster prevention information based on each information. It is also good.

(About control by dwelling unit)
In addition to control in units of dwelling units, or instead of control in units of dwelling units, a plurality of disaster prevention terminals 40 provided in the dwelling units may be individually controlled. For example, disaster prevention terminal identification information for uniquely identifying each disaster prevention terminal 40 is set in each disaster prevention terminal 40, and the disaster prevention terminal outputs the disaster prevention information when transmitting the disaster prevention signal from the center device 10. The 40 disaster prevention terminal identification information is included in the disaster prevention signal and transmitted. Each disaster prevention terminal 40 outputs disaster prevention information only when the disaster prevention terminal identification information transmitted from the smart meter 20 matches the disaster prevention terminal identification information set in itself.

(About disaster prevention information identification information)
Instead of transmitting the disaster prevention information ID from the center apparatus 10 to the disaster prevention terminal 40, the content itself (for example, voice data) of the disaster prevention information may be transmitted from the center apparatus 10 to the disaster prevention terminal 40. Further, the contents of the disaster prevention information are not limited to voice data, and for example, the indicator light in the output unit 42 of the disaster prevention terminal 40 blinks or lights at a predetermined cycle or predetermined intervals, or the monitor of the output unit 42 of the disaster prevention terminal 40 If provided, characters and images may be displayed on the monitor. Further, disaster prevention information of different contents may be output according to the type of the disaster prevention terminal 40.

(About mode)
The contents of each of the normal mode and the disaster prevention mode can be arbitrarily changed. For example, in the normal mode, the sleep mode is used to reduce power consumption by stopping functions other than the reception function of the disaster prevention information ID. May be an operation mode for activating all functions. Also, switching of the mode may be omitted.

(About judgment of stop condition)
When the determination as to whether the stop condition is satisfied is performed based on the detection result by the abnormality detection unit 41, not only the detection result by the abnormality detection unit 41 of the human sensor, but detection by another type of abnormality detection unit 41 You may refer to the results. For example, in the case of the type of cause event = earthquake, the damage caused by the cause event is expected to be further expanded by the occurrence of a fire, so stopping only when a fire is detected by the abnormality detection unit 41 of the fire detector It is judged that the condition is not satisfied and the output of disaster prevention information is continued, and in the case of the type of cause event = tsunami or heavy rain, the damage by this cause event is not directly related to the fire occurrence. The stop condition may be determined by excluding whether a fire is detected by the abnormality detection unit 41.

(Supplementary note)
In order to solve the problems described above and achieve the purpose, the disaster prevention information distribution system according to Appendix 1 includes a center device, a power measurement device installed in the dwelling unit, and a disaster prevention terminal installed in the dwelling unit In the information distribution system, the center apparatus includes a center communication unit that communicates with the power measurement apparatus, and a center storage unit that stores apparatus identification information for uniquely identifying the power measurement apparatus. When the disaster prevention information to be delivered to the dwelling unit and the power measuring device of the dwelling unit to which the disaster prevention information is to be delivered are specified, the device identification information corresponding to the identified power measuring device is stored from the center side storage means Center side distribution control which transmits the acquired device identification information and disaster prevention specific information for specifying the disaster prevention information to be distributed to the power measurement device via the center side communication means The power measuring apparatus comprises apparatus side communication means for communicating with the center apparatus and the disaster prevention terminal, and power measuring means for measuring the power consumption of the dwelling unit in which the power measuring apparatus is installed; Device-side storage means for storing device identification information for uniquely identifying the power measuring device, and power consumption measured by the power measuring means are transmitted to the center device via the device-side communication means When device identification information and disaster prevention specific information are received by the device-side measurement control means and the device-side communication means, whether the device identification information matches the device identification information stored in the device-side storage means And a device-side distribution control means for transmitting the disaster prevention specific information to the disaster prevention terminal via the device-side distribution means if they coincide with each other, and the disaster prevention terminal is a dwelling unit in which the disaster prevention terminal is installed. In the monitoring area in the monitoring area, output means for outputting an alarm when the abnormality is detected by the abnormality detection means, and terminal side communication for receiving the disaster prevention information transmitted from the power measuring apparatus Means, terminal side detection control means for causing the output means to output an alarm based on the detection result of the abnormality detection means, and disaster prevention specific information when disaster prevention specific information is received by the terminal side communication means And terminal side distribution control means for outputting, through the output means, the disaster prevention information specified by

  The disaster prevention information distribution system according to appendix 2 is the disaster prevention information distribution system according to appendix 1, wherein the center device distributes the type of cause event of the disaster prevention information, the occurrence point of the cause event of the disaster prevention information, and the disaster prevention information If the area information storage unit mutually stores the area to be stored, the type of the cause event of the disaster prevention information to be delivered to the dwelling unit, and the occurrence point of the cause event of the disaster prevention information, the type And identifying the area to which the disaster prevention information is to be distributed by referring to the area information storage unit based on the occurrence point, and corresponding to the power measurement device installed in the dwelling unit located in the identified area And distribution target identification means for acquiring the device identification information from the center side storage means, wherein the center side distribution control means transmits the device identification information acquired by the distribution target identification means. That.

  The disaster prevention information distribution system according to supplementary note 3 is the disaster prevention information distribution system according to supplementary note 1 or 2, wherein the center device is a type of cause event of the disaster prevention information, an occurrence point of the cause event of the disaster prevention information, and disaster prevention information Content information storage means for mutually storing the occurrence level of the cause event, the area to which the disaster prevention information should be distributed, and the disaster prevention specific information, the type of the cause event of the disaster prevention information to be delivered to the dwelling unit, When the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, and the area to which the disaster prevention information is to be distributed are identified, the type, the occurrence point, the occurrence level, and the area And distribution content specifying means for acquiring disaster prevention specific information corresponding to the contents of the disaster prevention information to be distributed by referring to the content information storage means based on the center side distribution control means To send a disaster specific information that has been acquired by the contents of specific means.

  In the disaster prevention information distribution system according to appendix 4, in the disaster prevention information distribution system according to appendix 3, the center apparatus transmits, as the disaster prevention specific information, disaster prevention information identification information for uniquely identifying the contents of the disaster prevention information, The disaster prevention terminal includes disaster prevention information storage means for storing disaster prevention information and disaster prevention information identification information in association with each other, and the terminal side distribution control means uses the terminal side communication means as the disaster prevention specific information. When disaster prevention information identification information is received, the disaster prevention information corresponding to the disaster prevention information identification information is acquired from the disaster prevention information storage unit, and the acquired disaster prevention information is output.

  The disaster prevention information distribution system according to appendix 5 is the disaster prevention information distribution system according to any one of appendixes 1 to 4, wherein the terminal side distribution control means receives the disaster prevention specific information by the terminal side communication means. In this case, the mode of the abnormality detection processing based on the detection result of the abnormality detection means is switched from the normal mode to the disaster prevention mode.

  The disaster prevention information distribution system according to supplementary note 6 is the disaster prevention information distribution system according to any one of supplementary notes 1 to 5, wherein the terminal side distribution control means outputs the disaster prevention information according to the type of cause event of the disaster prevention information Stop after continuing the disaster prevention state continuation time according to.

  The disaster prevention terminal according to appendix 7, wherein the terminal side distribution control means has the terminal side distribution control means whether the abnormality of the disaster prevention terminal includes the stop condition for stopping the output of the disaster prevention information. The stop condition is determined based on the detection result by the detection means or the detection result by the abnormality detection means of the other disaster prevention terminal installed in the same monitoring area as the disaster prevention terminal having the terminal side distribution control means Stops the output of disaster prevention information.

  The disaster prevention terminal according to appendix 8 includes an abnormality detection unit that detects an abnormality in a monitoring area, an output unit that outputs an alarm when the abnormality detection unit detects an abnormality, and a dwelling unit in which the disaster prevention terminal is installed. Terminal side communication means for receiving the disaster prevention information transmitted from the power measurement device installed in the same dwelling unit, and when the disaster prevention specific information is received by the terminal side communication means, it is specified by the disaster prevention specific information And terminal side distribution control means for outputting disaster prevention information via the output means.

(Effect of Supplementary Note)
According to the disaster prevention information distribution system described in the supplementary note 1, a power measurement device installed in each dwelling unit for performing power measurement, and a disaster prevention terminal installed in each dwelling unit for detecting an abnormality and outputting an alarm Since it is possible to output the disaster prevention information in the dwelling unit, it is possible to deliver the disaster prevention information in units of dwelling units without requiring a dedicated terminal for performing the disaster prevention information. In particular, in the disaster prevention information distribution system provided with the in-house reception apparatus as in the prior art, it was premised that one in-housing reception apparatus is installed in one dwelling unit, so there is a place where the disaster prevention information is difficult to hear There is a possibility that there will be more than one disaster prevention terminal installed in one dwelling unit, so there is a place where it is difficult to hear disaster prevention information by outputting disaster prevention information via such a disaster prevention terminal. It is possible to reduce the possibilities.

  According to the disaster prevention information distribution system described in Appendix 2, the power measurement device installed in the dwelling unit located in the area to which the disaster prevention information is to be distributed is automatically based on the type of the cause event of the disaster prevention information and the occurrence point. Since the identification is made, disaster prevention information can be distributed easily and quickly to the power measurement device applied to the type of cause event and the occurrence point, and disaster prevention information can be distributed more effectively.

  According to the disaster prevention information distribution system described in Appendix 3, the content of the disaster prevention information is automatically identified based on the type of the cause event of the disaster prevention information, the occurrence point, and the occurrence level. It is possible to easily and quickly distribute the disaster prevention information of the contents applied to the occurrence point and the occurrence level, and it is possible to more effectively deliver the disaster prevention information.

  According to the disaster prevention information distribution system as set forth in Appendix 4, since the disaster prevention terminal acquires and outputs the disaster prevention information in the disaster prevention terminal based on the disaster prevention information identification information transmitted from the center device, the disaster prevention information itself is transmitted from the center device. There is no need for it, and it is possible to reduce the communication load.

  According to the disaster prevention information distribution system described in Appendix 5, the mode of the abnormality detection processing is switched from the normal mode to the disaster prevention mode when the disaster prevention specific information is received, so that the abnormality detection processing is performed in a mode suitable for disaster occurrence etc. In addition to the distribution of disaster prevention information, it is possible to perform complex disaster prevention measures.

  According to the disaster prevention information distribution system described in Supplementary Note 6, the disaster prevention state is maintained only for a suitable time according to the type of cause event by continuing the output of the disaster prevention information only for the disaster prevention state continuation time according to the type of cause event. For example, when a cause event such as a hazard continues for a relatively long time, the output of the disaster prevention information is continued for a relatively long time to notify the user of the danger or At the occurrence of a cause event in which the danger is eliminated in a relatively short time, it becomes possible to automatically stop the output of the disaster prevention information in a relatively short time to prevent the user from being bothersome.

  According to the disaster prevention terminal described in Supplementary Note 7, the judgment is made based on the detection result by the abnormality detection means of the disaster prevention terminal, and the output of the disaster prevention information is stopped. In the unit where there are no people, the output of the disaster prevention information is stopped after continuing for a certain period of time in the unit where there are no people, so that the continuation of unnecessary output is avoided and the disaster prevention terminal It is possible to stop the output at timing according to the state of the dwelling unit, such as reducing the battery consumption.

  According to the disaster prevention terminal described in Supplementary Note 8, since disaster prevention information can be output in the dwelling unit, the disaster prevention information is distributed in units of dwelling units without requiring a dedicated terminal for performing the disaster prevention information. It becomes possible. In particular, since a plurality of disaster prevention terminals are often installed in one dwelling unit, outputting the disaster prevention information through such a disaster prevention terminal reduces the possibility of a place where the disaster prevention information is difficult to hear. Becomes possible.

DESCRIPTION OF SYMBOLS 1 disaster prevention information distribution system 2 center station 3 dwelling unit 4 optical fiber 5 indoor optical fiber 10 center apparatus 11 input part 12 output part 13 communication part 14 memory part 14a smart meter information DB
14b Disaster prevention information DB
14c Map DB
DESCRIPTION OF SYMBOLS 15 control part 15a center side delivery control part 15b delivery object identification part 15c delivery content identification part 20 smart meter 21 communication part 22 electric power measurement part 23 memory part 24 control part 24a apparatus side measurement control part 24b apparatus side delivery control part 40 disaster prevention terminal 41 abnormality detection unit 42 output unit 43 communication unit 44 storage unit 45 control unit 45 a terminal side detection control unit 45 b terminal side distribution control unit

Claims (4)

Center side communication means for communicating with the device installed in the dwelling unit;
Center side storage means for storing device identification information for uniquely identifying the device;
Area information storage means for mutually storing the type of cause event of the disaster prevention information, the occurrence point of the cause event of the disaster prevention information, and the area to which the disaster prevention information is to be distributed;
A map database that mutually stores an area in which the disaster prevention information is to be distributed and an address included in the area in which the disaster prevention information is to be distributed;
An information database for mutually storing the address and device identification information for uniquely identifying the device;
When the type of the cause event of the disaster prevention information to be distributed to the dwelling unit and the occurrence point of the cause event of the disaster prevention information are specified, the area information storage means is referred to based on the type and the occurrence point The area to which the disaster prevention information is to be distributed is specified, and the address included in the specified area is specified by referring to the map database based on the specified area, and the information database is specified based on the specified address. Distribution target specifying means for acquiring the device identification information of the device installed in the dwelling unit of the specified address by referring;
When the disaster prevention information to be delivered to the dwelling unit and the device installed in the dwelling unit to which the disaster prevention information is to be delivered are identified, the device identification information corresponding to the identified device is acquired by the delivery target identifying unit Center side distribution control means for transmitting the acquired device identification information and the disaster prevention specific information specifying the disaster prevention information to be distributed to the device installed in the dwelling unit through the center side communication means When,
Equipped with
Center device. The type of cause event of the disaster prevention information, the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, the area to which the disaster prevention information is to be distributed, and the disaster prevention specific information are mutually stored Means for storing content information
If the type of cause event of the disaster prevention information to be delivered to the dwelling unit, the occurrence point of the cause event of the disaster prevention information, the occurrence level of the cause event of the disaster prevention information, and the area to which the disaster prevention information is to be distributed are specified Distribution content specifying means for acquiring disaster prevention specific information corresponding to the contents of disaster prevention information to be distributed by referring to the content information storage means based on the type, the occurrence point, the occurrence level, and the area ,
The center side distribution control means transmits the disaster prevention identification information acquired by the distribution content identification means.
The center apparatus according to claim 1. The disaster prevention information identification information for uniquely identifying the content of the disaster prevention information is transmitted as the disaster prevention specific information.
The center apparatus according to claim 2. The area to which the disaster prevention information stored in the area information storage means should be distributed includes an area having a predetermined distance from the bay and the river mouth.
The center apparatus according to any one of claims 1 to 3.

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