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WO2023120025A1 - Alarm system, alarm cooperation system, cooperation method, and program - Google Patents

Alarm system, alarm cooperation system, cooperation method, and program Download PDF

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Publication number
WO2023120025A1
WO2023120025A1 PCT/JP2022/043472 JP2022043472W WO2023120025A1 WO 2023120025 A1 WO2023120025 A1 WO 2023120025A1 JP 2022043472 W JP2022043472 W JP 2022043472W WO 2023120025 A1 WO2023120025 A1 WO 2023120025A1
Authority
WO
WIPO (PCT)
Prior art keywords
fire
alarm system
sensor
facility
external
Prior art date
Application number
PCT/JP2022/043472
Other languages
French (fr)
Japanese (ja)
Inventor
倫生 山本
圭祐 泉谷
圭太郎 干場
卓也 宮崎
隆行 菅原
あゆみ 近藤
太一 花盛
Original Assignee
パナソニックIpマネジメント株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by パナソニックIpマネジメント株式会社 filed Critical パナソニックIpマネジメント株式会社
Priority to EP22910743.8A priority Critical patent/EP4456031A1/en
Publication of WO2023120025A1 publication Critical patent/WO2023120025A1/en

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Classifications

    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • G08B17/10Actuation by presence of smoke or gases, e.g. automatic alarm devices for analysing flowing fluid materials by the use of optical means
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/009Signalling of the alarm condition to a substation whose identity is signalled to a central station, e.g. relaying alarm signals in order to extend communication range
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/01Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
    • G08B25/04Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using a single signalling line, e.g. in a closed loop
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/01Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
    • G08B25/10Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/14Central alarm receiver or annunciator arrangements

Definitions

  • the present disclosure relates generally to alarm systems, alarm coordination systems, coordination methods and programs, and more particularly, the present disclosure relates to alarm systems, warning coordination systems, coordination methods and programs for fires in facilities.
  • Patent Document 1 describes a wireless disaster prevention system.
  • the wireless disaster prevention system described in Patent Document 1 includes a wireless sensor that wirelessly transmits an alarm event signal, and a wireless receiving repeater that receives the alarm event signal and transmits the alarm signal to a P-type receiver. and a radio wave repeater for relaying the alarm event signal received from the wireless sensor to the wireless receiving repeater.
  • This disclosure is made in view of the above reasons, and aims to provide an alarm system, an alarm cooperation system, a cooperation method, and a program that can reduce the damage in the vicinity of the fire site.
  • a warning system is a system including a first sensor.
  • the first sensor is installed in a non-residential first facility and detects a fire in the first facility.
  • the alarm system has an external communication unit.
  • the external communication unit transmits fire information regarding the fire sensed by the first sensor to an external system without going through another network.
  • the external system comprises a second sensor.
  • the second detector is installed in a second facility separate from the first facility and detects a fire in the second facility.
  • a warning system is a system including a second sensor.
  • the second detector is installed in the second facility and detects fire.
  • the alarm system has an external communication unit.
  • the external communication unit receives fire information from an external system without going through another network.
  • the fire information is information about the fire detected by a first sensor installed in a first facility different from the second facility and detecting a fire.
  • the external system is the system comprising the first sensor.
  • An alarm cooperation system includes a first alarm system and a second alarm system.
  • the first alarm system comprises a first sensor.
  • the first detector is installed in a non-residential first facility to detect a fire.
  • the second alarm system comprises a second sensor.
  • the second detector is installed in a second facility different from the first facility and detects a fire.
  • the first alarm system has a first external communication unit.
  • a said 1st external communication part transmits the fire information regarding the said fire which a said 1st sensor sensed to a said 2nd alarm system without passing through another network.
  • the second alarm system has a second external communication section.
  • the second external communication unit receives the fire information from the first alarm system without passing through another network.
  • a cooperation method is a method used in an alarm system.
  • the alarm system includes a first detector installed in a non-residential first facility to detect a fire.
  • the cooperation method has a transmission step. In the transmitting step, the fire information regarding the fire sensed by the first sensor is transmitted to an external system without passing through another network.
  • the external system includes a second sensor installed in a second facility different from the first facility and detecting a fire.
  • a cooperation method is a method used in an alarm system.
  • the alarm system includes a second detector installed at a second facility to detect a fire.
  • the cooperation method has a receiving step.
  • fire information is received from an external system without going through another network.
  • the fire information is information about the fire detected by a first sensor installed in a first facility different from the second facility and detecting a fire.
  • the external system is the system comprising the first sensor.
  • a program according to one aspect of the present disclosure is a program for causing one or more processors to execute the linking method.
  • FIG. 1 is a schematic diagram showing the overall alarm cooperation system according to the first embodiment.
  • FIG. 2 is a block diagram of a first alarm system included in the above alarm cooperation system.
  • FIG. 3 is a sequence diagram showing the operation of the same alarm cooperation system.
  • FIG. 4 is a block diagram of an alarm cooperation system according to the second embodiment.
  • the alarm cooperation system 10 includes a plurality of (three in the example of FIG. 1) alarm systems 1.
  • the alarm cooperation system 10 according to Embodiment 1 includes a first alarm system 1a, a second alarm system 1b, and a third alarm system 1c.
  • Each of the first alarm system 1a, the second alarm system 1b, and the third alarm system 1c is an alarm system 1 that senses fires in facilities.
  • a first alarm system 1a of Embodiment 1 is provided in a first facility 100 .
  • the second alarm system 1b is installed at the second facility 200, and the third alarm system 1c is installed at the third facility 300.
  • FIG. 1 As shown in FIG.
  • “Facilities” as used in this disclosure include residential facilities used for residential purposes, as well as non-residential facilities such as stores (tenants), offices, welfare facilities, educational facilities, hospitals and factories.
  • Non-residential facilities include restaurants, playgrounds, hotels, Japanese inns, kindergartens, nursery schools and public halls.
  • the first facility 100, the second facility 200, and the third facility 300 are non-residential facilities such as office buildings.
  • Embodiment 1 the case where the 1st facility 100, the 2nd facility 200, and the 3rd facility 300 are mutually located near is illustrated.
  • neighborehood referred to in the present disclosure is a range in which the alarm system 1 can transmit fire information by wireless communication without going through another network such as the Internet, which is different from the network formed by the wireless communication method. is. Also, “neighborhood” may include the extent to which fire may spread and the extent to which smoke or ash generated by the fire may reach if a fire breaks out at a facility.
  • the first alarm system 1a includes a plurality of first sensors 4a.
  • the plurality of first sensors 4a are installed in a non-residential first facility 100 (facility), and are sensors 4 such as alarms that detect a fire in the first facility 100 (facility).
  • each of the plurality of first sensors 4a may be referred to as "first sensor 4a”.
  • the second alarm system 1b includes a plurality of second sensors 4c.
  • the plurality of second sensors 4c are installed in a second facility 200 (facility) different from the first facility 100, and are sensors 4 such as alarms that detect fire in the second facility 200 (facility). .
  • each of the plurality of second sensors 4c may be referred to as "second sensor 4c".
  • the first alarm system 1a includes an external communication section 52 (first external communication section).
  • the external communication unit 52 transmits fire information about the fire detected by the first sensor 4a to the second alarm system 1b, which is another alarm system 1 (external system), without going through another network such as the Internet.
  • the first alarm system 1a communicates via a network other than the network formed between the first alarm system 1a and the second alarm system 1b, such as the Internet, by an appropriate communication method such as wired communication or wireless communication. Instead, the fire information is transmitted to the second alarm system 1b.
  • the "fire information" referred to in this disclosure may include facility information regarding the facility where the fire occurred, scale information regarding the scale of the fire, and weather information regarding weather such as wind direction and humidity.
  • the second alarm system 1b of Embodiment 1 has the same configuration as the first alarm system 1a. That is, the second alarm system 1b includes an external communication section 52 (second external communication section).
  • the external communication unit 52 receives fire information related to the fire detected by the first sensor 4a from the first alarm system 1a, which is an external system, without going through another network.
  • the first alarm system 1a transmits fire information to the second alarm system 1b provided in the second facility 200 in the vicinity of the first facility 100. , damage in the vicinity of the fire site (second facility 200) can be reduced.
  • the first alarm system 1a directly transmits fire information to the second alarm system 1b without going through another network such as the Internet, there is an advantage that it is less susceptible to communication failures in other networks. That is, the first alarm system 1a can more reliably transmit fire information to the second alarm system 1b to be transmitted quickly to the second alarm system 1b.
  • the second alarm system 1b can reduce damage in the second facility 200 by reporting a fire that has occurred in the first facility 100, for example.
  • FIG. 1 Details Next, details of the alarm cooperation system 10 according to the first embodiment will be described with reference to FIGS. 1 to 3.
  • FIG. 1 Details Next, details of the alarm cooperation system 10 according to the first embodiment will be described with reference to FIGS. 1 to 3.
  • the alarm cooperation system 10 includes a first alarm system 1a, a second alarm system 1b, and a third alarm system 1c.
  • the first alarm system 1a is provided in the first facility 100. As shown in FIG.
  • the first alarm system 1a includes a plurality of first sensors 4a, a plurality of first sensors 4b, a first parent device 5a, a first receiver 6a, and a first repeater 7a.
  • each of the plurality of first sensors 4b may be referred to as “first sensor 4b".
  • the first sensor 4a or the first sensor 4b may be simply referred to as the “sensor 4”.
  • the first parent device 5a may be simply referred to as the "parent device 5".
  • the first receiver 6a may be simply referred to as “receiver 6”.
  • the first repeater 7a may be simply referred to as the "repeater 7".
  • the first sensor 4a and the first sensor 4b are the sensors 4 provided in the first alarm system 1a.
  • sensor 4 is fire detection. That is, the first sensor 4 a and the first sensor 4 b detect fire in the first facility 100 .
  • the first sensor 4a and the first sensor 4b of the first embodiment function as child devices of the first parent device 5a.
  • the first sensor 4a is a wireless communication system that conforms to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio that does not require a license (specified low-power radio). , to communicate with the first base unit 5a.
  • the first sensor 4b is connected to the first base unit 5a by wire, and communicates with the first base unit 5a by the wired communication method.
  • the first sensor 4b may be connected to the first receiver 6a by wire so that it can communicate with the first receiver 6a by a wired communication method.
  • the senor 4 has a communication section 41, a control section 42, a sensing section 43, and a notification section 44.
  • the sensor 4 comprises, for example, a microcomputer with a processor and memory.
  • the computer system functions as the controller 42 by the processor executing appropriate programs. That is, the control unit 42 is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 41 includes a communication interface configured to be able to communicate with other devices such as the parent device 5.
  • the term “communicable” as used in the present disclosure means that information can be exchanged directly or indirectly via a network, a repeater, or the like, using an appropriate communication method such as wired communication or wireless communication.
  • the communication unit 41 of the first sensor 4a can directly communicate with the base unit 5 by wireless communication. Further, the communication unit 41 of the first sensor 4a can indirectly communicate with the base unit 5 via the repeater 7 by wireless communication.
  • the communication unit 41 of the first sensor 4b can directly communicate with the parent device 5 by a wired communication method. Furthermore, the communication unit 41 of the first sensor 4b can indirectly communicate with the main unit 5 via other devices such as the first sensor 4b by a wired communication method.
  • the communication unit 41 of the first sensor 4b may be configured to be able to directly communicate with the receiver 6 using a wired communication method. Furthermore, the communication unit 41 of the first sensor 4b may be configured to communicate with the receiver 6 indirectly via another device such as the first sensor 4b in a wired communication system.
  • the communication unit 41 transmits the sensing result of the sensing unit 43 to the base unit 5 together with the information indicating the identifier of the own unit. Communication unit 41 also receives a notification instruction from master device 5 . Note that the communication unit 41 of the first sensor 4b may be configured to transmit the sensing result of the sensing unit 43 to the receiver 6 together with information indicating its own identifier.
  • the sensing unit 43 has a function of sensing fire (sensing function).
  • the sensing unit 43 is, for example, a photoelectric sensor that senses smoke.
  • the sensing unit 43 includes, for example, a light emitting unit such as an LED (Light Emitting Diode) and a light receiving unit such as a photodiode.
  • the light-emitting part and the light-receiving part are arranged in the labyrinth of the housing of the machine so that the light-receiving surface of the light-receiving part is off the optical axis of the light emitted from the light-emitting part.
  • smoke can be introduced into the labyrinth through holes provided in the housing.
  • the sensing section 43 receives the irradiation light of the light emitting section scattered by the smoke at the light receiving section.
  • the sensing unit 43 outputs an electric signal (sensing result) indicating a voltage level corresponding to the amount of light received by the light receiving unit to the control unit.
  • the notification unit 44 has a function of notifying the occurrence of a fire (notification function).
  • the notification unit 44 according to the first embodiment has a light emitting unit such as an LED and a speaker, and performs notification with light and sound based on instructions from the control unit 42 .
  • the control unit 42 controls the communication unit 41 and the notification unit 44.
  • the control unit 42 controls the communication unit 41 so as to transmit the result of fire detection by the sensing unit 43 to the master device 5 .
  • the control unit 42 controls the notification unit 44 so that the notification unit 44 performs notification based on the notification instruction received from the master device 5 .
  • the control unit 42 of the first sensor 4 b may control the communication unit 41 so that the detection result of the fire by the sensing unit 43 is transmitted to the receiver 6 .
  • the control unit 42 of the first sensor 4b may control the notification unit 44 so that the notification unit 44 performs notification based on the notification instruction received from the receiver 6 .
  • the first master device 5a is the master device 5 included in the first alarm system 1a. Master device 5 transmits the sensing result received from sensor 4 to receiver 6 .
  • the master device 5 has a communication unit 51, an external communication unit 52 (first external communication unit), a control unit 53, and a storage unit 54.
  • the parent device 5 includes, for example, a microcomputer having a processor and memory.
  • the computer system functions as the controller 53 by the processor executing appropriate programs. That is, the control unit 53 is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 51 includes a communication interface configured to communicate with the sensor 4, the receiver 6, and the repeater 7.
  • the communication unit 51 receives sensing results from the sensor 4 directly or indirectly via the relay 7 .
  • the communication unit 51 also transmits the sensing result received from the sensor 4 to the receiver 6 .
  • the communication unit 51 receives notification instructions from the receiver 6 . Also, the communication unit 51 transmits the notification instruction received from the receiver 6 to the sensor 4 .
  • the external communication unit 52 is configured to be able to communicate with a plurality of alarm systems 1 (external systems) installed in a plurality of other facilities without going through another network.
  • the external communication unit 52 of the first alarm system 1a is configured to be able to communicate with the second alarm system 1b provided at the second facility 200 and the third alarm system 1c provided at the third facility 300.
  • the external communication section 52 has a transmitting section 521 and a receiving section 522 .
  • the transmission unit 521 uses a wireless communication method that complies with standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio that does not require a license (specified low-power radio). , fire information is transmitted to another alarm system 1 (external system) without going through another network such as the Internet, which is different from the network formed by the wireless communication system.
  • standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio that does not require a license (specified low-power radio).
  • the transmission unit 521 of the first alarm system 1a transmits fire information about the fire detected by the first sensor 4a (4b) to at least one of the second alarm system 1b and the third alarm system 1c (external system), to other It has a function to transmit without going through the network.
  • the transmitter 521 transmits the fire information received by the receiver 522 from the external system to another external system without going through another network.
  • the transmitter 521 of the first alarm system 1a transmits the fire information received by the receiver 522 from the second alarm system 1b having the second sensor 4c (4d) to the second alarm system 1b having the second sensor 4c (4d). It transmits to the 3rd alarm system 1c different from the alarm system 1b without passing through another network.
  • the transmission part 521 of the 1st alarm system 1a transmits the fire information which the receiving part 522 received from the 3rd alarm system 1c to the 2nd alarm system 1b.
  • the transmission unit 521 transmits fire information to another alarm system 1 (external system) without going through another network based on the estimation result of the estimation unit 621, which will be described later, which the receiver 6 has. Send.
  • the first alarm system 1a of Embodiment 1 transmits fire information received from another alarm system 1 (second alarm system 1b) to yet another alarm system 1 (third alarm system 1c), Damage in the vicinity of one facility 100 (third facility 300) can be reduced.
  • the fire information can be sent to the other alarm system 1 stably and quickly. can be sent.
  • the receiving unit 522 receives fire information related to fires detected by the sensors 4 included in the other alarm system 1 from the other alarm system 1 without going through another network.
  • the receiving unit 522 uses a wireless communication method that conforms to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio (specified low-power radio) that does not require a license.
  • fire information is received from another alarm system 1 without going through another network such as the Internet, which is different from the network formed by the wireless communication system.
  • the receiving unit 522 of the first alarm system 1a receives information about the fire detected by the second sensor 4c (4d) from the second alarm system 1b including the second sensor 4c (4d) via another network. receive without Further, the receiving unit 522 of the first alarm system 1a may receive the information about the fire detected by the second sensor 4c (4d) from the third alarm system 1c without going through another network.
  • the storage unit 54 is a semiconductor memory such as ROM (Read Only Memory), RAM (Random Access Memory), or EEPROM (Electrically Erasable Programmable Read Only Memory). Note that the storage unit 54 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
  • the storage unit 54 stores transmission destination information of another alarm system 1 (external system) to which the external communication unit 52 (transmitting unit 521) transmits fire information. Since the storage unit 54 stores the transmission destination information, the external communication unit 52 can transmit the fire information to the pre-registered alarm system 1 as the transmission destination.
  • the storage unit 54 also stores identifiers of each of the multiple sensors 4 included in the alarm system 1 . It should be noted that the external communication unit 52 may employ a method of transmitting fire information randomly to a plurality of nearby alarm systems 1 without using the pre-registered alarm system 1 as a transmission destination.
  • the control unit 53 controls the communication unit 51.
  • the control section 53 controls the communication section 51 so as to transmit the sensing result received from the sensor 4 to the receiver 6 . Further, the control unit 53 controls the communication unit 51 so as to transmit the notification instruction received from the receiver 6 to the sensor 4, which is a child unit. Also, the control unit 53 controls the communication unit 51 so as to transmit fire information received from another alarm system 1 (external system) to the receiver 6 .
  • the control unit 53 controls the external communication unit 52. Based on the communication instruction from the receiver 6, the control unit 53 controls the external communication unit 52 so as to transmit fire information detected by the sensor 4 to another alarm system 1 (external system). In addition, based on the communication instruction from the receiver 6, the control unit 53 sends fire information received from another alarm system 1 (for example, the second alarm system 1b) to another alarm system 1 (for example, the third alarm system). 1c), the external communication unit 52 is controlled.
  • another alarm system 1 for example, the second alarm system 1b
  • another alarm system 1 for example, the third alarm system
  • the first repeater 7a is the repeater 7 included in the first alarm system 1a.
  • the first repeater 7a of the first embodiment includes a communication interface configured to be able to communicate with the plurality of first sensors 4a and the parent device 5 by wireless communication.
  • the first relay 7a relays communication between the plurality of first sensors 4a. Further, the first relay 7a relays communication between the first sensor 4a and the base unit 5.
  • the first receiver 6a is the receiver 6 provided in the first warning system 1a.
  • the receiver 6 receives detection results of fires detected by the detectors 4 in the alarm system 1 including itself.
  • the first receiver 6a receives the detection result of the fire detected by the first sensor 4a (4b).
  • the receiver 6 of Embodiment 1 functions as a control device in the alarm system 1 .
  • the receiver 6 has a communication section 61 , a control section 62 , a storage section 63 , a display section 64 and an operation section 65 .
  • the receiver 6 comprises, for example, a microcomputer having a processor and memory.
  • the computer system functions as the controller 62 by the processor executing appropriate programs. That is, the control unit 62 is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 61 includes a communication interface configured to be able to communicate with the parent device 5. Also, the communication unit 61 may be configured to communicate with the first sensor 4b connected by wire.
  • the storage unit 63 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 63 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
  • the storage unit 63 of Embodiment 1 stores map information of the facility where the alarm system 1 is installed and map information of the vicinity of the facility where the alarm system 1 is installed.
  • the facility map information includes information on the installation location of each of the plurality of sensors 4 .
  • the storage unit 63 also stores identifiers of each of the multiple sensors 4 included in the alarm system 1 .
  • the display unit 64 has a display device such as a liquid crystal panel display.
  • the display unit 64 is capable of various displays.
  • the display unit 64 displays, for example, information on the location where the sensor 4 that has transmitted the sensing result to the receiver 6 is installed, information for selecting the sensor 4 to which the notification instruction is to be sent, and the sensor 4 first. Information such as the elapsed time since the fire was detected can be displayed.
  • the display unit 64 can display information related to fire information received by the external communication unit 52 of the master device 5 .
  • the operation unit 65 accepts user operation inputs such as various settings of the alarm system 1 and selection of the sensor 4 to which the notification instruction is to be sent. This disclosure assumes that the user is the manager of the facility.
  • the receiver 6 of Embodiment 1 includes, for example, a touch panel liquid crystal display as an operation display device including a display section 64 and an operation section 65 .
  • the operation display device functions as a user interface (GUI: Graphic User Interface).
  • the control unit 62 controls the communication unit 61, the display unit 64, and the operation unit 65.
  • the control unit 62 controls the communication unit 61 so as to transmit a notification instruction based on the operation input received by the operation unit 65 to the master device 5 .
  • the control unit 62 may control the communication unit 61 so as to transmit the notification instruction based on the operation input received by the operation unit 65 to the first sensor 4b.
  • control unit 62 of the first embodiment has an estimating unit 621 and a determining unit 622 .
  • the estimating unit 621 performs an estimating process of estimating the fire situation based on the fire detection result detected by the sensor 4 in the alarm system 1 including itself. For example, the estimating unit 621 included in the first alarm system 1a estimates the situation of a fire that has occurred in the first facility 100 based on the fire detection result detected by the first sensor 4a (4b). In addition to the sensing result output from the sensor 4, the estimating unit 621 also includes, for example, meteorological data on the current weather and forecast data on the future weather that can be obtained from a server of a weather service provider. Based on the information, the fire situation may be estimated. Weather information may include information about current and future weather (temperature, humidity, rainfall, wind direction, wind force, etc.) in the area that contains the facility on fire.
  • the estimating unit 621 calculates the number of detection results received by the communication unit 61, the installation location of the sensor 4 that transmitted the detection result, the elapsed time since the sensor 4 first detected a fire, and the number of fires detected by the sensor 4. Based on the density of smoke (magnitude of voltage level), etc., the situation of the fire is estimated. The estimating unit 621 outputs the result of estimating the fire situation to the determining unit 622 .
  • the decision unit 622 makes decisions regarding fire information.
  • the determining unit 622 generates fire information based on the estimation results of the estimating unit 621 .
  • the fire information may include facility information regarding the facility where the fire occurred, scale information regarding the scale of the fire, and weather information.
  • Facility information includes information on the location of the facility including the address of the facility where the fire broke out, information on the location of the fire within the facility such as the room and floor where the fire broke out, information on the type (type) and name of the facility, etc. It may include information on the preservation (storage) of hazardous materials under the Fire Service Act.
  • the determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information generated based on the estimation result of the estimation unit 621 to another alarm system 1 (external system). do.
  • the estimation result of the estimation unit 621 is based on the fire detection result.
  • the receiver 6 causes the external communication unit 52 to transmit fire information based on the fire detection result.
  • the transmission instruction includes fire information.
  • fire information is transmitted based on instructions from the receiver 6 that receives sensing results from the sensor 4, so erroneous transmission of fire information, for example, can be reduced.
  • the fire information generated based on the estimation result of the estimation unit 621 to the external system, it is possible to inform the external system of the situation of the fire such as the scale of the fire.
  • the scale information can include information about the extent of the fire, the time when the fire started, and the time elapsed since the fire started.
  • the determination unit 622 determines to transmit the fire information to at least one external system among the plurality of external systems.
  • the determination unit 622 of the first alarm system 1a determines to transmit fire information to at least one of the second alarm system 1b and the third alarm system 1c.
  • the determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information to the other alarm system 1 (external system) determined as the transmission destination of the fire information.
  • master device 5 receives the transmission instruction
  • external communication unit 52 of master device 5 transmits the fire information to at least one of the plurality of external systems based on the transmission instruction.
  • the transmission instruction is based on the estimation result of estimation section 621 .
  • external communication section 52 of master device 5 transmits fire information to at least one of the plurality of external systems based on the estimation result of estimation section 621 .
  • a fire Information can be sent.
  • the determining unit 622 determines the order of transmission based on the estimation result of the estimating unit 621 when transmitting fire information to two or more external systems out of a plurality of external systems. For example, the determination unit 622 of the first alarm system 1a determines the transmission order of the second alarm system 1b to be 1 (first) and the transmission order of the third alarm system 1c to be 2 based on the estimation result of the estimation unit 621. to decide.
  • the determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information to the alarm system 1 determined as the transmission destination of the fire information in the transmission order determined by the determination unit 622. do.
  • the master device 5 receives the transmission instruction
  • the external communication unit 52 of the master device 5 when transmitting the fire information to two or more external systems out of the plurality of external systems, selects two or more in the order based on the transmission instruction. send fire information to external systems. Since the transmission instruction is based on the estimation result of the estimation unit 621, the external communication unit 52 of the master device 5 sends the fire information to two or more external systems out of the plurality of external systems. Fire information is sent to two or more external systems in an order based on the estimation results of .
  • the fire information can be sent preferentially.
  • the second alarm system 1b is provided inside the second facility 200 .
  • the second alarm system 1b includes a plurality of second sensors 4c, a plurality of second sensors 4d, a second parent device 5b, a second receiver 6b, and a second repeater 7b.
  • each of the plurality of second sensors 4c may be referred to as "second sensor 4c”.
  • each of the plurality of second sensors 4d may be referred to as "second sensor 4d”.
  • the second warning system 1b is the warning system 1. That is, the second sensor 4c, the second sensor 4d, the second main unit 5b, the second receiver 6b, and the second relay 7b provided in the second alarm system 1b are the first sensors provided in the first alarm system 1a, respectively. 1 sensor 4a, first sensor 4b, first base unit 5a, first receiver 6a, and first repeater 7a. Therefore, detailed description of the second alarm system 1b is omitted.
  • the second alarm system 1b transmits, for example, fire information received from the first alarm system 1a to the third alarm system 1c.
  • the second alarm system 1b determines the order of transmission of fire information regarding fires detected by the second detectors 4c (4d), and transmits the fire information to the first and third alarm systems 1a and 1c.
  • the third alarm system 1c is provided in the third facility 300.
  • the third alarm system 1c includes a plurality of third sensors 4e, a plurality of third sensors 4f, a third parent device 5c, a third receiver 6c, and a third repeater 7c.
  • each of the plurality of third sensors 4e may be referred to as “third sensor 4e”.
  • each of the plurality of third sensors 4f may be referred to as "third sensor 4f”.
  • the third warning system 1c is the warning system 1. That is, the third sensor 4e, the third sensor 4f, the third main unit 5c, the third receiver 6c, and the third relay 7c provided in the third alarm system 1c are the first sensors provided in the first alarm system 1a. 1 sensor 4a, first sensor 4b, first base unit 5a, first receiver 6a, and first repeater 7a. Therefore, detailed description of the third warning system 1c is omitted.
  • the third alarm system 1c transmits, for example, fire information received from the first alarm system 1a to the second alarm system 1b. Also, the third alarm system 1c determines the transmission order of the fire information about the fire detected by the third sensor 4e (4f), and transmits it to the first alarm system 1a and the second alarm system 1b.
  • the sensor 4 of the first alarm system 1a detects a fire (S1).
  • the first sensor 4a (4b) that senses the fire transmits the sensing result to the first main unit 5a (S2).
  • the first base unit 5a that has received the sensing result transmits the received sensing result to the first receiver 6a (S3).
  • the first receiver 6a Upon receiving the fire sensing result, the first receiver 6a performs estimation processing for estimating the fire situation based on the sensing result (S4). The first receiver 6a transmits a transmission instruction including fire information to the first main unit 5a (S5).
  • the first main unit 5a Upon receiving the transmission instruction, the first main unit 5a transmits fire information to another alarm system 1 (external system) based on the transmission instruction.
  • the transmission instruction is an instruction to transmit fire information to the second alarm system 1b installed in the second facility 200 and the third alarm system 1c installed in the third facility 300.
  • FIG. The transmission instruction is an instruction to transmit fire information in the order of the second alarm system 1b and the third alarm system 1c.
  • the first master unit 5a of the first alarm system 1a transmits fire information to the second master unit 5b of the second alarm system 1b without going through another network (S6). Then, the second main unit 5b of the second alarm system 1b receives fire information without going through another network (S7). Also, the first main unit 5a of the first alarm system 1a transmits the fire information to the third main unit 5c of the third alarm system 1c without going through another network (S8). Then, the third master unit 5c of the third alarm system 1c receives the fire information without going through another network (S9). In the second alarm system 1b and the third alarm system 1c, for example, based on the received fire information, the fire that has occurred in the first facility 100 is notified.
  • sequence diagram shown in FIG. 3 is merely an example, and the order of processing may be changed as appropriate, and processing may be added or deleted as appropriate.
  • the first alarm system 1a may simultaneously transmit fire information regarding fires detected by the first sensor 4a (4b) to the second alarm system 1b and the third alarm system 1c.
  • the first sensor 4b that has detected a fire may directly transmit the sensing result to the first receiver 6a by a wired communication method without transmitting it to the first base unit 5a.
  • Embodiment 1 is merely an example of various embodiments of the present disclosure. Embodiment 1 can be modified in various ways according to design and the like, as long as the object of the present disclosure can be achieved.
  • a cooperation method is a method used in the first alarm system 1a (alarm system 1).
  • the alarm system 1 includes a first sensor 4a (4b) installed in a non-residential first facility 100 to detect a fire.
  • the cooperation method has a sending step. In the transmission step, the fire information about the fire detected by the first sensor 4a (4b) is transmitted to the external system (second alarm system 1b) without going through another network.
  • the external system includes a second sensor 4c (4d) that is installed in a second facility 200 different from the first facility 100 and detects fire.
  • the cooperation method which concerns on one aspect is a method used by the 2nd alarm system 1b (alarm system 1).
  • the alarm system 1 includes a second sensor 4c (4d) installed in a non-residential second facility 200 to detect a fire.
  • the cooperation method has a receiving step. In the receiving step, fire information is received from an external system (first alarm system 1a) without going through another network.
  • the fire information is information about fires detected by the first sensor 4a (4b) installed in the first facility 100 different from the second facility 200 and detecting fires.
  • the external system is a system comprising the first sensor 4a (4b).
  • a program according to one aspect is a program for causing one or more processors to execute the linking method.
  • the alert system 1 in the present disclosure includes, for example, a computer system.
  • a computer system is mainly composed of a processor and a memory as hardware.
  • the function of the alarm system 1 in the present disclosure is realized by the processor executing a program recorded in the memory of the computer system.
  • the program may be recorded in advance in the memory of the computer system, may be provided through an electric communication line, or may be recorded in a non-temporary recording medium such as a computer system-readable memory card, optical disk, or hard disk drive. may be provided.
  • a processor in a computer system is made up of one or more electronic circuits, including semiconductor integrated circuits (ICs) or large scale integrated circuits (LSIs).
  • Integrated circuits such as ICs or LSIs are called differently depending on the degree of integration, and include integrated circuits called system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration).
  • FPGAs Field-Programmable Gate Arrays
  • a plurality of electronic circuits may be integrated into one chip, or may be distributed over a plurality of chips.
  • a plurality of chips may be integrated in one device, or may be distributed in a plurality of devices.
  • a computer system includes a microcontroller having one or more processors and one or more memories. Accordingly, the microcontroller also consists of one or more electronic circuits including semiconductor integrated circuits or large scale integrated circuits.
  • At least some of the multiple functions of the alarm system 1 may be realized by the cloud (cloud computing) or the like.
  • the estimation unit 621 of the alarm system 1 may use a learned model generated by machine learning to estimate the situation of a fire that has occurred in a facility.
  • the learned model is generated, for example, by supervised learning using a plurality of teacher data indicating the relationship between the fire detection result detected by the detector 4 and the fire situation.
  • the estimating unit 621 can obtain information indicating the state of the fire as an output of the learned model by inputting the fire detection result detected by the sensor 4 to the learned model.
  • a machine learning algorithm is, for example, a neural network.
  • machine learning algorithms are not limited to neural networks, such as XGB (eXtreme Gradient Boosting) regression, Random Forest, decision tree, Logistic Regression, support vector machines ( SVM: Support vector machine), Naive Bayes classifier, k-nearest neighbors, or the like.
  • the machine learning algorithm may be, for example, Gaussian Mixture Model (GMM), k-means clustering, or the like.
  • GMM Gaussian Mixture Model
  • the learning method is supervised learning as an example in the first embodiment.
  • the learning method is not limited to supervised learning, and may be unsupervised learning or reinforcement learning.
  • the learned model may be updated by performing additional learning.
  • the first alarm system 1a does not have to be entirely installed in the first facility 100. At least the sensor 4 included in the first alarm system 1a should be provided in the first facility 100. FIG. In addition, not all of the second alarm system 1b may be provided within the second facility 200 . It is sufficient that at least the sensor 4 included in the second alarm system 1b is provided within the second facility 200 .
  • the fire information transmission route between the multiple alarm systems 1 may be determined in advance. For example, a transmission path is predetermined such that fire information is transmitted from the first alarm system 1a to the second alarm system 1b, and then fire information is transmitted from the second alarm system 1b to the third alarm system 1c. good too. Further, the transmission path of the fire information about the fire detected by the sensor 4 in the own system and the transmission path of the fire information about the fire detected by the sensor 4 in the other alarm system 1 may be different. Note that the destination information may include information about the transmission route.
  • the alarm system 1 may have a plurality of repeaters 7.
  • the receiver 6 receives the sensing result from the sensor 4, estimates the fire situation, and then determines the transmission destination and the transmission order of the fire information is exemplified.
  • the receiver 6 may determine the transmission destination of the fire information and transmit the fire information based on the operation input of the user who confirmed the sensing result received by the receiver 6 .
  • the receiver 6 has the estimating unit 621 and the determining unit 622 is exemplified. and a decision unit 622 .
  • the first parent device 5a may have the estimating section 621 and the determining section 622 .
  • the first master device 5a detects the fire that occurred in the first facility 100 based on the detection result of the fire detected by the first sensor 4a (4b).
  • the first master device 5a transmits the fire information generated based on the estimation result of the estimation unit 621 to the other alarm system 1 (external system). send to.
  • the first master device 5a causes the external communication unit 52 to transmit the fire information based on the fire detection result. Since the fire information is transmitted based on the instruction of the main unit 5 which relays the detection result of the fire sensed by the first sensor 4a (4b) to the receiver 6, for example, erroneous transmission of fire information can be reduced. .
  • the first alarm system 1a the case where the first master device 5a has the external communication unit 52 was illustrated, but instead of the first master device 5a, the first sensor 4a, the first receiver 6a, and the Either one of the first repeaters 7 a may have the external communication section 52 .
  • the second alarm system 1b the case where the second base unit 5b has the external communication unit 52 was illustrated, but instead of the second base unit 5b, the second sensor 4c and the second receiver 6 b and the second repeater 7 b may have the external communication unit 52 .
  • which of the sensor 4 , master device 5 , receiver 6 , and repeater 7 has the external communication unit 52 may differ for each alarm system 1 .
  • the first main unit 5a of the first alarm system 1a when the first main unit 5a of the first alarm system 1a has the external communication unit 52, the first main unit 5a sends fire information to the second alarm system 1b without going through another network.
  • the second alarm system 1b receives the fire information transmitted by the first main unit 5a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second repeater 7b. good.
  • the second alarm system 1b which has received the fire information at any one of the second sensor 4c, the second base unit 5b, the second receiver 6b, and the second relay 7b, for example, the user who confirmed the received fire information A fire that has occurred in the first facility 100 is notified based on the operation input of .
  • the first sensor 4a of the first alarm system 1a has the external communication unit 52
  • the first sensor 4a sends fire information to the second alarm system 1b without going through another network.
  • the second alarm system 1b receives the fire information transmitted by the first sensor 4a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second relay 7b. good.
  • the first relay 7a of the first alarm system 1a has the external communication unit 52
  • the first relay 7a sends the fire information to the second alarm system 1b without going through another network.
  • the second alarm system 1b receives the fire information transmitted by the first relay 7a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second relay 7b. good.
  • the first receiver 6a of the first alarm system 1a has the external communication unit 52
  • the first receiver 6a sends fire information to the second alarm system 1b without going through another network.
  • the second alarm system 1b receives the fire information transmitted by the first receiver 6a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second repeater 7b. good.
  • the first receiver 6a and the second receiver 6b may be connected by a communication cable.
  • the first receiver 6a and the second receiver 6b are connected by a communication cable
  • the first receiver 6a uses a wired communication method to establish a network different from the network formed by the communication cable. Fire information may be transmitted to the second receiver 6b without intervening.
  • the alarm cooperation system 10 according to the second embodiment is an embodiment in that the second alarm system 1b (alarm system 1) is installed in the second facility 200, which is a residential facility. It is different from the alarm cooperation system 10 according to 1.
  • a second alarm system 1b according to Embodiment 2 includes a plurality of second sensors 8, a control device 9, and a second relay 7b.
  • the plurality of second sensors 8 includes a second sensor 8a as a master device and a plurality of second sensors 8b as slave devices.
  • each of the plurality of second sensors 8 may be called “second sensor 8".
  • each of the plurality of second sensors 8b may be referred to as a "second sensor 8b”.
  • the second sensor 8b has a communication unit 81b, a control unit 82b, a sensing unit 83, and a notification unit 84.
  • the second sensor 8b comprises, for example, a microcomputer with a processor and memory.
  • the computer system functions as the controller 82b by the processor executing appropriate programs.
  • the controller 82b is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 81b can directly communicate with the second sensor 8a, which is the parent device, by wireless communication. Furthermore, the communication unit 81b can indirectly communicate with the second sensor 8a, which is the parent device, via the second repeater 7b (relay 7) by a wireless communication method.
  • the communication unit 81b transmits the sensing result of the sensing unit 83 to the second sensor 8a, which is the master unit, along with information indicating its own identifier. Also, the communication unit 81b receives a notification instruction from the second sensor 8a, which is the parent device.
  • the sensing unit 83 has a function of sensing fire (sensing function).
  • the sensing unit 43 is, for example, a photoelectric sensor that senses smoke. Since the configuration of the sensing section 83 is the same as that of the sensing section 43 described in the first embodiment, description thereof will be omitted.
  • the notification unit 84 has a function (notification function) to notify the occurrence of a fire. Since the configuration of the notification unit 84 is the same as that of the notification unit 44 described in the first embodiment, description thereof will be omitted.
  • the control unit 82b controls the communication unit 81b and the notification unit 84.
  • the control unit 82b controls the communication unit 81b so as to transmit the result of fire detection by the sensing unit 83 to the second sensor 8a, which is the parent device.
  • the control unit 82b controls the notification unit 84 so that the notification unit 84 performs notification based on the notification instruction received from the second sensor 8a, which is the parent device.
  • the second sensor 8a as the parent unit includes a communication unit 81a, a control unit 82a, a sensing unit 83, a notification unit 84, a storage unit 85, and an external communication unit 86. , has
  • the second sensor 8a comprises, for example, a microcomputer having a processor and memory.
  • the computer system functions as the controller 82a by the processor executing appropriate programs.
  • the controller 82a is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 81a can directly communicate with the control device 9 and the second sensor 8b, which is a child device, by a wireless communication method. Furthermore, the communication unit 81a can communicate indirectly with the control device 9 and the second sensor 8b, which is a child device, via the second repeater 7b by a wireless communication method.
  • the communication unit 81a receives the sensing result from the second sensor 8b directly or indirectly via the second relay 7b. The communication unit 81a also transmits the sensing result received from the second sensor 8b to the control device 9 . The communication unit 81 a receives notification instructions from the control device 9 . The communication unit 81a also transmits the notification instruction received from the control device 9 to the second sensor 8b.
  • the external communication unit 86 is configured to be able to communicate with a plurality of alarm systems 1 (external systems) installed in a plurality of other facilities without going through another network.
  • the external communication unit 86 is configured to be able to communicate with the first alarm system 1 a provided at the first facility 100 and the third alarm system 1 c provided at the third facility 300 .
  • the external communication unit 86 receives fire information related to fires detected by the sensors 4 included in the other alarm system 1 from the other alarm system 1 without going through another network.
  • the external communication unit 86 is compatible with a wireless communication method conforming to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio (specified low-power radio) that does not require a license. to receive fire information from another alarm system 1 without going through another network.
  • the external communication unit 86 transmits fire information received from an external system to another external system without going through another network.
  • the external communication unit 86 transmits the fire information received from the first alarm system 1a to the third alarm system 1c, which is separate from the first alarm system 1a, without going through another network.
  • the storage unit 85 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 85 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
  • the storage unit 85 stores transmission destination information of another alarm system 1 (external system) to which the external communication unit 86 transmits fire information.
  • the storage unit 85 also stores identifiers of each of the plurality of second sensors 8b included in the second alarm system 1b.
  • the control unit 82a controls the communication unit 81a.
  • the control unit 82a controls the communication unit 81a so as to transmit the sensing result received from the second sensor 8b to the control device 9. Further, the control unit 82a controls the communication unit 81a so as to transmit the notification instruction received from the control device 9 to the second sensor 8b, which is a child device. Further, the control unit 82a controls the communication unit 81a so as to transmit fire information received from another alarm system 1 (external system) to the control device 9.
  • the control unit 82a controls the external communication unit 86.
  • the control unit 82a transmits fire information received from another alarm system 1 (for example, the first alarm system 1a) to another alarm system 1 (for example, the third alarm system 1c), the external communication unit 86.
  • the second repeater 7b is the repeater 7 included in the second alarm system 1b.
  • the second relay 7b of the second embodiment includes a communication interface configured to be able to communicate with the second sensor 8a, which is a parent device, and a plurality of second sensors 8b, which are child devices, by a wireless communication method.
  • the second relay 7b relays communication between the second sensor 8a and the second sensor 8b.
  • the control device 9 is, for example, a HEMS (home energy management system) controller, and can communicate with a plurality of devices provided in the second facility 200 .
  • the plurality of instruments includes a plurality of second sensors 8 as described above.
  • the control device 9 can also communicate with equipment such as lighting equipment and air conditioning equipment provided in the second facility 200 .
  • the control device 9 receives the detection result of the fire detected by the second sensor 8 in the second alarm system 1b.
  • the control device 9 has a communication section 91 , a control section 92 and a storage section 93 .
  • the control device 9 comprises, for example, a microcomputer having a processor and memory.
  • the computer system functions as the control unit 92 by the processor executing appropriate programs. That is, the control unit 92 is realized by a computer system having a processor and memory.
  • the program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
  • the communication unit 91 includes a communication interface configured to be able to communicate with the second sensor 8a, which is the parent device.
  • the storage unit 93 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 93 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
  • the storage unit 93 stores identifiers of each of the plurality of second sensors 8 included in the second alarm system 1b.
  • the control unit 92 controls the communication unit 91.
  • the control section 92 controls the communication section 91 to transmit the notification instruction to the second sensor 8a.
  • Embodiment 2 is merely an example of various embodiments of the present disclosure. Embodiment 2 can be modified in various ways according to the design, etc., as long as the object of the present disclosure can be achieved.
  • the second sensor 8a which is the master device, has the external communication unit 86
  • the second sensor 8b which is the slave device, the second relay 7b, and the control device 9 may have the external communication unit 86 .
  • the alarm system (first alarm system 1a) is the alarm system (1) including the first sensors (4a; 4b).
  • a first detector (4a; 4b) is installed in a non-residential first facility (100) to detect a fire in the first facility (100).
  • the alarm system (1) comprises an external communication section (52).
  • An external communication unit (52) transmits fire information about fires detected by the first sensors (4a; 4b) to an external system (second alarm system 1b) without going through another network.
  • the external system comprises a second sensor (4c; 4d; 8).
  • a second detector (4c; 4d; 8) is installed in a second facility (200) different from the first facility (100) and detects a fire in the second facility (200).
  • the alarm system (first alarm system 1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), so that the vicinity of the fire scene (second 2 facility 200) can be reduced.
  • the alarm system (1) since the alarm system (1) directly transmits fire information to an external system without going through other networks such as the Internet, it has the advantage of being less susceptible to communication failures in other networks.
  • the alarm system (first alarm system 1a) further comprises an estimation unit (621) in the first aspect.
  • An estimating unit (621) estimates the situation of the fire based on the fire detection results detected by the first sensors (4a; 4b).
  • the external communication unit (52) includes a plurality of external systems (second alarm system 1b; third alarm system 1c) respectively provided in a plurality of second facilities (second facility 200; third facility 300), and other It is configured to be able to communicate without going through a network.
  • An external communication unit (52) transmits fire information to at least one of a plurality of external systems based on the estimation result of the estimation unit (621).
  • the external system installed in the facility (second facility 200; third facility 300) estimated to be highly likely to be affected by fire, for example, based on the estimation result of the estimation unit (621) Fire information can be transmitted to (second alarm system 1b; third alarm system 1c).
  • the external communication unit (52) includes a plurality of external systems (second alarm system 1b; third alarm system 1c).
  • second alarm system 1b When transmitting fire information to two or more external systems, the fire information is transmitted to each of the two or more external systems in the order based on the estimation result of the estimation unit (621).
  • the estimating unit (621) based on the estimation result of the estimating unit (621), for example, it is installed in facilities (second facility 200; third facility 300) that are estimated to have a relatively high possibility of being affected by fire. Fire information can be preferentially transmitted to external systems (second alarm system 1b; third alarm system 1c).
  • the alarm system (first alarm system 1a) further comprises an estimator (621) in any one of the first to third aspects.
  • An estimating unit (621) estimates the situation of the fire based on the fire detection results detected by the first sensors (4a; 4b).
  • the external communication unit (52) transmits fire information based on the estimation results of the estimation unit (621) to external systems (second alarm system 1b; third alarm system 1c).
  • the fire information generated based on the estimation result of the estimation unit (621) by transmitting the fire information generated based on the estimation result of the estimation unit (621) to the external system (second alarm system 1b; third alarm system 1c), for example, the scale of the fire, etc.
  • the external system for example, the scale of the fire, etc.
  • An external system can be notified of the fire situation.
  • the alarm system (first alarm system 1a) according to the fifth aspect further comprises a receiver (6) in any one of the first to fourth aspects.
  • a receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b).
  • the receiver (6) causes the external communication unit (52) to transmit fire information based on the fire detection result.
  • the fire information is transmitted based on the instruction of the receiver (6) that receives the detection results from the first sensors (4a; 4b), for example, erroneous transmission of fire information can be reduced. can.
  • the alarm system (first alarm system 1a) according to the sixth aspect, in any one of the first to fourth aspects, further includes a parent device (5).
  • the parent device (5) transmits the sensing results received from the first sensors (4a; 4b) to the receiver (6).
  • a receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b).
  • the parent device (5) causes the external communication unit (52) to transmit fire information based on the fire detection result.
  • the fire information is transmitted based on the instruction of the master unit (5) that relays the detection result of the fire sensed by the first sensor (4a; 4b) to the receiver (6), for example Mistransmission of fire information can be reduced.
  • the alarm system (first alarm system 1a) according to the seventh aspect further comprises a storage unit (63) in any one of the first to sixth aspects.
  • a storage unit (63) stores transmission destination information of external systems (second alarm system 1b; third alarm system 1c) to which the external communication unit (52) transmits fire information.
  • the storage unit (63) stores the destination information, so that the external communication unit (52) can communicate with pre-registered external systems (second alarm system 1b; third alarm system 1c). can be used as a destination to transmit fire information.
  • the alarm system (second alarm system 1b) is an alarm system (1) comprising a second sensor (4c; 4d; 8).
  • a second detector (4c; 4d; 8) is installed in the second facility (200) to detect fire.
  • the alarm system (1) comprises an external communication section (52; 86).
  • An external communication unit (52; 86) receives fire information from an external system (first alarm system 1a) without going through another network.
  • the fire information is information on fires detected by the first detectors (4a; 4b) installed in the first facility (100) different from the second facility (200) and detecting fires.
  • the external system is the system comprising the first sensor (4a; 4b).
  • the alarm system (second alarm system 1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
  • the external communication unit (52; 86) sends the received fire information to a third facility different from the first facility (100).
  • the external communication unit (52; 86) sends the received fire information to a third facility different from the first facility (100).
  • third alarm system 1c different from the external system (first alarm system 1a) equipped with the first detectors (4a; 4b) installed in the 3 facilities (300)
  • via another network send without
  • the alarm system (second alarm system 1b) transmits the fire information received from the external system (first alarm system 1a) to another external system (third alarm system 1c). , the damage in the neighborhood (third facility 300) of the first facility (100) can be reduced.
  • the alarm system (first alarm system 1a) according to the tenth aspect, in any one of the first to ninth aspects, further includes a parent device (5).
  • the parent device (5) transmits the sensing results received from the first sensors (4a; 4b) to the receiver (6).
  • a receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b).
  • the master (5) has an external communication section (52).
  • the base unit (5) configured to be communicable with the receiver (6) has the external communication unit (52), the fire information is sent to the external system (second alarm system 1b; 3 It can be transmitted stably and quickly to the alarm system 1c).
  • Configurations other than the first aspect are not essential configurations for the alarm system (first alarm system 1a), and can be omitted as appropriate.
  • the alarm cooperation system (10) comprises a first alarm system (1a) and a second alarm system (1b).
  • a first alarm system (1a) comprises a first sensor (4a; 4b).
  • a first detector (4a; 4b) is installed in a non-residential first facility (100) to detect a fire.
  • a second alarm system (1b) comprises a second sensor (4c; 4d).
  • a second detector (4c; 4d) is installed in a second facility (200) different from the first facility (100) and detects a fire.
  • the first alarm system (1a) has a first external communication section (external communication section 52).
  • the first external communication unit transmits fire information about fires detected by the first sensors (4a; 4b) to the second alarm system (1b) without going through other networks.
  • the second alarm system (1b) has a second external communication section (external communication section 52).
  • the second external communication unit receives fire information from the first alarm system (1a) without going through another network.
  • the first alarm system (1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), thereby enabling 200) can be reduced.
  • the first alarm system (1a) sends fire information directly to the second alarm system (1b) without going through other networks such as the Internet, it is said to be less susceptible to communication failures in other networks.
  • the second alarm system (1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
  • the cooperation method according to the twelfth aspect is a method used in the alarm system (first alarm system 1a).
  • An alarm system (1) comprises a first detector (4a; 4b) installed in a non-residential first facility (100) to detect fire.
  • the cooperation method has a sending step. In the transmission step, the fire information about the fire detected by the first detectors (4a; 4b) is transmitted to the external system (second alarm system 1b) without going through another network.
  • the external system comprises a second sensor (4c; 4d) installed in a second facility (200) different from the first facility (100) to detect fire.
  • the alarm system (first alarm system 1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), so that the vicinity of the fire scene (second 2 facility 200) can be reduced.
  • the alarm system (1) since the alarm system (1) directly transmits fire information to an external system without going through other networks such as the Internet, it has the advantage of being less susceptible to communication failures in other networks.
  • the cooperation method according to the thirteenth aspect is a method used in the alarm system (second alarm system 1b).
  • the alarm system (1) comprises a second detector (4c; 4d) installed in a second facility (200) to detect fire.
  • the cooperation method has a receiving step. In the receiving step, fire information is received from an external system (first alarm system 1a) without going through another network.
  • the fire information is information on fires detected by the first detectors (4a; 4b) installed in the first facility (100) different from the second facility (200) and detecting fires.
  • the external system is the system comprising the first sensor (4a; 4b).
  • the alarm system (second alarm system 1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
  • a program according to the fourteenth aspect is a program for causing one or more processors to execute the cooperation method according to the twelfth aspect.
  • a program according to the fifteenth aspect is a program for causing one or more processors to execute the linking method according to the thirteenth aspect.
  • the alarm system (first alarm system 1a) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
  • alarm system 1a first alarm system (alarm system) 1b Second alarm system (external system) 1c Third alarm system (another external system) 10 Alarm cooperation system 100 First facility 200 Second facility 300 Third facility 4a; 4b First sensor 4c; 4d Second sensor 5 Master unit 52 External communication unit (first external communication unit, second external communication unit) 6 receiver 621 estimation unit 8 second sensor 86 external communication unit (second external communication unit)

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Abstract

The present disclosure addresses the problem of reducing damage in the vicinity of fire occurrence locations. An alarm system (1a) is a system provided with a first sensor (4a). The first sensor (4a) is disposed in a first facility (100) which is non-residential, and senses fires in the first facility (100). The alarm system (1a) is provided with an external communication unit (52). The external communication unit (52) transmits fire information regarding the fire sensed by the first sensor (4a) to an external system without going through another network. The external system is provided with a second sensor (4c). The second sensor (4c) is disposed in a second facility (200) separate from the first facility (100), and senses fire in the second facility (200).

Description

警報システム、警報連携システム、連携方法及びプログラムWarning system, warning cooperation system, cooperation method and program
 本開示は、一般に警報システム、警報連携システム、連携方法及びプログラムに関し、より詳細には、本開示は、施設での火災に関する警報システム、警報連携システム、連携方法及びプログラムに関する。 The present disclosure relates generally to alarm systems, alarm coordination systems, coordination methods and programs, and more particularly, the present disclosure relates to alarm systems, warning coordination systems, coordination methods and programs for fires in facilities.
 特許文献1には、無線防災システムについて記載されている。特許文献1に記載された無線防災システムは、発報イベント信号を無線送信する無線式感知器と、発報イベント信号を受信して発報信号をP型受信機に送信する無線受信用中継器と、無線式感知器から受信した発報イベント信号を無線受信用中継器に中継する電波中継器と、を備えている。 Patent Document 1 describes a wireless disaster prevention system. The wireless disaster prevention system described in Patent Document 1 includes a wireless sensor that wirelessly transmits an alarm event signal, and a wireless receiving repeater that receives the alarm event signal and transmits the alarm signal to a P-type receiver. and a radio wave repeater for relaying the alarm event signal received from the wireless sensor to the wireless receiving repeater.
特開2021-68666号公報Japanese Patent Application Laid-Open No. 2021-68666
 特許文献1に記載されたような無線防災システム(警報システム)において、火災発生現場の近隣における被害を低減させることが望まれている。 In a wireless disaster prevention system (alarm system) such as that described in Patent Document 1, it is desired to reduce damage in the vicinity of the fire scene.
 本開示は、上記事由に鑑みてなされており、火災発生現場の近隣における被害を低減させることが可能な警報システム、警報連携システム、連携方法及びプログラムを提供することを目的とする。 This disclosure is made in view of the above reasons, and aims to provide an alarm system, an alarm cooperation system, a cooperation method, and a program that can reduce the damage in the vicinity of the fire site.
 本開示の一態様に係る警報システムは、第1感知器を備えるシステムである。前記第1感知器は、非住宅である第1施設に設置され、前記第1施設での火災を感知する。前記警報システムは、外部通信部を備える。前記外部通信部は、前記第1感知器が感知した前記火災に関する火災情報を、外部システムへ、他のネットワークを介さずに送信する。前記外部システムは、第2感知器を備える。前記第2感知器は、前記第1施設とは別の第2施設に設置され、前記第2施設での火災を感知する。 A warning system according to one aspect of the present disclosure is a system including a first sensor. The first sensor is installed in a non-residential first facility and detects a fire in the first facility. The alarm system has an external communication unit. The external communication unit transmits fire information regarding the fire sensed by the first sensor to an external system without going through another network. The external system comprises a second sensor. The second detector is installed in a second facility separate from the first facility and detects a fire in the second facility.
 本開示の一態様に係る警報システムは、第2感知器を備えるシステムである。前記第2感知器は、第2施設に設置され火災を感知する。前記警報システムは、外部通信部を備える。前記外部通信部は、火災情報を、外部システムから他のネットワークを介さずに受信する。前記火災情報は、前記第2施設とは別の第1施設に設置され火災を感知する第1感知器が感知した前記火災に関する情報である。前記外部システムは、前記第1感知器を備えるシステムである。 A warning system according to one aspect of the present disclosure is a system including a second sensor. The second detector is installed in the second facility and detects fire. The alarm system has an external communication unit. The external communication unit receives fire information from an external system without going through another network. The fire information is information about the fire detected by a first sensor installed in a first facility different from the second facility and detecting a fire. The external system is the system comprising the first sensor.
 本開示の一態様に係る警報連携システムは、第1警報システムと、第2警報システムと、を備える。前記第1警報システムは、第1感知器を備える。前記第1感知器は、非住宅である第1施設に設置され火災を感知する。前記第2警報システムは、第2感知器を備える。前記第2感知器は、前記第1施設とは別の第2施設に設置され火災を感知する。前記第1警報システムは、第1外部通信部を有する。前記第1外部通信部は、前記第1感知器が感知した前記火災に関する火災情報を、他のネットワークを介さずに、前記第2警報システムへ送信する。前記第2警報システムは、第2外部通信部を有する。前記第2外部通信部は、前記火災情報を、前記第1警報システムから他のネットワークを介さずに受信する。 An alarm cooperation system according to one aspect of the present disclosure includes a first alarm system and a second alarm system. The first alarm system comprises a first sensor. The first detector is installed in a non-residential first facility to detect a fire. The second alarm system comprises a second sensor. The second detector is installed in a second facility different from the first facility and detects a fire. The first alarm system has a first external communication unit. A said 1st external communication part transmits the fire information regarding the said fire which a said 1st sensor sensed to a said 2nd alarm system without passing through another network. The second alarm system has a second external communication section. The second external communication unit receives the fire information from the first alarm system without passing through another network.
 本開示の一態様に係る連携方法は、警報システムで用いられる方法である。前記警報システムは、非住宅である第1施設に設置され火災を感知する第1感知器を備える。前記連携方法は、送信ステップを有する。前記送信ステップでは、前記第1感知器が感知した前記火災に関する火災情報を、他のネットワークを介さずに、外部システムへ送信する。前記外部システムは、前記第1施設とは別の第2施設に設置され火災を感知する第2感知器を備える。 A cooperation method according to one aspect of the present disclosure is a method used in an alarm system. The alarm system includes a first detector installed in a non-residential first facility to detect a fire. The cooperation method has a transmission step. In the transmitting step, the fire information regarding the fire sensed by the first sensor is transmitted to an external system without passing through another network. The external system includes a second sensor installed in a second facility different from the first facility and detecting a fire.
 本開示の一態様に係る連携方法は、警報システムで用いられる方法である。前記警報システムは、第2施設に設置され火災を感知する第2感知器を備える。前記連携方法は、受信ステップを有する。前記受信ステップでは、火災情報を、外部システムから他のネットワークを介さずに受信する。前記火災情報は、前記第2施設とは別の第1施設に設置され火災を感知する第1感知器が感知した前記火災に関する情報である。前記外部システムは、前記第1感知器を備えるシステムである。 A cooperation method according to one aspect of the present disclosure is a method used in an alarm system. The alarm system includes a second detector installed at a second facility to detect a fire. The cooperation method has a receiving step. In the receiving step, fire information is received from an external system without going through another network. The fire information is information about the fire detected by a first sensor installed in a first facility different from the second facility and detecting a fire. The external system is the system comprising the first sensor.
 本開示の一態様に係るプログラムは、前記連携方法を、1以上のプロセッサに実行させるためのプログラムである。 A program according to one aspect of the present disclosure is a program for causing one or more processors to execute the linking method.
図1は、実施形態1に係る警報連携システムの全体を示す概略図である。FIG. 1 is a schematic diagram showing the overall alarm cooperation system according to the first embodiment. 図2は、同上の警報連携システムが有する第1警報システムのブロック図である。FIG. 2 is a block diagram of a first alarm system included in the above alarm cooperation system. 図3は、同上の警報連携システムの動作を示すシーケンス図である。FIG. 3 is a sequence diagram showing the operation of the same alarm cooperation system. 図4は、実施形態2に係る警報連携システムのブロック図である。FIG. 4 is a block diagram of an alarm cooperation system according to the second embodiment.
 以下、本開示に関する好ましい実施形態について図面を参照しつつ詳細に説明する。なお、以下に説明する実施形態において互いに共通する要素には同一符号を付しており、共通する要素についての重複する説明は省略する。以下の実施形態は、本開示の様々な実施形態の一つに過ぎない。実施形態は、本開示の目的を達成できれば、設計等に応じて種々の変更が可能である。 Hereinafter, preferred embodiments of the present disclosure will be described in detail with reference to the drawings. Elements common to each other in the embodiments described below are denoted by the same reference numerals, and redundant description of the common elements is omitted. The following embodiment is but one of various embodiments of the present disclosure. The embodiments can be modified in various ways according to design and the like as long as the object of the present disclosure can be achieved.
 (実施形態1)
 (1)概要
 まず、実施形態1に係る警報連携システム10の概要について図1及び図2を参照して説明する。
(Embodiment 1)
(1) Overview First, an overview of the alarm cooperation system 10 according to the first embodiment will be described with reference to FIGS. 1 and 2. FIG.
 図1に示すように、実施形態1に係る警報連携システム10は、複数(図1の例では3つ)の警報システム1を備える。具体的には、実施形態1に係る警報連携システム10は、第1警報システム1aと、第2警報システム1bと、第3警報システム1cと、を備える。第1警報システム1a、第2警報システム1b、及び第3警報システム1cの各々は、施設での火災を感知する警報システム1である。実施形態1の第1警報システム1aは第1施設100に設けられている。また、第2警報システム1bは第2施設200に設けられ、第3警報システム1cは第3施設300に設けられている。 As shown in FIG. 1, the alarm cooperation system 10 according to the first embodiment includes a plurality of (three in the example of FIG. 1) alarm systems 1. Specifically, the alarm cooperation system 10 according to Embodiment 1 includes a first alarm system 1a, a second alarm system 1b, and a third alarm system 1c. Each of the first alarm system 1a, the second alarm system 1b, and the third alarm system 1c is an alarm system 1 that senses fires in facilities. A first alarm system 1a of Embodiment 1 is provided in a first facility 100 . The second alarm system 1b is installed at the second facility 200, and the third alarm system 1c is installed at the third facility 300. As shown in FIG.
 本開示でいう「施設」は、居住用途で用いられる住宅施設、並びに店舗(テナント)、オフィス、福祉施設、教育施設、病院及び工場等の非住宅施設を含む。非住宅施設には、飲食店、遊技場、ホテル、旅館、幼稚園、保育所及び公民館等も含む。実施形態1では、第1施設100、第2施設200、及び第3施設300が例えばオフィスビル等の非住宅施設である場合を例示する。なお、実施形態1では、第1施設100、第2施設200、及び第3施設300が互いに近隣に位置している場合を例示する。本開示でいう「近隣」は、警報システム1が無線通信方式にて、当該無線通信方式で形成されるネットワークとは異なる例えばインターネット等の他のネットワークを介さずに、火災情報を送信可能な範囲である。また、「近隣」は、ある施設で火災が発生した場合に、火が燃え移る可能性のある範囲、及び、火災によって発生した煙又は灰が届く可能性のある範囲を含み得る。 "Facilities" as used in this disclosure include residential facilities used for residential purposes, as well as non-residential facilities such as stores (tenants), offices, welfare facilities, educational facilities, hospitals and factories. Non-residential facilities include restaurants, playgrounds, hotels, Japanese inns, kindergartens, nursery schools and public halls. In the first embodiment, the first facility 100, the second facility 200, and the third facility 300 are non-residential facilities such as office buildings. In addition, in Embodiment 1, the case where the 1st facility 100, the 2nd facility 200, and the 3rd facility 300 are mutually located near is illustrated. The "neighborhood" referred to in the present disclosure is a range in which the alarm system 1 can transmit fire information by wireless communication without going through another network such as the Internet, which is different from the network formed by the wireless communication method. is. Also, "neighborhood" may include the extent to which fire may spread and the extent to which smoke or ash generated by the fire may reach if a fire breaks out at a facility.
 図1に示すように、第1警報システム1aは、複数の第1感知器4aを備える。複数の第1感知器4aは、非住宅である第1施設100(施設)に設置され、第1施設100(施設)での火災を感知する警報器等の感知器4である。なお、以下の説明において、複数の第1感知器4aの各々を「第1感知器4a」ということがある。 As shown in FIG. 1, the first alarm system 1a includes a plurality of first sensors 4a. The plurality of first sensors 4a are installed in a non-residential first facility 100 (facility), and are sensors 4 such as alarms that detect a fire in the first facility 100 (facility). In the following description, each of the plurality of first sensors 4a may be referred to as "first sensor 4a".
 また、第2警報システム1b(外部システム)は、複数の第2感知器4cを備える。複数の第2感知器4cは、第1施設100とは別の第2施設200(施設)に設置され、第2施設200(施設)での火災を感知する警報器等の感知器4である。なお、以下の説明において、複数の第2感知器4cの各々を「第2感知器4c」ということがある。 Also, the second alarm system 1b (external system) includes a plurality of second sensors 4c. The plurality of second sensors 4c are installed in a second facility 200 (facility) different from the first facility 100, and are sensors 4 such as alarms that detect fire in the second facility 200 (facility). . In the following description, each of the plurality of second sensors 4c may be referred to as "second sensor 4c".
 図2に示すように、第1警報システム1aは、外部通信部52(第1外部通信部)を備える。外部通信部52は、第1感知器4aが感知した火災に関する火災情報を、他の警報システム1(外部システム)である第2警報システム1bへ、インターネット等の他のネットワークを介さずに送信する。つまり、第1警報システム1aは、有線通信又は無線通信の適宜の通信方式によって第1警報システム1aと第2警報システム1bとの間に形成されたネットワークとは異なるインターネット等の他のネットワークを介さずに、火災情報を第2警報システム1bに送信する。 As shown in FIG. 2, the first alarm system 1a includes an external communication section 52 (first external communication section). The external communication unit 52 transmits fire information about the fire detected by the first sensor 4a to the second alarm system 1b, which is another alarm system 1 (external system), without going through another network such as the Internet. . That is, the first alarm system 1a communicates via a network other than the network formed between the first alarm system 1a and the second alarm system 1b, such as the Internet, by an appropriate communication method such as wired communication or wireless communication. Instead, the fire information is transmitted to the second alarm system 1b.
 本開示でいう「火災情報」は、火災が発生した施設に関する施設情報と、火災の規模に関する規模情報と、風向き及び湿度等の気象に関する気象情報と、を含み得る。 The "fire information" referred to in this disclosure may include facility information regarding the facility where the fire occurred, scale information regarding the scale of the fire, and weather information regarding weather such as wind direction and humidity.
 また、実施形態1の第2警報システム1bは、第1警報システム1aと同様の構成である。すなわち、第2警報システム1bは、外部通信部52(第2外部通信部)を備える。外部通信部52は、第1感知器4aが感知した火災に関する火災情報を、外部システムである第1警報システム1aから他のネットワークを介さずに受信する。 Also, the second alarm system 1b of Embodiment 1 has the same configuration as the first alarm system 1a. That is, the second alarm system 1b includes an external communication section 52 (second external communication section). The external communication unit 52 receives fire information related to the fire detected by the first sensor 4a from the first alarm system 1a, which is an external system, without going through another network.
 実施形態1の警報連携システム10によれば、第1施設100の近隣にある第2施設200に設けられている第2警報システム1bに対して第1警報システム1aが火災情報を送信することで、火災発生現場の近隣(第2施設200)における被害を低減させることができる。また、第1警報システム1aは、インターネット等の他のネットワークを介さず直接的に火災情報を第2警報システム1bへ送信するため、他のネットワークにおける通信障害の影響を受けにくいという利点がある。すなわち、第1警報システム1aは、第2警報システム1bに対して迅速に送信したい火災情報を、より確実に第2警報システム1bへ送信することができる。また、第2警報システム1bは、例えば第1施設100において発生した火災に関する報知を行うことで、第2施設200における被害を低減させることができる。 According to the alarm cooperation system 10 of Embodiment 1, the first alarm system 1a transmits fire information to the second alarm system 1b provided in the second facility 200 in the vicinity of the first facility 100. , damage in the vicinity of the fire site (second facility 200) can be reduced. In addition, since the first alarm system 1a directly transmits fire information to the second alarm system 1b without going through another network such as the Internet, there is an advantage that it is less susceptible to communication failures in other networks. That is, the first alarm system 1a can more reliably transmit fire information to the second alarm system 1b to be transmitted quickly to the second alarm system 1b. In addition, the second alarm system 1b can reduce damage in the second facility 200 by reporting a fire that has occurred in the first facility 100, for example.
 (2)詳細
 次に、実施形態1に係る警報連携システム10の詳細について図1~図3を参照して説明する。
(2) Details Next, details of the alarm cooperation system 10 according to the first embodiment will be described with reference to FIGS. 1 to 3. FIG.
 (2.1)警報連携システム
 図1に示すように、警報連携システム10は、第1警報システム1aと、第2警報システム1bと、第3警報システム1cと、を備える。
(2.1) Alarm Cooperation System As shown in FIG. 1, the alarm cooperation system 10 includes a first alarm system 1a, a second alarm system 1b, and a third alarm system 1c.
 (2.2)第1警報システム
 実施形態1に係る第1警報システム1aは、第1施設100内に設けられている。第1警報システム1aは、複数の第1感知器4aと、複数の第1感知器4bと、第1親機5aと、第1受信機6aと、第1中継器7aと、を備える。
(2.2) First Alarm System The first alarm system 1a according to Embodiment 1 is provided in the first facility 100. As shown in FIG. The first alarm system 1a includes a plurality of first sensors 4a, a plurality of first sensors 4b, a first parent device 5a, a first receiver 6a, and a first repeater 7a.
 なお、以下の説明において、複数の第1感知器4bの各々を「第1感知器4b」ということがある。また、第1感知器4a又は第1感知器4bのことを単に「感知器4」ということがある。また、第1親機5aのことを単に「親機5」ということがある。また、第1受信機6aのことを単に「受信機6」ということがある。また、第1中継器7aのことを単に「中継器7」ということがある。 In addition, in the following description, each of the plurality of first sensors 4b may be referred to as "first sensor 4b". Also, the first sensor 4a or the first sensor 4b may be simply referred to as the "sensor 4". Also, the first parent device 5a may be simply referred to as the "parent device 5". Also, the first receiver 6a may be simply referred to as "receiver 6". Also, the first repeater 7a may be simply referred to as the "repeater 7".
 (2.2.1)感知器
 第1感知器4a及び第1感知器4bは、第1警報システム1aが備える感知器4である。例えば、感知器4は火災検知である。すなわち、第1感知器4a及び第1感知器4bは、第1施設100での火災を感知する。実施形態1の第1感知器4a及び第1感知器4bは、第1親機5aの子機として機能する。第1感知器4aは、Wi-Fi(登録商標)、Bluetooth(登録商標)、ZigBee(登録商標)又は免許を必要としない小電力無線(特定小電力無線)等の規格に準拠した無線通信方式にて、第1親機5aと通信を行う。一方で、第1感知器4bは、有線で第1親機5aと接続されており、有線通信方式にて、第1親機5aと通信を行う。なお、第1感知器4bは、有線で第1受信機6aと接続されることで、有線通信方式にて、第1受信機6aと通信可能に構成されていてもよい。
(2.2.1) Sensor The first sensor 4a and the first sensor 4b are the sensors 4 provided in the first alarm system 1a. For example, sensor 4 is fire detection. That is, the first sensor 4 a and the first sensor 4 b detect fire in the first facility 100 . The first sensor 4a and the first sensor 4b of the first embodiment function as child devices of the first parent device 5a. The first sensor 4a is a wireless communication system that conforms to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio that does not require a license (specified low-power radio). , to communicate with the first base unit 5a. On the other hand, the first sensor 4b is connected to the first base unit 5a by wire, and communicates with the first base unit 5a by the wired communication method. Note that the first sensor 4b may be connected to the first receiver 6a by wire so that it can communicate with the first receiver 6a by a wired communication method.
 図2に示すように、感知器4は、通信部41と、制御部42と、感知部43と、報知部44と、を有する。 As shown in FIG. 2, the sensor 4 has a communication section 41, a control section 42, a sensing section 43, and a notification section 44.
 感知器4は、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部42として機能する。つまり、制御部42は、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The sensor 4 comprises, for example, a microcomputer with a processor and memory. The computer system functions as the controller 42 by the processor executing appropriate programs. That is, the control unit 42 is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部41は、親機5等の他の機器と通信可能に構成された通信インタフェースを含む。なお、本開示でいう「通信可能」とは、有線通信又は無線通信の適宜の通信方式により、直接的、又はネットワーク若しくは中継器等を介して間接的に、情報を授受できることを意味する。 The communication unit 41 includes a communication interface configured to be able to communicate with other devices such as the parent device 5. The term “communicable” as used in the present disclosure means that information can be exchanged directly or indirectly via a network, a repeater, or the like, using an appropriate communication method such as wired communication or wireless communication.
 第1感知器4aの通信部41は、無線通信方式にて直接的に、親機5と通信可能である。さらに、第1感知器4aの通信部41は、無線通信方式にて中継器7を介して間接的に、親機5と通信可能である。 The communication unit 41 of the first sensor 4a can directly communicate with the base unit 5 by wireless communication. Further, the communication unit 41 of the first sensor 4a can indirectly communicate with the base unit 5 via the repeater 7 by wireless communication.
 第1感知器4bの通信部41は、有線通信方式にて直接的に、親機5と通信可能である。さらに、第1感知器4bの通信部41は、有線通信方式にて、第1感知器4b等の他の機器を介して間接的に、親機5と通信可能である。 The communication unit 41 of the first sensor 4b can directly communicate with the parent device 5 by a wired communication method. Furthermore, the communication unit 41 of the first sensor 4b can indirectly communicate with the main unit 5 via other devices such as the first sensor 4b by a wired communication method.
 なお、第1感知器4bの通信部41は、有線通信方式にて、直接的に、受信機6と通信可能に構成されていてもよい。さらに、第1感知器4bの通信部41は、有線通信方式にて、第1感知器4b等の他の機器を介して間接的に、受信機6と通信可能に構成されていてもよい。 Note that the communication unit 41 of the first sensor 4b may be configured to be able to directly communicate with the receiver 6 using a wired communication method. Furthermore, the communication unit 41 of the first sensor 4b may be configured to communicate with the receiver 6 indirectly via another device such as the first sensor 4b in a wired communication system.
 通信部41は、感知部43の感知結果を自機の識別子を示す情報と共に親機5へ送信する。また、通信部41は、親機5から報知指示を受信する。なお、第1感知器4bの通信部41は、感知部43の感知結果を自機の識別子を示す情報と共に受信機6へ送信するように構成されていてもよい。 The communication unit 41 transmits the sensing result of the sensing unit 43 to the base unit 5 together with the information indicating the identifier of the own unit. Communication unit 41 also receives a notification instruction from master device 5 . Note that the communication unit 41 of the first sensor 4b may be configured to transmit the sensing result of the sensing unit 43 to the receiver 6 together with information indicating its own identifier.
 感知部43は、火災を感知する機能(感知機能)を有する。ここでは、感知部43は、一例として、煙を感知する光電式のセンサである。感知部43は、例えば、LED(Light Emitting Diode)等の発光部と、フォトダイオード等の受光部とを備える。 The sensing unit 43 has a function of sensing fire (sensing function). Here, the sensing unit 43 is, for example, a photoelectric sensor that senses smoke. The sensing unit 43 includes, for example, a light emitting unit such as an LED (Light Emitting Diode) and a light receiving unit such as a photodiode.
 発光部及び受光部は、自機の筐体のラビリンス内において、受光部の受光面が、発光部の照射光の光軸上から外れるように配置されている。火災の発生時には、煙が筐体に設けられた孔を通じて、ラビリンス内に導入され得る。 The light-emitting part and the light-receiving part are arranged in the labyrinth of the housing of the machine so that the light-receiving surface of the light-receiving part is off the optical axis of the light emitted from the light-emitting part. In the event of a fire, smoke can be introduced into the labyrinth through holes provided in the housing.
 筐体のラビリンス内に煙が存在しない場合、発光部の照射光は、受光部の受光面にほとんど到達しない。一方、筐体のラビリンス内に煙が存在する場合、発光部の照射光が煙によって散乱し、散乱した光の一部が受光部の受光面に到達する。つまり、感知部43は、煙によって散乱された発光部の照射光を受光部で受光する。 When there is no smoke in the labyrinth of the housing, the light emitted from the light emitting part hardly reaches the light receiving surface of the light receiving part. On the other hand, when smoke exists in the labyrinth of the housing, the light emitted from the light emitting unit is scattered by the smoke, and part of the scattered light reaches the light receiving surface of the light receiving unit. In other words, the sensing section 43 receives the irradiation light of the light emitting section scattered by the smoke at the light receiving section.
 感知部43は、受光部で受光された光量に応じた電圧レベルを示す電気信号(感知結果)を制御部に出力する。 The sensing unit 43 outputs an electric signal (sensing result) indicating a voltage level corresponding to the amount of light received by the light receiving unit to the control unit.
 報知部44は、火災の発生を報知する機能(報知機能)を有する。実施形態1に係る報知部44は、LED等の発光部とスピーカとを有しており、制御部42からの指示に基づいて、光及び音で報知を行う。 The notification unit 44 has a function of notifying the occurrence of a fire (notification function). The notification unit 44 according to the first embodiment has a light emitting unit such as an LED and a speaker, and performs notification with light and sound based on instructions from the control unit 42 .
 制御部42は、通信部41及び報知部44の制御を行う。制御部42は、感知部43による火災の感知結果を親機5へ送信するように、通信部41を制御する。また、制御部42は、親機5から受信した報知指示に基づいて、報知部44が報知を行うように、報知部44を制御する。なお、第1感知器4bの制御部42は、感知部43による火災の感知結果を受信機6へ送信するように、通信部41を制御してもよい。また、第1感知器4bの制御部42は、受信機6から受信した報知指示に基づいて、報知部44が報知を行うように、報知部44を制御してもよい。 The control unit 42 controls the communication unit 41 and the notification unit 44. The control unit 42 controls the communication unit 41 so as to transmit the result of fire detection by the sensing unit 43 to the master device 5 . Further, the control unit 42 controls the notification unit 44 so that the notification unit 44 performs notification based on the notification instruction received from the master device 5 . Note that the control unit 42 of the first sensor 4 b may control the communication unit 41 so that the detection result of the fire by the sensing unit 43 is transmitted to the receiver 6 . Also, the control unit 42 of the first sensor 4b may control the notification unit 44 so that the notification unit 44 performs notification based on the notification instruction received from the receiver 6 .
 (2.2.2)親機
 第1親機5aは、第1警報システム1aが備える親機5である。親機5は、感知器4から受信した感知結果を、受信機6へ送信する。
(2.2.2) Master Device The first master device 5a is the master device 5 included in the first alarm system 1a. Master device 5 transmits the sensing result received from sensor 4 to receiver 6 .
 親機5は、通信部51と、外部通信部52(第1外部通信部)と、制御部53と、記憶部54と、を有する。 The master device 5 has a communication unit 51, an external communication unit 52 (first external communication unit), a control unit 53, and a storage unit 54.
 親機5は、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部53として機能する。つまり、制御部53は、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The parent device 5 includes, for example, a microcomputer having a processor and memory. The computer system functions as the controller 53 by the processor executing appropriate programs. That is, the control unit 53 is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部51は、感知器4、受信機6、及び中継器7と通信可能に構成された通信インタフェースを含む。 The communication unit 51 includes a communication interface configured to communicate with the sensor 4, the receiver 6, and the repeater 7.
 通信部51は、感知器4から、直接的に、又は、中継器7を介して間接的に感知結果を受信する。また、通信部51は、感知器4から受信した感知結果を、受信機6へ送信する。通信部51は、受信機6から報知指示を受信する。また、通信部51は、受信機6から受信した報知指示を、感知器4へ送信する。 The communication unit 51 receives sensing results from the sensor 4 directly or indirectly via the relay 7 . The communication unit 51 also transmits the sensing result received from the sensor 4 to the receiver 6 . The communication unit 51 receives notification instructions from the receiver 6 . Also, the communication unit 51 transmits the notification instruction received from the receiver 6 to the sensor 4 .
 外部通信部52は、複数の他の施設にそれぞれ設けられた複数の警報システム1(外部システム)と、他のネットワークを介さずに通信可能に構成されている。第1警報システム1aの外部通信部52は、第2施設200に設けられている第2警報システム1b及び第3施設300に設けられている第3警報システム1cと通信可能に構成されている。外部通信部52は、送信部521と、受信部522と、を有する。 The external communication unit 52 is configured to be able to communicate with a plurality of alarm systems 1 (external systems) installed in a plurality of other facilities without going through another network. The external communication unit 52 of the first alarm system 1a is configured to be able to communicate with the second alarm system 1b provided at the second facility 200 and the third alarm system 1c provided at the third facility 300. The external communication section 52 has a transmitting section 521 and a receiving section 522 .
 送信部521は、Wi-Fi(登録商標)、Bluetooth(登録商標)、ZigBee(登録商標)又は免許を必要としない小電力無線(特定小電力無線)等の規格に準拠した無線通信方式にて、当該無線通信方式で形成されるネットワークとは異なる例えばインターネット等の他のネットワークを介さずに、火災情報を他の警報システム1(外部システム)へ送信する。 The transmission unit 521 uses a wireless communication method that complies with standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio that does not require a license (specified low-power radio). , fire information is transmitted to another alarm system 1 (external system) without going through another network such as the Internet, which is different from the network formed by the wireless communication system.
 第1警報システム1aの送信部521は、第1感知器4a(4b)が感知した火災に関する火災情報を、第2警報システム1b及び第3警報システム1cの少なくとも一方(外部システム)へ、他のネットワークを介さずに送信する機能を有する。また、送信部521は、受信部522が外部システムから受信した火災情報を、他のネットワークを介さずに別の外部システムへ送信する。例えば第1警報システム1aの送信部521は、受信部522が第2感知器4c(4d)を備える第2警報システム1bから受信した火災情報を、第2感知器4c(4d)を備える第2警報システム1bとは別の第3警報システム1cへ他のネットワークを介さずに送信する。また、第1警報システム1aの送信部521は、受信部522が第3警報システム1cから受信した火災情報を、第2警報システム1bへ送信する。 The transmission unit 521 of the first alarm system 1a transmits fire information about the fire detected by the first sensor 4a (4b) to at least one of the second alarm system 1b and the third alarm system 1c (external system), to other It has a function to transmit without going through the network. In addition, the transmitter 521 transmits the fire information received by the receiver 522 from the external system to another external system without going through another network. For example, the transmitter 521 of the first alarm system 1a transmits the fire information received by the receiver 522 from the second alarm system 1b having the second sensor 4c (4d) to the second alarm system 1b having the second sensor 4c (4d). It transmits to the 3rd alarm system 1c different from the alarm system 1b without passing through another network. Moreover, the transmission part 521 of the 1st alarm system 1a transmits the fire information which the receiving part 522 received from the 3rd alarm system 1c to the 2nd alarm system 1b.
 また、実施形態1に係る送信部521は、受信機6が有する後述する推定部621の推定結果に基づいて、他の警報システム1(外部システム)へ、他のネットワークを介さずに火災情報を送信する。 Further, the transmission unit 521 according to the first embodiment transmits fire information to another alarm system 1 (external system) without going through another network based on the estimation result of the estimation unit 621, which will be described later, which the receiver 6 has. Send.
 実施形態1の第1警報システム1aは、他の警報システム1(第2警報システム1b)から受信した火災情報を、更に別の警報システム1(第3警報システム1c)へ送信することで、第1施設100の近隣(第3施設300)における被害を低減させることができる。また、第1警報システム1aでは、受信機6と通信可能に構成された親機5が外部通信部52を有しているため、火災情報を他の警報システム1に対して、安定かつ迅速に送信することができる。 The first alarm system 1a of Embodiment 1 transmits fire information received from another alarm system 1 (second alarm system 1b) to yet another alarm system 1 (third alarm system 1c), Damage in the vicinity of one facility 100 (third facility 300) can be reduced. In addition, in the first alarm system 1a, since the base unit 5 configured to be able to communicate with the receiver 6 has the external communication unit 52, the fire information can be sent to the other alarm system 1 stably and quickly. can be sent.
 受信部522は、他の警報システム1に含まれる感知器4が感知した火災に関する火災情報を、他の警報システム1から他のネットワークを介さずに受信する。受信部522は、Wi-Fi(登録商標)、Bluetooth(登録商標)、ZigBee(登録商標)又は免許を必要としない小電力無線(特定小電力無線)等の規格に準拠した無線通信方式にて、当該無線通信方式で形成されるネットワークとは異なる例えばインターネット等の他のネットワークを介さずに、火災情報を他の警報システム1から受信する。 The receiving unit 522 receives fire information related to fires detected by the sensors 4 included in the other alarm system 1 from the other alarm system 1 without going through another network. The receiving unit 522 uses a wireless communication method that conforms to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio (specified low-power radio) that does not require a license. , fire information is received from another alarm system 1 without going through another network such as the Internet, which is different from the network formed by the wireless communication system.
 例えば、第1警報システム1aの受信部522は、第2感知器4c(4d)が感知した火災に関する情報を、第2感知器4c(4d)を備える第2警報システム1bから他のネットワークを介さずに受信する。また、第1警報システム1aの受信部522は、第2感知器4c(4d)が感知した火災に関する情報を、第3警報システム1cから他のネットワークを介さずに受信してもよい。 For example, the receiving unit 522 of the first alarm system 1a receives information about the fire detected by the second sensor 4c (4d) from the second alarm system 1b including the second sensor 4c (4d) via another network. receive without Further, the receiving unit 522 of the first alarm system 1a may receive the information about the fire detected by the second sensor 4c (4d) from the third alarm system 1c without going through another network.
 記憶部54は、ROM(Read Only Memory)、RAM(Random Access Memory)、又はEEPROM(Electrically Erasable Programmable Read Only Memory)等の半導体メモリである。なお、記憶部54は、半導体メモリに限らず、ハードディスクドライブ等であってもよい。 The storage unit 54 is a semiconductor memory such as ROM (Read Only Memory), RAM (Random Access Memory), or EEPROM (Electrically Erasable Programmable Read Only Memory). Note that the storage unit 54 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
 記憶部54は、外部通信部52(送信部521)が火災情報を送信する対象となる他の警報システム1(外部システム)の送信先情報を記憶している。記憶部54が送信先情報を記憶していることで、外部通信部52は、あらかじめ登録された警報システム1を送信先として、火災情報を送信することができる。また、記憶部54は、警報システム1に含まれる複数の感知器4の各々の識別子を記憶している。なお、外部通信部52は、あらかじめ登録された警報システム1を送信先とせず、周辺の複数の警報システム1に対してランダムに火災情報を発信する方法を採用してもよい。 The storage unit 54 stores transmission destination information of another alarm system 1 (external system) to which the external communication unit 52 (transmitting unit 521) transmits fire information. Since the storage unit 54 stores the transmission destination information, the external communication unit 52 can transmit the fire information to the pre-registered alarm system 1 as the transmission destination. The storage unit 54 also stores identifiers of each of the multiple sensors 4 included in the alarm system 1 . It should be noted that the external communication unit 52 may employ a method of transmitting fire information randomly to a plurality of nearby alarm systems 1 without using the pre-registered alarm system 1 as a transmission destination.
 制御部53は、通信部51の制御を行う。制御部53は、感知器4から受信した感知結果を受信機6へ送信するように、通信部51を制御する。また、制御部53は、受信機6から受信した報知指示を子機である感知器4へ送信するように、通信部51を制御する。また、制御部53は、他の警報システム1(外部システム)から受信した火災情報を受信機6へ送信するように、通信部51を制御する。 The control unit 53 controls the communication unit 51. The control section 53 controls the communication section 51 so as to transmit the sensing result received from the sensor 4 to the receiver 6 . Further, the control unit 53 controls the communication unit 51 so as to transmit the notification instruction received from the receiver 6 to the sensor 4, which is a child unit. Also, the control unit 53 controls the communication unit 51 so as to transmit fire information received from another alarm system 1 (external system) to the receiver 6 .
 制御部53は、外部通信部52の制御を行う。制御部53は、受信機6からの通信指示に基づいて、感知器4が感知した火災情報を他の警報システム1(外部システム)へ送信するように、外部通信部52を制御する。また、制御部53は、受信機6からの通信指示に基づいて、他の警報システム1(例えば第2警報システム1b)から受信した火災情報を別の他の警報システム1(例えば第3警報システム1c)へ送信するように、外部通信部52を制御する。 The control unit 53 controls the external communication unit 52. Based on the communication instruction from the receiver 6, the control unit 53 controls the external communication unit 52 so as to transmit fire information detected by the sensor 4 to another alarm system 1 (external system). In addition, based on the communication instruction from the receiver 6, the control unit 53 sends fire information received from another alarm system 1 (for example, the second alarm system 1b) to another alarm system 1 (for example, the third alarm system). 1c), the external communication unit 52 is controlled.
 (2.2.3)中継器
 第1中継器7aは、第1警報システム1aが備える中継器7である。実施形態1の第1中継器7aは、複数の第1感知器4a及び親機5と、無線通信方式にて通信可能に構成された通信インタフェースを含む。第1中継器7aは、複数の第1感知器4a間の通信の中継を行う。また、第1中継器7aは、第1感知器4aと親機5との間の通信の中継を行う。
(2.2.3) Repeater The first repeater 7a is the repeater 7 included in the first alarm system 1a. The first repeater 7a of the first embodiment includes a communication interface configured to be able to communicate with the plurality of first sensors 4a and the parent device 5 by wireless communication. The first relay 7a relays communication between the plurality of first sensors 4a. Further, the first relay 7a relays communication between the first sensor 4a and the base unit 5. FIG.
 (2.2.4)受信機
 第1受信機6aは、第1警報システム1aが備える受信機6である。受信機6は、自身を含む警報システム1内の感知器4が感知した火災の感知結果を受信する。例えば、第1受信機6aは、第1感知器4a(4b)が感知した火災の感知結果を受信する。実施形態1の受信機6は、警報システム1における制御装置として機能する。
(2.2.4) Receiver The first receiver 6a is the receiver 6 provided in the first warning system 1a. The receiver 6 receives detection results of fires detected by the detectors 4 in the alarm system 1 including itself. For example, the first receiver 6a receives the detection result of the fire detected by the first sensor 4a (4b). The receiver 6 of Embodiment 1 functions as a control device in the alarm system 1 .
 受信機6は、通信部61と、制御部62と、記憶部63と、表示部64と、操作部65と、を有する。 The receiver 6 has a communication section 61 , a control section 62 , a storage section 63 , a display section 64 and an operation section 65 .
 受信機6は、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部62として機能する。つまり、制御部62は、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The receiver 6 comprises, for example, a microcomputer having a processor and memory. The computer system functions as the controller 62 by the processor executing appropriate programs. That is, the control unit 62 is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部61は、親機5と通信可能に構成された通信インタフェースを含む。また、通信部61は、有線で接続する第1感知器4bと通信可能に構成されていてもよい。 The communication unit 61 includes a communication interface configured to be able to communicate with the parent device 5. Also, the communication unit 61 may be configured to communicate with the first sensor 4b connected by wire.
 記憶部63は、ROM、RAM、又はEEPROM等の半導体メモリである。なお、記憶部63は、半導体メモリに限らず、ハードディスクドライブ等であってもよい。 The storage unit 63 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 63 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
 実施形態1の記憶部63は、警報システム1が設置される施設の地図情報、及び、警報システム1が設置される施設の近隣の地図情報を記憶している。施設の地図情報には、複数の感知器4の各々の設置場所の情報が含まれている。また、記憶部63は、警報システム1に含まれる複数の感知器4の各々の識別子を記憶している。 The storage unit 63 of Embodiment 1 stores map information of the facility where the alarm system 1 is installed and map information of the vicinity of the facility where the alarm system 1 is installed. The facility map information includes information on the installation location of each of the plurality of sensors 4 . The storage unit 63 also stores identifiers of each of the multiple sensors 4 included in the alarm system 1 .
 表示部64は、例えば液晶パネルディスプレイ等の表示装置を有する。表示部64は、種々の表示が可能である。表示部64は、例えば、受信機6に感知結果を送信した感知器4が設置されている場所の情報、報知指示の送信先となる感知器4を選択するための情報、感知器4が最初に火災を感知したときからの経過時間の情報等を表示することができる。また、表示部64は、親機5が有する外部通信部52が受信した火災情報に関する情報を表示することができる。 The display unit 64 has a display device such as a liquid crystal panel display. The display unit 64 is capable of various displays. The display unit 64 displays, for example, information on the location where the sensor 4 that has transmitted the sensing result to the receiver 6 is installed, information for selecting the sensor 4 to which the notification instruction is to be sent, and the sensor 4 first. Information such as the elapsed time since the fire was detected can be displayed. In addition, the display unit 64 can display information related to fire information received by the external communication unit 52 of the master device 5 .
 操作部65は、警報システム1の各種の設定、報知指示の送信先となる感知器4の選択等のユーザによる操作入力を受け付ける。本開示では、ユーザが施設の管理人である場合を想定する。実施形態1の受信機6は、例えば、表示部64と操作部65とを含む操作表示装置として、タッチパネル式液晶ディスプレイを備える。操作表示装置は、ユーザインターフェイス(GUI:Graphic User Interface)として機能する。 The operation unit 65 accepts user operation inputs such as various settings of the alarm system 1 and selection of the sensor 4 to which the notification instruction is to be sent. This disclosure assumes that the user is the manager of the facility. The receiver 6 of Embodiment 1 includes, for example, a touch panel liquid crystal display as an operation display device including a display section 64 and an operation section 65 . The operation display device functions as a user interface (GUI: Graphic User Interface).
 制御部62は、通信部61、表示部64、及び操作部65の制御を行う。例えば、制御部62は、操作部65が受け付けた操作入力に基づく報知指示を親機5へ送信するように、通信部61を制御する。なお、制御部62は、操作部65が受け付けた操作入力に基づく報知指示を第1感知器4bへ送信するように、通信部61を制御してもよい。 The control unit 62 controls the communication unit 61, the display unit 64, and the operation unit 65. For example, the control unit 62 controls the communication unit 61 so as to transmit a notification instruction based on the operation input received by the operation unit 65 to the master device 5 . Note that the control unit 62 may control the communication unit 61 so as to transmit the notification instruction based on the operation input received by the operation unit 65 to the first sensor 4b.
 また、実施形態1の制御部62は、推定部621と、決定部622と、を有する。 Also, the control unit 62 of the first embodiment has an estimating unit 621 and a determining unit 622 .
 推定部621は、自身を含む警報システム1内の感知器4が感知した火災の感知結果に基づいて、火災の状況を推定する推定処理を行う。例えば、第1警報システム1aに含まれる推定部621は、第1感知器4a(4b)が感知した火災の感知結果に基づいて、第1施設100で発生した火災の状況を推定する。また、推定部621は、感知器4から出力される感知結果に加えて、例えば現在の天気に関する気象データ及び将来の天気に関する予報データを提供する気象サービスを行う事業者のサーバから取得可能な気象情報に基づいて、火災の状況を推定してもよい。気象情報は、火災が発生している施設を含む地域の現在及び将来の天気(気温、湿度、降雨、風向、風力等)に関する情報を含み得る。 The estimating unit 621 performs an estimating process of estimating the fire situation based on the fire detection result detected by the sensor 4 in the alarm system 1 including itself. For example, the estimating unit 621 included in the first alarm system 1a estimates the situation of a fire that has occurred in the first facility 100 based on the fire detection result detected by the first sensor 4a (4b). In addition to the sensing result output from the sensor 4, the estimating unit 621 also includes, for example, meteorological data on the current weather and forecast data on the future weather that can be obtained from a server of a weather service provider. Based on the information, the fire situation may be estimated. Weather information may include information about current and future weather (temperature, humidity, rainfall, wind direction, wind force, etc.) in the area that contains the facility on fire.
 推定部621は、通信部61が受信した感知結果の数、感知結果を送信した感知器4の設置場所、感知器4が最初に火災を感知したときからの経過時間、感知器4が感知している煙の濃度(電圧レベルの大きさ)等に基づいて、火災の状況を推定する。推定部621は、火災の状況の推定結果を、決定部622に出力する。 The estimating unit 621 calculates the number of detection results received by the communication unit 61, the installation location of the sensor 4 that transmitted the detection result, the elapsed time since the sensor 4 first detected a fire, and the number of fires detected by the sensor 4. Based on the density of smoke (magnitude of voltage level), etc., the situation of the fire is estimated. The estimating unit 621 outputs the result of estimating the fire situation to the determining unit 622 .
 決定部622は、火災情報に関する決定を行う。決定部622は、推定部621の推定結果に基づいて、火災情報を生成する。上述のように、火災情報は、火災が発生した施設に関する施設情報と、火災の規模に関する規模情報と、気象情報と、を含み得る。 The decision unit 622 makes decisions regarding fire information. The determining unit 622 generates fire information based on the estimation results of the estimating unit 621 . As described above, the fire information may include facility information regarding the facility where the fire occurred, scale information regarding the scale of the fire, and weather information.
 施設情報は、火災が発生した施設の住所等を含む施設の場所に関する情報、火災が発生した部屋・フロア等の施設内における火災発生現場に関する情報、施設の種類(種別)及び名称等に関する情報、消防法上の危険物の保存(保管)に関する情報等を含み得る。 Facility information includes information on the location of the facility including the address of the facility where the fire broke out, information on the location of the fire within the facility such as the room and floor where the fire broke out, information on the type (type) and name of the facility, etc. It may include information on the preservation (storage) of hazardous materials under the Fire Service Act.
 決定部622は、推定部621の推定結果に基づいて生成した火災情報を他の警報システム1(外部システム)に対して送信させる送信指示を親機5へ送信するように、通信部61を制御する。推定部621の推定結果は、火災の感知結果に基づいている。言い換えると、受信機6は、火災の感知結果に基づいて、火災情報を外部通信部52から送信させる。実施形態1では、送信指示は火災情報を含んでいる。親機5が送信指示を受信すると、親機5の外部通信部52は、推定部621の推定結果に基づく火災情報を、外部システムへ送信する。 The determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information generated based on the estimation result of the estimation unit 621 to another alarm system 1 (external system). do. The estimation result of the estimation unit 621 is based on the fire detection result. In other words, the receiver 6 causes the external communication unit 52 to transmit fire information based on the fire detection result. In Embodiment 1, the transmission instruction includes fire information. When master device 5 receives the transmission instruction, external communication unit 52 of master device 5 transmits fire information based on the estimation result of estimation unit 621 to the external system.
 実施形態1の警報システム1によれば、感知器4から感知結果を受信する受信機6の指示に基づいて火災情報が送信されるため、例えば火災情報の誤送信を低減することができる。推定部621の推定結果に基づいて生成された火災情報を外部システムへ送信することで、例えば火災の規模等の火災の状況を外部システムに知らせることができる。 According to the alarm system 1 of Embodiment 1, fire information is transmitted based on instructions from the receiver 6 that receives sensing results from the sensor 4, so erroneous transmission of fire information, for example, can be reduced. By transmitting the fire information generated based on the estimation result of the estimation unit 621 to the external system, it is possible to inform the external system of the situation of the fire such as the scale of the fire.
 規模情報は、火災が発生している範囲に関する情報、火災の発生時刻及び火災が発生してからの経過時間等に関する情報等を含み得る。 The scale information can include information about the extent of the fire, the time when the fire started, and the time elapsed since the fire started.
 決定部622は、推定部621の推定結果に基づいて、複数の外部システムのうち少なくとも1つの外部システムへ火災情報を送信することを決定する。第1警報システム1aの決定部622は、第2警報システム1b及び第3警報システム1cのうち少なくとも1つの警報システム1へ火災情報を送信することを決定する。 Based on the estimation result of the estimation unit 621, the determination unit 622 determines to transmit the fire information to at least one external system among the plurality of external systems. The determination unit 622 of the first alarm system 1a determines to transmit fire information to at least one of the second alarm system 1b and the third alarm system 1c.
 決定部622は、火災情報の送信先に決定した他の警報システム1(外部システム)に対して火災情報を送信させる送信指示を親機5へ送信するように、通信部61を制御する。親機5が送信指示を受信すると、親機5の外部通信部52は、送信指示に基づいて、複数の外部システムのうち少なくとも1つの外部システムへ火災情報を送信する。送信指示は、推定部621の推定結果に基づいている。言い換えると、親機5の外部通信部52は、推定部621の推定結果に基づいて、複数の外部システムのうち少なくとも1つの外部システムへ火災情報を送信する。 The determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information to the other alarm system 1 (external system) determined as the transmission destination of the fire information. When master device 5 receives the transmission instruction, external communication unit 52 of master device 5 transmits the fire information to at least one of the plurality of external systems based on the transmission instruction. The transmission instruction is based on the estimation result of estimation section 621 . In other words, external communication section 52 of master device 5 transmits fire information to at least one of the plurality of external systems based on the estimation result of estimation section 621 .
 実施形態1の警報システム1によれば、推定部621の推定結果に基づいて、例えば火災の影響が及ぶ可能性が高いと推定された施設に設置された他の警報システム1に対して、火災情報を送信することができる。 According to the alarm system 1 of Embodiment 1, based on the estimation result of the estimation unit 621, for example, a fire Information can be sent.
 また、決定部622は、複数の外部システムのうちの2以上の外部システムに火災情報を送信する場合に、推定部621の推定結果に基づいて、送信順序を決定する。例えば、第1警報システム1aの決定部622は、推定部621の推定結果に基づいて、第2警報システム1bの送信順序を1(最初)に決定し、第3警報システム1cの送信順序を2に決定する。 Also, the determining unit 622 determines the order of transmission based on the estimation result of the estimating unit 621 when transmitting fire information to two or more external systems out of a plurality of external systems. For example, the determination unit 622 of the first alarm system 1a determines the transmission order of the second alarm system 1b to be 1 (first) and the transmission order of the third alarm system 1c to be 2 based on the estimation result of the estimation unit 621. to decide.
 決定部622は、決定部622が決定した送信順序で火災情報の送信先に決定した警報システム1に対して火災情報を送信させる送信指示を親機5へ送信するように、通信部61を制御する。親機5が送信指示を受信すると、親機5の外部通信部52は、複数の外部システムのうちの2以上の外部システムへ火災情報を送信する場合に、送信指示に基づく順序で、2以上の外部システムに火災情報を送信する。送信指示は推定部621の推定結果に基づくものであるから、親機5の外部通信部52は、複数の外部システムのうちの2以上の外部システムへ火災情報を送信する場合に、推定部621の推定結果に基づく順序で、2以上の外部システムへ火災情報を送信する。 The determination unit 622 controls the communication unit 61 so as to transmit to the master device 5 a transmission instruction to transmit the fire information to the alarm system 1 determined as the transmission destination of the fire information in the transmission order determined by the determination unit 622. do. When the master device 5 receives the transmission instruction, the external communication unit 52 of the master device 5, when transmitting the fire information to two or more external systems out of the plurality of external systems, selects two or more in the order based on the transmission instruction. send fire information to external systems. Since the transmission instruction is based on the estimation result of the estimation unit 621, the external communication unit 52 of the master device 5 sends the fire information to two or more external systems out of the plurality of external systems. Fire information is sent to two or more external systems in an order based on the estimation results of .
 実施形態1の警報システム1によれば、推定部621の推定結果に基づいて、例えば火災の影響が及ぶ可能性が相対的に高いと推定された施設に設置された他の警報システム1に対して、優先的に火災情報を送信することができる。 According to the alarm system 1 of Embodiment 1, based on the estimation result of the estimation unit 621, for example, for other alarm systems 1 installed in facilities estimated to be affected by a fire relatively high , the fire information can be sent preferentially.
 (2.3)第2警報システム
 図1に示すように、第2警報システム1bは、第2施設200内に設けられている。
(2.3) Second Alarm System As shown in FIG. 1 , the second alarm system 1b is provided inside the second facility 200 .
 第2警報システム1bは、複数の第2感知器4cと、複数の第2感知器4dと、第2親機5bと、第2受信機6bと、第2中継器7bと、を備える。なお、以下の説明において、複数の第2感知器4cの各々を「第2感知器4c」ということがある。また、複数の第2感知器4dの各々を「第2感知器4d」ということがある。 The second alarm system 1b includes a plurality of second sensors 4c, a plurality of second sensors 4d, a second parent device 5b, a second receiver 6b, and a second repeater 7b. In the following description, each of the plurality of second sensors 4c may be referred to as "second sensor 4c". Also, each of the plurality of second sensors 4d may be referred to as "second sensor 4d".
 第2警報システム1bは警報システム1である。すなわち、第2警報システム1bが備える第2感知器4c、第2感知器4d、第2親機5b、第2受信機6b、及び第2中継器7bは、それぞれ第1警報システム1aが備える第1感知器4a、第1感知器4b、第1親機5a、第1受信機6a、及び第1中継器7aに対応する。したがって、第2警報システム1bについての詳細説明は省略する。 The second warning system 1b is the warning system 1. That is, the second sensor 4c, the second sensor 4d, the second main unit 5b, the second receiver 6b, and the second relay 7b provided in the second alarm system 1b are the first sensors provided in the first alarm system 1a, respectively. 1 sensor 4a, first sensor 4b, first base unit 5a, first receiver 6a, and first repeater 7a. Therefore, detailed description of the second alarm system 1b is omitted.
 なお、第2警報システム1bは、例えば第1警報システム1aから受信した火災情報を、第3警報システム1cに送信する。また、第2警報システム1bは、第2感知器4c(4d)で感知した火災に関する火災情報を、送信順序を決定して、第1警報システム1a及び第3警報システム1cに送信する。 The second alarm system 1b transmits, for example, fire information received from the first alarm system 1a to the third alarm system 1c. In addition, the second alarm system 1b determines the order of transmission of fire information regarding fires detected by the second detectors 4c (4d), and transmits the fire information to the first and third alarm systems 1a and 1c.
 (2.4)第3警報システム
 図1に示すように、第3警報システム1cは、第3施設300内に設けられている。
(2.4) Third Alarm System As shown in FIG. 1, the third alarm system 1c is provided in the third facility 300.
 第3警報システム1cは、複数の第3感知器4eと、複数の第3感知器4fと、第3親機5cと、第3受信機6cと、第3中継器7cと、を備える。なお、以下の説明において、複数の第3感知器4eの各々を「第3感知器4e」ということがある。また、複数の第3感知器4fの各々を「第3感知器4f」ということがある。 The third alarm system 1c includes a plurality of third sensors 4e, a plurality of third sensors 4f, a third parent device 5c, a third receiver 6c, and a third repeater 7c. In the following description, each of the plurality of third sensors 4e may be referred to as "third sensor 4e". Also, each of the plurality of third sensors 4f may be referred to as "third sensor 4f".
 第3警報システム1cは警報システム1である。すなわち、第3警報システム1cが備える第3感知器4e、第3感知器4f、第3親機5c、第3受信機6c、及び第3中継器7cは、それぞれ第1警報システム1aが備える第1感知器4a、第1感知器4b、第1親機5a、第1受信機6a、及び第1中継器7aに対応する。したがって、第3警報システム1cについての詳細説明は省略する。 The third warning system 1c is the warning system 1. That is, the third sensor 4e, the third sensor 4f, the third main unit 5c, the third receiver 6c, and the third relay 7c provided in the third alarm system 1c are the first sensors provided in the first alarm system 1a. 1 sensor 4a, first sensor 4b, first base unit 5a, first receiver 6a, and first repeater 7a. Therefore, detailed description of the third warning system 1c is omitted.
 なお、第3警報システム1cは、例えば第1警報システム1aから受信した火災情報を、第2警報システム1bに送信する。また、第3警報システム1cは、第3感知器4e(4f)で感知した火災に関する火災情報を、送信順序を決定して、第1警報システム1a及び第2警報システム1bに送信する。 It should be noted that the third alarm system 1c transmits, for example, fire information received from the first alarm system 1a to the second alarm system 1b. Also, the third alarm system 1c determines the transmission order of the fire information about the fire detected by the third sensor 4e (4f), and transmits it to the first alarm system 1a and the second alarm system 1b.
 (3)動作
 次に、実施形態1に係る警報連携システム10の動作例について、図3を参照して説明する。なお、図3では、第1警報システム1aが設置されている第1施設100において火災が発生した場合を例示している。
(3) Operation Next, an operation example of the alarm cooperation system 10 according to the first embodiment will be described with reference to FIG. In addition, in FIG. 3, the case where the fire broke out in the 1st facility 100 in which the 1st alarm system 1a is installed is illustrated.
 まず、第1警報システム1aの感知器4が火災を感知する(S1)。火災を感知した第1感知器4a(4b)は、感知結果を第1親機5aへ送信する(S2)。感知結果を受信した第1親機5aは、受信した感知結果を第1受信機6aへ送信する(S3)。 First, the sensor 4 of the first alarm system 1a detects a fire (S1). The first sensor 4a (4b) that senses the fire transmits the sensing result to the first main unit 5a (S2). The first base unit 5a that has received the sensing result transmits the received sensing result to the first receiver 6a (S3).
 第1受信機6aは、火災の感知結果を受信すると、感知結果に基づいて、火災の状況を推定する推定処理を行う(S4)。第1受信機6aは、火災情報を含む送信指示を、第1親機5aへ送信する(S5)。 Upon receiving the fire sensing result, the first receiver 6a performs estimation processing for estimating the fire situation based on the sensing result (S4). The first receiver 6a transmits a transmission instruction including fire information to the first main unit 5a (S5).
 送信指示を受信した第1親機5aは、送信指示に基づいて、他の警報システム1(外部システム)に対して火災情報を送信する。図4の例では、送信指示は、第2施設200に設置された第2警報システム1b及び第3施設300に設置された第3警報システム1cへ火災情報を送信させる指示である。また、送信指示は、第2警報システム1b、第3警報システム1cの順序で、火災情報を送信させる指示である。 Upon receiving the transmission instruction, the first main unit 5a transmits fire information to another alarm system 1 (external system) based on the transmission instruction. In the example of FIG. 4, the transmission instruction is an instruction to transmit fire information to the second alarm system 1b installed in the second facility 200 and the third alarm system 1c installed in the third facility 300. FIG. The transmission instruction is an instruction to transmit fire information in the order of the second alarm system 1b and the third alarm system 1c.
 第1警報システム1aの第1親機5aは、他のネットワークを介さずに、第2警報システム1bの第2親機5bへ火災情報を送信する(S6)。そして、第2警報システム1bの第2親機5bは、他のネットワークを介さずに、火災情報を受信する(S7)。また、第1警報システム1aの第1親機5aは、他のネットワークを介さずに、第3警報システム1cの第3親機5cへ火災情報を送信する(S8)。そして、第3警報システム1cの第3親機5cは、他のネットワークを介さずに、火災情報を受信する(S9)。第2警報システム1b及び第3警報システム1cでは、例えば、受信した火災情報に基づいて、第1施設100にて発生した火災に関する報知が行われる。 The first master unit 5a of the first alarm system 1a transmits fire information to the second master unit 5b of the second alarm system 1b without going through another network (S6). Then, the second main unit 5b of the second alarm system 1b receives fire information without going through another network (S7). Also, the first main unit 5a of the first alarm system 1a transmits the fire information to the third main unit 5c of the third alarm system 1c without going through another network (S8). Then, the third master unit 5c of the third alarm system 1c receives the fire information without going through another network (S9). In the second alarm system 1b and the third alarm system 1c, for example, based on the received fire information, the fire that has occurred in the first facility 100 is notified.
 なお、図3に示すシーケンス図は、一例に過ぎず、処理の順番が適宜変更されてもよいし、処理が適宜追加又は削除されてもよい。 The sequence diagram shown in FIG. 3 is merely an example, and the order of processing may be changed as appropriate, and processing may be added or deleted as appropriate.
 例えば、第1警報システム1aは、第1感知器4a(4b)が感知した火災に関する火災情報を、第2警報システム1b及び第3警報システム1cへ同時に送信してもよい。 For example, the first alarm system 1a may simultaneously transmit fire information regarding fires detected by the first sensor 4a (4b) to the second alarm system 1b and the third alarm system 1c.
 また、火災を感知した第1感知器4bは、感知結果を第1親機5aへ送信せずに、有線通信方式にて直接的に第1受信機6aへ送信してもよい。 Also, the first sensor 4b that has detected a fire may directly transmit the sensing result to the first receiver 6a by a wired communication method without transmitting it to the first base unit 5a.
 (4)変形例
 実施形態1は、本開示の様々な実施形態の一例に過ぎない。実施形態1は、本開示の目的を達成できれば、設計等に応じて種々の変更が可能である。
(4) Modifications Embodiment 1 is merely an example of various embodiments of the present disclosure. Embodiment 1 can be modified in various ways according to design and the like, as long as the object of the present disclosure can be achieved.
 また、実施形態1に係る警報システム1と同等の機能は、連携方法、(コンピュータ)プログラム、又はプログラムを記録した非一時的記録媒体等で具現化されてもよい。一態様に係る連携方法は、第1警報システム1a(警報システム1)で用いられる方法である。警報システム1は、非住宅である第1施設100に設置され火災を感知する第1感知器4a(4b)を備える。連携方法は、送信ステップを有する。送信ステップでは、第1感知器4a(4b)が感知した火災に関する火災情報を、他のネットワークを介さずに、外部システム(第2警報システム1b)へ送信する。外部システムは、第1施設100とは別の第2施設200に設置され火災を感知する第2感知器4c(4d)を備える。また、一態様に係る連携方法は、第2警報システム1b(警報システム1)で用いられる方法である。警報システム1は、非住宅である第2施設200に設置され火災を感知する第2感知器4c(4d)を備える。連携方法は、受信ステップを有する。受信ステップでは、火災情報を、外部システム(第1警報システム1a)から他のネットワークを介さずに受信する。火災情報は、第2施設200とは別の第1施設100に設置され火災を感知する第1感知器4a(4b)が感知した火災に関する情報である。外部システムは、第1感知器4a(4b)を備えるシステムである。一態様に係るプログラムは、上記の連携方法を、1以上のプロセッサに実行させるためのプログラムである。 Also, functions equivalent to those of the alarm system 1 according to the first embodiment may be embodied by a cooperation method, a (computer) program, or a non-temporary recording medium recording the program. A cooperation method according to one aspect is a method used in the first alarm system 1a (alarm system 1). The alarm system 1 includes a first sensor 4a (4b) installed in a non-residential first facility 100 to detect a fire. The cooperation method has a sending step. In the transmission step, the fire information about the fire detected by the first sensor 4a (4b) is transmitted to the external system (second alarm system 1b) without going through another network. The external system includes a second sensor 4c (4d) that is installed in a second facility 200 different from the first facility 100 and detects fire. Moreover, the cooperation method which concerns on one aspect is a method used by the 2nd alarm system 1b (alarm system 1). The alarm system 1 includes a second sensor 4c (4d) installed in a non-residential second facility 200 to detect a fire. The cooperation method has a receiving step. In the receiving step, fire information is received from an external system (first alarm system 1a) without going through another network. The fire information is information about fires detected by the first sensor 4a (4b) installed in the first facility 100 different from the second facility 200 and detecting fires. The external system is a system comprising the first sensor 4a (4b). A program according to one aspect is a program for causing one or more processors to execute the linking method.
 本開示における警報システム1は、例えば、コンピュータシステムを含んでいる。コンピュータシステムは、ハードウェアとしてのプロセッサ及びメモリを主構成とする。コンピュータシステムのメモリに記録されたプログラムをプロセッサが実行することによって、本開示における警報システム1としての機能が実現される。プログラムは、コンピュータシステムのメモリに予め記録されてもよく、電気通信回線を通じて提供されてもよく、コンピュータシステムで読み取り可能なメモリカード、光学ディスク、ハードディスクドライブ等の非一時的記録媒体に記録されて提供されてもよい。コンピュータシステムのプロセッサは、半導体集積回路(IC)又は大規模集積回路(LSI)を含む1又は複数の電子回路で構成される。ここでいうIC又はLSI等の集積回路は、集積の度合いによって呼び方が異なっており、システムLSI、VLSI(Very Large Scale Integration)、又はULSI(Ultra Large Scale Integration)と呼ばれる集積回路を含む。さらに、LSIの製造後にプログラムされる、FPGA(Field-Programmable Gate Array)、又はLSI内部の接合関係の再構成若しくはLSI内部の回路区画の再構成が可能な論理デバイスについても、プロセッサとして採用することができる。複数の電子回路は、1つのチップに集約されていてもよいし、複数のチップに分散して設けられていてもよい。複数のチップは、1つの装置に集約されていてもよいし、複数の装置に分散して設けられていてもよい。ここでいうコンピュータシステムは、1以上のプロセッサ及び1以上のメモリを有するマイクロコントローラを含む。したがって、マイクロコントローラについても、半導体集積回路又は大規模集積回路を含む1又は複数の電子回路で構成される。 The alert system 1 in the present disclosure includes, for example, a computer system. A computer system is mainly composed of a processor and a memory as hardware. The function of the alarm system 1 in the present disclosure is realized by the processor executing a program recorded in the memory of the computer system. The program may be recorded in advance in the memory of the computer system, may be provided through an electric communication line, or may be recorded in a non-temporary recording medium such as a computer system-readable memory card, optical disk, or hard disk drive. may be provided. A processor in a computer system is made up of one or more electronic circuits, including semiconductor integrated circuits (ICs) or large scale integrated circuits (LSIs). Integrated circuits such as ICs or LSIs are called differently depending on the degree of integration, and include integrated circuits called system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration). In addition, FPGAs (Field-Programmable Gate Arrays), which are programmed after the LSI is manufactured, or logic devices capable of reconfiguring the connection relationships inside the LSI or reconfiguring the circuit partitions inside the LSI, shall also be adopted as processors. can be done. A plurality of electronic circuits may be integrated into one chip, or may be distributed over a plurality of chips. A plurality of chips may be integrated in one device, or may be distributed in a plurality of devices. A computer system, as used herein, includes a microcontroller having one or more processors and one or more memories. Accordingly, the microcontroller also consists of one or more electronic circuits including semiconductor integrated circuits or large scale integrated circuits.
 警報システム1における複数の機能の少なくとも一部の機能は、クラウド(クラウドコンピューティング)等によって実現されてもよい。 At least some of the multiple functions of the alarm system 1 may be realized by the cloud (cloud computing) or the like.
 また、警報システム1の推定部621は、機械学習によって生成された学習済モデルを用いて、施設で発生した火災の状況を推定してもよい。上記学習済モデルは、例えば、感知器4が感知した火災の感知結果と、火災の状況との関係を示す複数の教師データを用いた教師あり学習によって生成されている。推定部621は、感知器4が感知した火災の感知結果を学習済モデルの入力とすることで、学習済モデルの出力として、火災の状況を示す情報を得ることができる。 Also, the estimation unit 621 of the alarm system 1 may use a learned model generated by machine learning to estimate the situation of a fire that has occurred in a facility. The learned model is generated, for example, by supervised learning using a plurality of teacher data indicating the relationship between the fire detection result detected by the detector 4 and the fire situation. The estimating unit 621 can obtain information indicating the state of the fire as an output of the learned model by inputting the fire detection result detected by the sensor 4 to the learned model.
 なお、機械学習のアルゴリズムは、一例として、ニューラルネットワークである。ただし、機械学習のアルゴリズムは、ニューラルネットワークに限定されず、例えば、XGB(eXtreme Gradient Boosting)回帰、ランダムフォレスト(Random Forest)、決定木(decision tree)、ロジスティック回帰(Logistic Regression)、サポートベクターマシン(SVM:Support vector machine)、単純ベイズ(Naive Bayes)分類器、又はk近傍法(k-nearest neighbors)等であってもよい。さらに、機械学習のアルゴリズムは、例えば、混合ガウスモデル(GMM:Gaussian Mixture Model)、又はk平均法(k-means clustering)等であってもよい。 A machine learning algorithm is, for example, a neural network. However, machine learning algorithms are not limited to neural networks, such as XGB (eXtreme Gradient Boosting) regression, Random Forest, decision tree, Logistic Regression, support vector machines ( SVM: Support vector machine), Naive Bayes classifier, k-nearest neighbors, or the like. Furthermore, the machine learning algorithm may be, for example, Gaussian Mixture Model (GMM), k-means clustering, or the like.
 また、学習方法は、実施形態1では一例として、教師あり学習である。ただし、学習方法は、教師あり学習に限らず、教師なし学習又は強化学習であってもよい。 Also, the learning method is supervised learning as an example in the first embodiment. However, the learning method is not limited to supervised learning, and may be unsupervised learning or reinforcement learning.
 また、学習済みモデルは、追加の学習を行うことで学習済みモデルを更新してもよい。 In addition, the learned model may be updated by performing additional learning.
 第1警報システム1aの全てが第1施設100内に設けられていなくともよい。少なくとも第1警報システム1aに含まれる感知器4が第1施設100内に設けられていればよい。また、第2警報システム1bの全てが第2施設200内に設けられていなくともよい。少なくとも第2警報システム1bに含まれる感知器4が第2施設200内に設けられていればよい。 The first alarm system 1a does not have to be entirely installed in the first facility 100. At least the sensor 4 included in the first alarm system 1a should be provided in the first facility 100. FIG. In addition, not all of the second alarm system 1b may be provided within the second facility 200 . It is sufficient that at least the sensor 4 included in the second alarm system 1b is provided within the second facility 200 .
 複数の警報システム1間での火災情報の送信経路は、あらかじめ決められていてもよい。例えば、第1警報システム1aから第2警報システム1bへ火災情報が送信され、その後に第2警報システム1bから第3警報システム1cへ火災情報が送信されるような送信経路があらかじめ決められていてもよい。また、自身のシステム内の感知器4が感知した火災に関する火災情報の送信経路と、他の警報システム1内の感知器4が感知した火災に関する火災情報の送信経路とが異なっていてもよい。なお、送信先情報に、送信経路に関する情報が含まれていてもよい。 The fire information transmission route between the multiple alarm systems 1 may be determined in advance. For example, a transmission path is predetermined such that fire information is transmitted from the first alarm system 1a to the second alarm system 1b, and then fire information is transmitted from the second alarm system 1b to the third alarm system 1c. good too. Further, the transmission path of the fire information about the fire detected by the sensor 4 in the own system and the transmission path of the fire information about the fire detected by the sensor 4 in the other alarm system 1 may be different. Note that the destination information may include information about the transmission route.
 警報システム1は中継器7を複数備えていてもよい。 The alarm system 1 may have a plurality of repeaters 7.
 実施形態1では、受信機6が、感知器4から感知結果を受信して火災の状況を推定したうえで、火災情報の送信先の決定及び送信順序の決定を行う場合を例示した。しかし、受信機6が火災の状況を推定すること、すなわち、受信機6が推定部621を有することは必須ではない。例えば、受信機6が受信した感知結果を確認したユーザの操作入力に基づいて、受信機6が火災情報の送信先の決定及び火災情報の送信を行うようにしてもよい。 In the first embodiment, the case where the receiver 6 receives the sensing result from the sensor 4, estimates the fire situation, and then determines the transmission destination and the transmission order of the fire information is exemplified. However, it is not essential that the receiver 6 estimates the fire situation, that is, that the receiver 6 has the estimation unit 621 . For example, the receiver 6 may determine the transmission destination of the fire information and transmit the fire information based on the operation input of the user who confirmed the sensing result received by the receiver 6 .
 実施形態1では、受信機6が推定部621及び決定部622を有する場合を例示したが、受信機6の代わりに、感知器4、親機5、及び中継器7のいずれかが推定部621及び決定部622を有していてもよい。例えば、第1親機5aが推定部621及び決定部622を有していてもよい。第1親機5aが推定部621を有している場合、第1親機5aは、第1感知器4a(4b)が感知した火災の感知結果に基づいて、第1施設100で発生した火災の状況を推定する。また、第1親機5aが決定部622を有している場合、第1親機5aは、推定部621の推定結果に基づいて生成した火災情報を、他の警報システム1(外部システム)に対して送信する。言い換えると、第1親機5aは、火災の感知結果に基づいて、火災情報を外部通信部52から送信させる。第1感知器4a(4b)が感知した火災の感知結果を受信機6へ中継する親機5の指示に基づいて火災情報が送信されるため、例えば火災情報の誤送信を低減することができる。 In the first embodiment, the case where the receiver 6 has the estimating unit 621 and the determining unit 622 is exemplified. and a decision unit 622 . For example, the first parent device 5a may have the estimating section 621 and the determining section 622 . When the first master device 5a has the estimation unit 621, the first master device 5a detects the fire that occurred in the first facility 100 based on the detection result of the fire detected by the first sensor 4a (4b). Estimate the situation of Further, when the first master device 5a has the determination unit 622, the first master device 5a transmits the fire information generated based on the estimation result of the estimation unit 621 to the other alarm system 1 (external system). send to. In other words, the first master device 5a causes the external communication unit 52 to transmit the fire information based on the fire detection result. Since the fire information is transmitted based on the instruction of the main unit 5 which relays the detection result of the fire sensed by the first sensor 4a (4b) to the receiver 6, for example, erroneous transmission of fire information can be reduced. .
 第1警報システム1aでは、第1親機5aが外部通信部52を有している場合を例示したが、第1親機5aの代わりに、第1感知器4a、第1受信機6a、及び第1中継器7aのいずれかが外部通信部52を有していてもよい。同様に、第2警報システム1bでは、第2親機5bが外部通信部52を有している場合を例示したが、第2親機5bの代わりに、第2感知器4c、第2受信機6b、及び第2中継器7bのいずれかが外部通信部52を有していてもよい。また、感知器4、親機5、受信機6、及び中継器7のいずれが外部通信部52を有するかは、警報システム1毎に異なっていてもよい。 In the first alarm system 1a, the case where the first master device 5a has the external communication unit 52 was illustrated, but instead of the first master device 5a, the first sensor 4a, the first receiver 6a, and the Either one of the first repeaters 7 a may have the external communication section 52 . Similarly, in the second alarm system 1b, the case where the second base unit 5b has the external communication unit 52 was illustrated, but instead of the second base unit 5b, the second sensor 4c and the second receiver 6 b and the second repeater 7 b may have the external communication unit 52 . Moreover, which of the sensor 4 , master device 5 , receiver 6 , and repeater 7 has the external communication unit 52 may differ for each alarm system 1 .
 例えば、第1警報システム1aの第1親機5aが外部通信部52を有している場合、第1親機5aが第2警報システム1bに対して、他のネットワークを介さずに火災情報を送信する。第2警報システム1bは、第1親機5aが送信した火災情報を、第2感知器4c、第2親機5b、第2受信機6b、及び第2中継器7bのいずれで受信してもよい。第2感知器4c、第2親機5b、第2受信機6b、及び第2中継器7bのいずれかで火災情報を受信した第2警報システム1bは、例えば、受信した火災情報を確認したユーザの操作入力に基づいて、第1施設100で発生した火災に関する報知を行う。 For example, when the first main unit 5a of the first alarm system 1a has the external communication unit 52, the first main unit 5a sends fire information to the second alarm system 1b without going through another network. Send. The second alarm system 1b receives the fire information transmitted by the first main unit 5a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second repeater 7b. good. The second alarm system 1b, which has received the fire information at any one of the second sensor 4c, the second base unit 5b, the second receiver 6b, and the second relay 7b, for example, the user who confirmed the received fire information A fire that has occurred in the first facility 100 is notified based on the operation input of .
 また、第1警報システム1aの第1感知器4aが外部通信部52を有している場合、第1感知器4aが第2警報システム1bに対して、他のネットワークを介さずに火災情報を送信する。第2警報システム1bは、第1感知器4aが送信した火災情報を、第2感知器4c、第2親機5b、第2受信機6b、及び第2中継器7bのいずれで受信してもよい。 Further, when the first sensor 4a of the first alarm system 1a has the external communication unit 52, the first sensor 4a sends fire information to the second alarm system 1b without going through another network. Send. The second alarm system 1b receives the fire information transmitted by the first sensor 4a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second relay 7b. good.
 また、第1警報システム1aの第1中継器7aが外部通信部52を有している場合、第1中継器7aが第2警報システム1bに対して、他のネットワークを介さずに火災情報を送信する。第2警報システム1bは、第1中継器7aが送信した火災情報を、第2感知器4c、第2親機5b、第2受信機6b、及び第2中継器7bのいずれで受信してもよい。 Further, when the first relay 7a of the first alarm system 1a has the external communication unit 52, the first relay 7a sends the fire information to the second alarm system 1b without going through another network. Send. The second alarm system 1b receives the fire information transmitted by the first relay 7a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second relay 7b. good.
 また、第1警報システム1aの第1受信機6aが外部通信部52を有している場合、第1受信機6aが第2警報システム1bに対して、他のネットワークを介さずに火災情報を送信する。第2警報システム1bは、第1受信機6aが送信した火災情報を、第2感知器4c、第2親機5b、第2受信機6b、及び第2中継器7bのいずれで受信してもよい。なお、第1受信機6aから第2受信機6bに火災情報が送信される構成の場合、第1受信機6aと第2受信機6bとは、通信ケーブルで接続されていてもよい。第1受信機6aと第2受信機6bとが通信ケーブルで接続されている場合、第1受信機6aは、有線通信方式にて当該通信ケーブルにて形成されるネットワークとは異なる他のネットワークを介さずに、第2受信機6bに火災情報を送信してもよい。 Further, when the first receiver 6a of the first alarm system 1a has the external communication unit 52, the first receiver 6a sends fire information to the second alarm system 1b without going through another network. Send. The second alarm system 1b receives the fire information transmitted by the first receiver 6a by any of the second sensor 4c, the second main unit 5b, the second receiver 6b, and the second repeater 7b. good. In addition, in the case of a configuration in which fire information is transmitted from the first receiver 6a to the second receiver 6b, the first receiver 6a and the second receiver 6b may be connected by a communication cable. When the first receiver 6a and the second receiver 6b are connected by a communication cable, the first receiver 6a uses a wired communication method to establish a network different from the network formed by the communication cable. Fire information may be transmitted to the second receiver 6b without intervening.
 (実施形態2)
 (1)概要
 図4に示すように、実施形態2に係る警報連携システム10は、第2警報システム1b(警報システム1)が住宅施設である第2施設200に設置されている点で実施形態1に係る警報連携システム10と相違する。
(Embodiment 2)
(1) Overview As shown in FIG. 4, the alarm cooperation system 10 according to the second embodiment is an embodiment in that the second alarm system 1b (alarm system 1) is installed in the second facility 200, which is a residential facility. It is different from the alarm cooperation system 10 according to 1.
 (2)詳細
 次に、実施形態2に係る第2警報システム1bの詳細について図4を参照して説明する。
(2) Details Next, details of the second alarm system 1b according to the second embodiment will be described with reference to FIG.
 (2.1)第2警報システム
 実施形態2に係る第2警報システム1bは、複数の第2感知器8と、制御装置9と、第2中継器7bと、を備える。
(2.1) Second Alarm System A second alarm system 1b according to Embodiment 2 includes a plurality of second sensors 8, a control device 9, and a second relay 7b.
 (2.2)感知器
 複数の第2感知器8は、親機である第2感知器8aと、子機である複数の第2感知器8bと、を有する。以下の説明において、複数の第2感知器8の各々を「第2感知器8」ということがある。また、複数の第2感知器8bの各々を「第2感知器8b」ということがある。
(2.2) Sensors The plurality of second sensors 8 includes a second sensor 8a as a master device and a plurality of second sensors 8b as slave devices. In the following description, each of the plurality of second sensors 8 may be called "second sensor 8". Also, each of the plurality of second sensors 8b may be referred to as a "second sensor 8b".
 (2.2.1)子機
 第2感知器8bは、通信部81bと、制御部82bと、感知部83と、報知部84と、を有する。
(2.2.1) Slave device The second sensor 8b has a communication unit 81b, a control unit 82b, a sensing unit 83, and a notification unit 84.
 第2感知器8bは、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部82bとして機能する。つまり、制御部82bは、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The second sensor 8b comprises, for example, a microcomputer with a processor and memory. The computer system functions as the controller 82b by the processor executing appropriate programs. In other words, the controller 82b is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部81bは、無線通信方式にて直接的に、親機である第2感知器8aと通信可能である。さらに、通信部81bは、無線通信方式にて第2中継器7b(中継器7)を介して間接的に、親機である第2感知器8aと通信可能である。 The communication unit 81b can directly communicate with the second sensor 8a, which is the parent device, by wireless communication. Furthermore, the communication unit 81b can indirectly communicate with the second sensor 8a, which is the parent device, via the second repeater 7b (relay 7) by a wireless communication method.
 通信部81bは、感知部83の感知結果を自機の識別子を示す情報と共に親機である第2感知器8aへ送信する。また、通信部81bは、親機である第2感知器8aから報知指示を受信する。 The communication unit 81b transmits the sensing result of the sensing unit 83 to the second sensor 8a, which is the master unit, along with information indicating its own identifier. Also, the communication unit 81b receives a notification instruction from the second sensor 8a, which is the parent device.
 感知部83は、火災を感知する機能(感知機能)を有する。ここでは、感知部43は、一例として、煙を感知する光電式のセンサである。感知部83の構成は実施形態1において説明した感知部43と同様であるため、説明を省略する。 The sensing unit 83 has a function of sensing fire (sensing function). Here, the sensing unit 43 is, for example, a photoelectric sensor that senses smoke. Since the configuration of the sensing section 83 is the same as that of the sensing section 43 described in the first embodiment, description thereof will be omitted.
 報知部84は、火災の発生を報知する機能(報知機能)を有する。報知部84の構成は実施形態1において説明した報知部44と同様であるため、説明を省略する。 The notification unit 84 has a function (notification function) to notify the occurrence of a fire. Since the configuration of the notification unit 84 is the same as that of the notification unit 44 described in the first embodiment, description thereof will be omitted.
 制御部82bは、通信部81b及び報知部84の制御を行う。制御部82bは、感知部83による火災の感知結果を親機である第2感知器8aへ送信するように、通信部81bを制御する。また、制御部82bは、親機である第2感知器8aから受信した報知指示に基づいて、報知部84が報知を行うように、報知部84を制御する。 The control unit 82b controls the communication unit 81b and the notification unit 84. The control unit 82b controls the communication unit 81b so as to transmit the result of fire detection by the sensing unit 83 to the second sensor 8a, which is the parent device. Further, the control unit 82b controls the notification unit 84 so that the notification unit 84 performs notification based on the notification instruction received from the second sensor 8a, which is the parent device.
 (2.2.2)親機
 親機である第2感知器8aは、通信部81aと、制御部82aと、感知部83と、報知部84と、記憶部85と、外部通信部86と、を有する。
(2.2.2) Parent Unit The second sensor 8a as the parent unit includes a communication unit 81a, a control unit 82a, a sensing unit 83, a notification unit 84, a storage unit 85, and an external communication unit 86. , has
 第2感知器8aは、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部82aとして機能する。つまり、制御部82aは、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The second sensor 8a comprises, for example, a microcomputer having a processor and memory. The computer system functions as the controller 82a by the processor executing appropriate programs. In other words, the controller 82a is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部81aは、無線通信方式にて直接的に、制御装置9と、子機である第2感知器8bと通信可能である。さらに、通信部81aは、無線通信方式にて第2中継器7bを介して間接的に、制御装置9と、子機である第2感知器8bと通信可能である。 The communication unit 81a can directly communicate with the control device 9 and the second sensor 8b, which is a child device, by a wireless communication method. Furthermore, the communication unit 81a can communicate indirectly with the control device 9 and the second sensor 8b, which is a child device, via the second repeater 7b by a wireless communication method.
 通信部81aは、第2感知器8bから、直接的に、又は、第2中継器7bを介して間接的に感知結果を受信する。また、通信部81aは、第2感知器8bから受信した感知結果を、制御装置9へ送信する。通信部81aは、制御装置9から報知指示を受信する。また、通信部81aは、制御装置9から受信した報知指示を、第2感知器8bへ送信する。 The communication unit 81a receives the sensing result from the second sensor 8b directly or indirectly via the second relay 7b. The communication unit 81a also transmits the sensing result received from the second sensor 8b to the control device 9 . The communication unit 81 a receives notification instructions from the control device 9 . The communication unit 81a also transmits the notification instruction received from the control device 9 to the second sensor 8b.
 外部通信部86は、複数の他の施設にそれぞれ設けられた複数の警報システム1(外部システム)と、他のネットワークを介さずに通信可能に構成されている。外部通信部86は、第1施設100に設けられている第1警報システム1a及び第3施設300に設けられている第3警報システム1cと通信可能に構成されている。 The external communication unit 86 is configured to be able to communicate with a plurality of alarm systems 1 (external systems) installed in a plurality of other facilities without going through another network. The external communication unit 86 is configured to be able to communicate with the first alarm system 1 a provided at the first facility 100 and the third alarm system 1 c provided at the third facility 300 .
 外部通信部86は、他の警報システム1に含まれる感知器4が感知した火災に関する火災情報を、他の警報システム1から他のネットワークを介さずに受信する。外部通信部86は、Wi-Fi(登録商標)、Bluetooth(登録商標)、ZigBee(登録商標)又は免許を必要としない小電力無線(特定小電力無線)等の規格に準拠した無線通信方式にて、他のネットワークを介さずに、火災情報を他の警報システム1から受信する。 The external communication unit 86 receives fire information related to fires detected by the sensors 4 included in the other alarm system 1 from the other alarm system 1 without going through another network. The external communication unit 86 is compatible with a wireless communication method conforming to standards such as Wi-Fi (registered trademark), Bluetooth (registered trademark), ZigBee (registered trademark), or low-power radio (specified low-power radio) that does not require a license. to receive fire information from another alarm system 1 without going through another network.
 また、外部通信部86は、外部システムから受信した火災情報を、別の外部システムへ他のネットワークを介さずに送信する。例えば外部通信部86は、第1警報システム1aから受信した火災情報を、第1警報システム1aとは別の第3警報システム1cに他のネットワークを介さずに送信する。 Also, the external communication unit 86 transmits fire information received from an external system to another external system without going through another network. For example, the external communication unit 86 transmits the fire information received from the first alarm system 1a to the third alarm system 1c, which is separate from the first alarm system 1a, without going through another network.
 記憶部85は、ROM、RAM、又はEEPROM等の半導体メモリである。なお、記憶部85は、半導体メモリに限らず、ハードディスクドライブ等であってもよい。 The storage unit 85 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 85 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
 記憶部85は、外部通信部86が火災情報を送信する対象となる他の警報システム1(外部システム)の送信先情報を記憶している。また、記憶部85は、第2警報システム1bに含まれる複数の第2感知器8bの各々の識別子を記憶している。 The storage unit 85 stores transmission destination information of another alarm system 1 (external system) to which the external communication unit 86 transmits fire information. The storage unit 85 also stores identifiers of each of the plurality of second sensors 8b included in the second alarm system 1b.
 制御部82aは、通信部81aの制御を行う。制御部82aは、第2感知器8bから受信した感知結果を制御装置9へ送信するように、通信部81aを制御する。また、制御部82aは、制御装置9から受信した報知指示を子機である第2感知器8bへ送信するように、通信部81aを制御する。また、制御部82aは、他の警報システム1(外部システム)から受信した火災情報を制御装置9へ送信するように、通信部81aを制御する。 The control unit 82a controls the communication unit 81a. The control unit 82a controls the communication unit 81a so as to transmit the sensing result received from the second sensor 8b to the control device 9. Further, the control unit 82a controls the communication unit 81a so as to transmit the notification instruction received from the control device 9 to the second sensor 8b, which is a child device. Further, the control unit 82a controls the communication unit 81a so as to transmit fire information received from another alarm system 1 (external system) to the control device 9. FIG.
 制御部82aは、外部通信部86の制御を行う。例えば、制御部82aは、他の警報システム1(例えば第1警報システム1a)から受信した火災情報を別の他の警報システム1(例えば第3警報システム1c)へ送信するように、外部通信部86を制御する。 The control unit 82a controls the external communication unit 86. For example, the control unit 82a transmits fire information received from another alarm system 1 (for example, the first alarm system 1a) to another alarm system 1 (for example, the third alarm system 1c), the external communication unit 86.
 (2.3)中継器
 第2中継器7bは、第2警報システム1bが備える中継器7である。実施形態2の第2中継器7bは、親機である第2感知器8a及び子機である複数の第2感知器8bと、無線通信方式にて通信可能に構成された通信インタフェースを含む。第2中継器7bは、第2感知器8aと第2感知器8bとの間の通信の中継を行う。
(2.3) Repeater The second repeater 7b is the repeater 7 included in the second alarm system 1b. The second relay 7b of the second embodiment includes a communication interface configured to be able to communicate with the second sensor 8a, which is a parent device, and a plurality of second sensors 8b, which are child devices, by a wireless communication method. The second relay 7b relays communication between the second sensor 8a and the second sensor 8b.
 (2.4)制御装置
 制御装置9は、例えば、HEMS(home energy management system)のコントローラであり、第2施設200に設けられた複数の機器と通信可能である。複数の機器は、上述した複数の第2感知器8を含む。また、制御装置9は、第2施設200に設けられた照明機器、空調機器等の機器とも通信可能である。
(2.4) Control Device The control device 9 is, for example, a HEMS (home energy management system) controller, and can communicate with a plurality of devices provided in the second facility 200 . The plurality of instruments includes a plurality of second sensors 8 as described above. The control device 9 can also communicate with equipment such as lighting equipment and air conditioning equipment provided in the second facility 200 .
 制御装置9は、第2警報システム1b内の第2感知器8が感知した火災の感知結果を受信する。 The control device 9 receives the detection result of the fire detected by the second sensor 8 in the second alarm system 1b.
 制御装置9は、通信部91と、制御部92と、記憶部93と、を有する。 The control device 9 has a communication section 91 , a control section 92 and a storage section 93 .
 制御装置9は、例えば、プロセッサ及びメモリを有するマイクロコンピュータを備える。プロセッサが適宜のプログラムを実行することにより、コンピュータシステムが制御部92として機能する。つまり、制御部92は、プロセッサ及びメモリを有するコンピュータシステムで実現されている。プログラムは、メモリに予め記録されていてもよいし、インターネット等の電気通信回線を通じて、又はメモリカード等の非一時的な記録媒体に記録されて提供されてもよい。 The control device 9 comprises, for example, a microcomputer having a processor and memory. The computer system functions as the control unit 92 by the processor executing appropriate programs. That is, the control unit 92 is realized by a computer system having a processor and memory. The program may be prerecorded in a memory, or may be provided by being recorded in a non-temporary recording medium such as a memory card or through an electric communication line such as the Internet.
 通信部91は、親機である第2感知器8aと通信可能に構成された通信インタフェースを含む。 The communication unit 91 includes a communication interface configured to be able to communicate with the second sensor 8a, which is the parent device.
 記憶部93は、ROM、RAM、又はEEPROM等の半導体メモリである。なお、記憶部93は、半導体メモリに限らず、ハードディスクドライブ等であってもよい。 The storage unit 93 is a semiconductor memory such as ROM, RAM, or EEPROM. Note that the storage unit 93 is not limited to a semiconductor memory, and may be a hard disk drive or the like.
 記憶部93は、第2警報システム1bに含まれる複数の第2感知器8の各々の識別子を記憶している。 The storage unit 93 stores identifiers of each of the plurality of second sensors 8 included in the second alarm system 1b.
 制御部92は、通信部91の制御を行う。例えば、制御部92は、報知指示を第2感知器8aへ送信するように、通信部91を制御する。 The control unit 92 controls the communication unit 91. For example, the control section 92 controls the communication section 91 to transmit the notification instruction to the second sensor 8a.
 実施形態2は、本開示の様々な実施形態の一例に過ぎない。実施形態2は、本開示の目的を達成できれば、設計等に応じて種々の変更が可能である。 Embodiment 2 is merely an example of various embodiments of the present disclosure. Embodiment 2 can be modified in various ways according to the design, etc., as long as the object of the present disclosure can be achieved.
 親機である第2感知器8aが外部通信部86を有している場合を例示したが、第2感知器8aの代わりに、子機である第2感知器8b、第2中継器7b、及び制御装置9のいずれかが外部通信部86を有していてもよい。 Although the case where the second sensor 8a, which is the master device, has the external communication unit 86 is illustrated, instead of the second sensor 8a, the second sensor 8b, which is the slave device, the second relay 7b, and the control device 9 may have the external communication unit 86 .
 実施形態2で説明した種々の構成(変形例を含む)は、実施形態1で説明した種々の構成(変形例を含む)と適宜組み合わせて採用可能である。 The various configurations (including modifications) described in the second embodiment can be employed in appropriate combination with the various configurations (including modifications) described in the first embodiment.
 (まとめ)
 以上説明したように、第1の態様に係る警報システム(第1警報システム1a)は、第1感知器(4a;4b)を備える警報システム(1)である。第1感知器(4a;4b)は、非住宅である第1施設(100)に設置され、第1施設(100)での火災を感知する。警報システム(1)は、外部通信部(52)を備える。外部通信部(52)は、第1感知器(4a;4b)が感知した火災に関する火災情報を、外部システム(第2警報システム1b)へ、他のネットワークを介さずに送信する。外部システムは、第2感知器(4c;4d;8)を備える。第2感知器(4c;4d;8)は、第1施設(100)とは別の第2施設(200)に設置され、第2施設(200)での火災を感知する。
(summary)
As described above, the alarm system (first alarm system 1a) according to the first aspect is the alarm system (1) including the first sensors (4a; 4b). A first detector (4a; 4b) is installed in a non-residential first facility (100) to detect a fire in the first facility (100). The alarm system (1) comprises an external communication section (52). An external communication unit (52) transmits fire information about fires detected by the first sensors (4a; 4b) to an external system (second alarm system 1b) without going through another network. The external system comprises a second sensor (4c; 4d; 8). A second detector (4c; 4d; 8) is installed in a second facility (200) different from the first facility (100) and detects a fire in the second facility (200).
 この態様によれば、第2施設(200)に設けられている第2警報システム(1b)へ警報システム(第1警報システム1a)が火災情報を送信することで、火災発生現場の近隣(第2施設200)における被害を低減させることができる。また、警報システム(1)は、インターネット等の他のネットワークを介さず直接的に火災情報を外部システムへ送信するため、他のネットワークにおける通信障害の影響を受けにくいという利点がある。 According to this aspect, the alarm system (first alarm system 1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), so that the vicinity of the fire scene (second 2 facility 200) can be reduced. In addition, since the alarm system (1) directly transmits fire information to an external system without going through other networks such as the Internet, it has the advantage of being less susceptible to communication failures in other networks.
 第2の態様に係る警報システム(第1警報システム1a)は、第1の態様において、推定部(621)を更に備える。推定部(621)は、第1感知器(4a;4b)が感知した火災の感知結果に基づいて、火災の状況を推定する。外部通信部(52)は、複数の第2施設(第2施設200;第3施設300)にそれぞれ設けられた複数の外部システム(第2警報システム1b;第3警報システム1c)と、他のネットワークを介さずに通信可能に構成されている。外部通信部(52)は、推定部(621)の推定結果に基づいて、複数の外部システムのうち少なくとも1つの外部システムへ火災情報を送信する。 The alarm system (first alarm system 1a) according to the second aspect further comprises an estimation unit (621) in the first aspect. An estimating unit (621) estimates the situation of the fire based on the fire detection results detected by the first sensors (4a; 4b). The external communication unit (52) includes a plurality of external systems (second alarm system 1b; third alarm system 1c) respectively provided in a plurality of second facilities (second facility 200; third facility 300), and other It is configured to be able to communicate without going through a network. An external communication unit (52) transmits fire information to at least one of a plurality of external systems based on the estimation result of the estimation unit (621).
 この態様によれば、推定部(621)の推定結果に基づいて、例えば火災の影響が及ぶ可能性が高いと推定された施設(第2施設200;第3施設300)に設置された外部システム(第2警報システム1b;第3警報システム1c)に対して、火災情報を送信することができる。 According to this aspect, the external system installed in the facility (second facility 200; third facility 300) estimated to be highly likely to be affected by fire, for example, based on the estimation result of the estimation unit (621) Fire information can be transmitted to (second alarm system 1b; third alarm system 1c).
 第3の態様に係る警報システム(第1警報システム1a)では、第2の態様において、外部通信部(52)は、複数の外部システム(第2警報システム1b;第3警報システム1c)のうちの2以上の外部システムへ火災情報を送信する場合に、推定部(621)の推定結果に基づく順序で、2以上の外部システムの各々へ火災情報を送信する。 In the alarm system (first alarm system 1a) according to the third aspect, in the second aspect, the external communication unit (52) includes a plurality of external systems (second alarm system 1b; third alarm system 1c). When transmitting fire information to two or more external systems, the fire information is transmitted to each of the two or more external systems in the order based on the estimation result of the estimation unit (621).
 この態様によれば、推定部(621)の推定結果に基づいて、例えば火災の影響が及ぶ可能性が相対的に高いと推定された施設(第2施設200;第3施設300)に設置された外部システム(第2警報システム1b;第3警報システム1c)に対して、優先的に火災情報を送信することができる。 According to this aspect, based on the estimation result of the estimating unit (621), for example, it is installed in facilities (second facility 200; third facility 300) that are estimated to have a relatively high possibility of being affected by fire. Fire information can be preferentially transmitted to external systems (second alarm system 1b; third alarm system 1c).
 第4の態様に係る警報システム(第1警報システム1a)は、第1から第3のいずれかの態様において、推定部(621)を更に備える。推定部(621)は、第1感知器(4a;4b)が感知した火災の感知結果に基づいて、火災の状況を推定する。外部通信部(52)は、推定部(621)の推定結果に基づく火災情報を、外部システム(第2警報システム1b;第3警報システム1c)へ送信する。 The alarm system (first alarm system 1a) according to the fourth aspect further comprises an estimator (621) in any one of the first to third aspects. An estimating unit (621) estimates the situation of the fire based on the fire detection results detected by the first sensors (4a; 4b). The external communication unit (52) transmits fire information based on the estimation results of the estimation unit (621) to external systems (second alarm system 1b; third alarm system 1c).
 この態様によれば、推定部(621)の推定結果に基づいて生成された火災情報を外部システム(第2警報システム1b;第3警報システム1c)へ送信することで、例えば火災の規模等の火災の状況を外部システムに知らせることができる。 According to this aspect, by transmitting the fire information generated based on the estimation result of the estimation unit (621) to the external system (second alarm system 1b; third alarm system 1c), for example, the scale of the fire, etc. An external system can be notified of the fire situation.
 第5の態様に係る警報システム(第1警報システム1a)は、第1から第4のいずれかの態様において、受信機(6)を更に備える。受信機(6)は、第1感知器(4a;4b)が感知した火災の感知結果を受信する。受信機(6)は、火災の感知結果に基づいて、火災情報を外部通信部(52)から送信させる。 The alarm system (first alarm system 1a) according to the fifth aspect further comprises a receiver (6) in any one of the first to fourth aspects. A receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b). The receiver (6) causes the external communication unit (52) to transmit fire information based on the fire detection result.
 この態様によれば、第1感知器(4a;4b)から感知結果を受信する受信機(6)の指示に基づいて火災情報が送信されるため、例えば火災情報の誤送信を低減することができる。 According to this aspect, since the fire information is transmitted based on the instruction of the receiver (6) that receives the detection results from the first sensors (4a; 4b), for example, erroneous transmission of fire information can be reduced. can.
 第6の態様に係る警報システム(第1警報システム1a)は、第1から第4のいずれかの態様において、親機(5)を更に備える。親機(5)は、受信機(6)に対して、第1感知器(4a;4b)から受信した感知結果を送信する。受信機(6)は、第1感知器(4a;4b)が感知した火災の感知結果を受信する。親機(5)は、火災の感知結果に基づいて、火災情報を外部通信部(52)から送信させる。 The alarm system (first alarm system 1a) according to the sixth aspect, in any one of the first to fourth aspects, further includes a parent device (5). The parent device (5) transmits the sensing results received from the first sensors (4a; 4b) to the receiver (6). A receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b). The parent device (5) causes the external communication unit (52) to transmit fire information based on the fire detection result.
 この態様によれば、第1感知器(4a;4b)が感知した火災の感知結果を受信機(6)へ中継する親機(5)の指示に基づいて火災情報が送信されるため、例えば火災情報の誤送信を低減することができる。 According to this aspect, since the fire information is transmitted based on the instruction of the master unit (5) that relays the detection result of the fire sensed by the first sensor (4a; 4b) to the receiver (6), for example Mistransmission of fire information can be reduced.
 第7の態様に係る警報システム(第1警報システム1a)は、第1から第6のいずれかの態様において、記憶部(63)を更に備える。記憶部(63)は、外部通信部(52)が火災情報を送信する対象となる外部システム(第2警報システム1b;第3警報システム1c)の送信先情報を記憶する。 The alarm system (first alarm system 1a) according to the seventh aspect further comprises a storage unit (63) in any one of the first to sixth aspects. A storage unit (63) stores transmission destination information of external systems (second alarm system 1b; third alarm system 1c) to which the external communication unit (52) transmits fire information.
 この態様によれば、記憶部(63)が送信先情報を記憶していることで、外部通信部(52)は、あらかじめ登録された外部システム(第2警報システム1b;第3警報システム1c)を送信先として、火災情報を送信することができる。 According to this aspect, the storage unit (63) stores the destination information, so that the external communication unit (52) can communicate with pre-registered external systems (second alarm system 1b; third alarm system 1c). can be used as a destination to transmit fire information.
 第8の態様に係る警報システム(第2警報システム1b)は、第2感知器(4c;4d;8)を備える警報システム(1)である。第2感知器(4c;4d;8)は、第2施設(200)に設置され火災を感知する。警報システム(1)は、外部通信部(52;86)を備える。外部通信部(52;86)は、火災情報を、外部システム(第1警報システム1a)から他のネットワークを介さずに受信する。火災情報は、第2施設(200)とは別の第1施設(100)に設置され火災を感知する第1感知器(4a;4b)が感知した火災に関する情報である。外部システムは、第1感知器(4a;4b)を備えるシステムである。 The alarm system (second alarm system 1b) according to the eighth aspect is an alarm system (1) comprising a second sensor (4c; 4d; 8). A second detector (4c; 4d; 8) is installed in the second facility (200) to detect fire. The alarm system (1) comprises an external communication section (52; 86). An external communication unit (52; 86) receives fire information from an external system (first alarm system 1a) without going through another network. The fire information is information on fires detected by the first detectors (4a; 4b) installed in the first facility (100) different from the second facility (200) and detecting fires. The external system is the system comprising the first sensor (4a; 4b).
 この態様によれば、警報システム(第2警報システム1b)は、例えば第1施設(100)において発生した火災に関する報知を行うことで、第2施設(200)における被害を低減させることができる。 According to this aspect, the alarm system (second alarm system 1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
 第9の態様に係る警報システム(第2警報システム1b)では、第8の態様において、外部通信部(52;86)は、受信した火災情報を、第1施設(100)とは別の第3施設(300)に設置された、第1感知器(4a;4b)を備える外部システム(第1警報システム1a)とは別の外部システム(第3警報システム1c)へ、他のネットワークを介さずに送信する。 In the alarm system (second alarm system 1b) according to the ninth aspect, in the eighth aspect, the external communication unit (52; 86) sends the received fire information to a third facility different from the first facility (100). To an external system (third alarm system 1c) different from the external system (first alarm system 1a) equipped with the first detectors (4a; 4b) installed in the 3 facilities (300), via another network send without
 この態様によれば、警報システム(第2警報システム1b)は、外部システム(第1警報システム1a)から受信した火災情報を、更に別の外部システム(第3警報システム1c)へ送信することで、第1施設(100)の近隣(第3施設300)における被害を低減させることができる。 According to this aspect, the alarm system (second alarm system 1b) transmits the fire information received from the external system (first alarm system 1a) to another external system (third alarm system 1c). , the damage in the neighborhood (third facility 300) of the first facility (100) can be reduced.
 第10の態様に係る警報システム(第1警報システム1a)は、第1から第9のいずれかの態様において、親機(5)を更に備える。親機(5)は、受信機(6)に対して、第1感知器(4a;4b)から受信した感知結果を送信する。受信機(6)は、第1感知器(4a;4b)が感知した火災の感知結果を受信する。親機(5)は、外部通信部(52)を有する。 The alarm system (first alarm system 1a) according to the tenth aspect, in any one of the first to ninth aspects, further includes a parent device (5). The parent device (5) transmits the sensing results received from the first sensors (4a; 4b) to the receiver (6). A receiver (6) receives the detection result of the fire detected by the first detectors (4a; 4b). The master (5) has an external communication section (52).
 この態様によれば、受信機(6)と通信可能に構成された親機(5)が外部通信部(52)を有しているため、火災情報を外部システム(第2警報システム1b;第3警報システム1c)に対して、安定かつ迅速に送信することができる。 According to this aspect, since the base unit (5) configured to be communicable with the receiver (6) has the external communication unit (52), the fire information is sent to the external system (second alarm system 1b; 3 It can be transmitted stably and quickly to the alarm system 1c).
 第1の態様以外の構成については、警報システム(第1警報システム1a)に必須の構成ではなく、適宜省略可能である。 Configurations other than the first aspect are not essential configurations for the alarm system (first alarm system 1a), and can be omitted as appropriate.
 第11の態様に係る警報連携システム(10)は、第1警報システム(1a)と、第2警報システム(1b)と、を備える。第1警報システム(1a)は、第1感知器(4a;4b)を備える。第1感知器(4a;4b)は、非住宅である第1施設(100)に設置され火災を感知する。第2警報システム(1b)は、第2感知器(4c;4d)を備える。第2感知器(4c;4d)は、第1施設(100)とは別の第2施設(200)に設置され火災を感知する。第1警報システム(1a)は、第1外部通信部(外部通信部52)を有する。第1外部通信部は、第1感知器(4a;4b)が感知した火災に関する火災情報を、他のネットワークを介さずに、第2警報システム(1b)へ送信する。第2警報システム(1b)は、第2外部通信部(外部通信部52)を有する。第2外部通信部は、火災情報を、第1警報システム(1a)から他のネットワークを介さずに受信する。 The alarm cooperation system (10) according to the eleventh aspect comprises a first alarm system (1a) and a second alarm system (1b). A first alarm system (1a) comprises a first sensor (4a; 4b). A first detector (4a; 4b) is installed in a non-residential first facility (100) to detect a fire. A second alarm system (1b) comprises a second sensor (4c; 4d). A second detector (4c; 4d) is installed in a second facility (200) different from the first facility (100) and detects a fire. The first alarm system (1a) has a first external communication section (external communication section 52). The first external communication unit transmits fire information about fires detected by the first sensors (4a; 4b) to the second alarm system (1b) without going through other networks. The second alarm system (1b) has a second external communication section (external communication section 52). The second external communication unit receives fire information from the first alarm system (1a) without going through another network.
 この態様によれば、第2施設(200)に設けられている第2警報システム(1b)へ第1警報システム(1a)が火災情報を送信することで、火災発生現場の近隣(第2施設200)における被害を低減させることができる。また、第1警報システム(1a)は、インターネット等の他のネットワークを介さず直接的に火災情報を第2警報システム(1b)へ送信するため、他のネットワークにおける通信障害の影響を受けにくいという利点がある。また、第2警報システム(1b)は、例えば第1施設(100)において発生した火災に関する報知を行うことで、第2施設(200)における被害を低減させることができる。 According to this aspect, the first alarm system (1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), thereby enabling 200) can be reduced. In addition, since the first alarm system (1a) sends fire information directly to the second alarm system (1b) without going through other networks such as the Internet, it is said to be less susceptible to communication failures in other networks. There are advantages. In addition, the second alarm system (1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
 第12の態様に係る連携方法は、警報システム(第1警報システム1a)で用いられる方法である。警報システム(1)は、非住宅である第1施設(100)に設置され火災を感知する第1感知器(4a;4b)を備える。連携方法は、送信ステップを有する。送信ステップでは、第1感知器(4a;4b)が感知した火災に関する火災情報を、他のネットワークを介さずに、外部システム(第2警報システム1b)へ送信する。外部システムは、第1施設(100)とは別の第2施設(200)に設置され火災を感知する第2感知器(4c;4d)を備える。 The cooperation method according to the twelfth aspect is a method used in the alarm system (first alarm system 1a). An alarm system (1) comprises a first detector (4a; 4b) installed in a non-residential first facility (100) to detect fire. The cooperation method has a sending step. In the transmission step, the fire information about the fire detected by the first detectors (4a; 4b) is transmitted to the external system (second alarm system 1b) without going through another network. The external system comprises a second sensor (4c; 4d) installed in a second facility (200) different from the first facility (100) to detect fire.
 この態様によれば、第2施設(200)に設けられている第2警報システム(1b)へ警報システム(第1警報システム1a)が火災情報を送信することで、火災発生現場の近隣(第2施設200)における被害を低減させることができる。また、警報システム(1)は、インターネット等の他のネットワークを介さず直接的に火災情報を外部システムへ送信するため、他のネットワークにおける通信障害の影響を受けにくいという利点がある。 According to this aspect, the alarm system (first alarm system 1a) transmits the fire information to the second alarm system (1b) provided in the second facility (200), so that the vicinity of the fire scene (second 2 facility 200) can be reduced. In addition, since the alarm system (1) directly transmits fire information to an external system without going through other networks such as the Internet, it has the advantage of being less susceptible to communication failures in other networks.
 第13の態様に係る連携方法は、警報システム(第2警報システム1b)で用いられる方法である。警報システム(1)は、第2施設(200)に設置され火災を感知する第2感知器(4c;4d)を備える。連携方法は、受信ステップを有する。受信ステップでは、火災情報を、外部システム(第1警報システム1a)から他のネットワークを介さずに受信する。火災情報は、第2施設(200)とは別の第1施設(100)に設置され火災を感知する第1感知器(4a;4b)が感知した火災に関する情報である。外部システムは、第1感知器(4a;4b)を備えるシステムである。 The cooperation method according to the thirteenth aspect is a method used in the alarm system (second alarm system 1b). The alarm system (1) comprises a second detector (4c; 4d) installed in a second facility (200) to detect fire. The cooperation method has a receiving step. In the receiving step, fire information is received from an external system (first alarm system 1a) without going through another network. The fire information is information on fires detected by the first detectors (4a; 4b) installed in the first facility (100) different from the second facility (200) and detecting fires. The external system is the system comprising the first sensor (4a; 4b).
 この態様によれば、警報システム(第2警報システム1b)は、例えば第1施設(100)において発生した火災に関する報知を行うことで、第2施設(200)における被害を低減させることができる。 According to this aspect, the alarm system (second alarm system 1b) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
 第14の態様に係るプログラムは、第12の態様に係る連携方法を、1以上のプロセッサに実行させるためのプログラムである。 A program according to the fourteenth aspect is a program for causing one or more processors to execute the cooperation method according to the twelfth aspect.
 第2施設(200)に設けられている第2警報システム(1b)へ警報システム(第1警報システム1a)が火災情報を送信することで、火災発生現場の近隣(第2施設200)における被害を低減させることができる。また、警報システム(1)は、インターネット等の他のネットワークを介さず直接的に火災情報を外部システムへ送信するため、他のネットワークにおける通信障害の影響を受けにくいという利点がある。 By transmitting fire information from the alarm system (first alarm system 1a) to the second alarm system (1b) provided in the second facility (200), damage in the vicinity of the fire site (second facility 200) can be reduced. In addition, since the alarm system (1) directly transmits fire information to an external system without going through other networks such as the Internet, it has the advantage of being less susceptible to communication failures in other networks.
 第15の態様に係るプログラムは、第13の態様に係る連携方法を、1以上のプロセッサに実行させるためのプログラムである。 A program according to the fifteenth aspect is a program for causing one or more processors to execute the linking method according to the thirteenth aspect.
 この態様によれば、警報システム(第1警報システム1a)は、例えば第1施設(100)において発生した火災に関する報知を行うことで、第2施設(200)における被害を低減させることができる。 According to this aspect, the alarm system (first alarm system 1a) can reduce damage in the second facility (200) by reporting, for example, a fire that has occurred in the first facility (100).
1 警報システム
1a 第1警報システム(警報システム)
1b 第2警報システム(外部システム)
1c 第3警報システム(別の外部システム)
10 警報連携システム
100 第1施設
200 第2施設
300 第3施設
4a;4b 第1感知器
4c;4d 第2感知器
5 親機
52 外部通信部(第1外部通信部、第2外部通信部)
6 受信機
621 推定部
8 第2感知器
86 外部通信部(第2外部通信部)
1 alarm system 1a first alarm system (alarm system)
1b Second alarm system (external system)
1c Third alarm system (another external system)
10 Alarm cooperation system 100 First facility 200 Second facility 300 Third facility 4a; 4b First sensor 4c; 4d Second sensor 5 Master unit 52 External communication unit (first external communication unit, second external communication unit)
6 receiver 621 estimation unit 8 second sensor 86 external communication unit (second external communication unit)

Claims (15)

  1.  非住宅である第1施設に設置され、前記第1施設での火災を感知する第1感知器を備える警報システムであって、
     前記第1感知器が感知した火災に関する火災情報を、前記第1施設とは別の第2施設に設置され、前記第2施設での火災を感知する第2感知器を備える外部システムへ、他のネットワークを介さずに送信する外部通信部、
    を備える、
     警報システム。
    An alarm system installed in a non-residential first facility and comprising a first detector that senses a fire in the first facility,
    Fire information about the fire detected by the first sensor is sent to an external system equipped with a second sensor that is installed in a second facility separate from the first facility and detects a fire in the second facility. An external communication unit that transmits data without going through the network of
    comprising a
    alarm system.
  2.  前記第1感知器が感知した前記火災の感知結果に基づいて、前記火災の状況を推定する推定部、を更に備え、
     前記外部通信部は、複数の前記第2施設にそれぞれ設けられた複数の前記外部システムと、前記他のネットワークを介さずに通信可能に構成されており、
     前記外部通信部は、前記推定部の推定結果に基づいて、前記複数の外部システムのうち少なくとも1つの外部システムへ前記火災情報を送信する、
     請求項1に記載の警報システム。
    An estimating unit for estimating the situation of the fire based on the detection result of the fire sensed by the first sensor,
    The external communication unit is configured to be able to communicate with a plurality of the external systems respectively provided in the plurality of second facilities without going through the other network,
    The external communication unit transmits the fire information to at least one external system among the plurality of external systems based on the estimation result of the estimation unit.
    The alarm system of claim 1.
  3.  前記外部通信部は、前記複数の外部システムのうちの2以上の外部システムへ前記火災情報を送信する場合に、前記推定部の推定結果に基づく順序で、前記2以上の外部システムの各々へ前記火災情報を送信する、
     請求項2に記載の警報システム。
    When transmitting the fire information to two or more external systems among the plurality of external systems, the external communication unit transmits the fire information to each of the two or more external systems in order based on the estimation result of the estimation unit. send fire information,
    An alarm system according to claim 2.
  4.  前記第1感知器が感知した前記火災の感知結果に基づいて、前記火災の状況を推定する推定部、を更に備え、
     前記外部通信部は、前記推定部の推定結果に基づく前記火災情報を、前記外部システムへ送信する、
     請求項1から3のいずれか1項に記載の警報システム。
    An estimating unit for estimating the situation of the fire based on the detection result of the fire sensed by the first sensor,
    wherein the external communication unit transmits the fire information based on the estimation result of the estimation unit to the external system;
    An alarm system according to any one of claims 1-3.
  5.  前記第1感知器が感知した前記火災の感知結果を受信する受信機、を更に備え、
     前記受信機は、前記火災の前記感知結果に基づいて、前記火災情報を前記外部通信部から送信させる、
     請求項1から4のいずれか1項に記載の警報システム。
    Further comprising a receiver for receiving the detection result of the fire detected by the first sensor,
    The receiver causes the external communication unit to transmit the fire information based on the detection result of the fire.
    5. An alarm system according to any one of claims 1-4.
  6.  前記第1感知器が感知した前記火災の感知結果を受信する受信機に対して、前記第1感知器から受信した前記感知結果を送信する親機、を更に備え、
     前記親機は、前記火災の前記感知結果に基づいて、前記火災情報を前記外部通信部から送信させる、
     請求項1から4のいずれか1項に記載の警報システム。
    a parent device that transmits the sensing result received from the first sensor to a receiver that receives the sensing result of the fire sensed by the first sensor;
    The parent device causes the external communication unit to transmit the fire information based on the detection result of the fire.
    5. An alarm system according to any one of claims 1-4.
  7.  前記外部通信部が前記火災情報を送信する対象となる前記外部システムの送信先情報を記憶する記憶部、を更に備える、
     請求項1から6のいずれか1項に記載の警報システム。
    further comprising a storage unit that stores transmission destination information of the external system to which the external communication unit transmits the fire information;
    7. An alarm system according to any one of claims 1-6.
  8.  第2施設に設置され火災を感知する第2感知器を備える警報システムであって、
     前記第2施設とは別の第1施設に設置され火災を感知する第1感知器が感知した火災に関する火災情報を、前記第1感知器を備える外部システムから他のネットワークを介さずに受信する外部通信部、
    を備える、
     警報システム。
    An alarm system comprising a second detector located at a second facility and detecting a fire, comprising:
    Receives fire information related to a fire detected by a first sensor that is installed in a first facility different from the second facility and detects fire from an external system that includes the first sensor without going through another network. external communication unit,
    comprising
    alarm system.
  9.  前記外部通信部は、受信した前記火災情報を、前記第1施設とは別の第3施設に設置された、前記第1感知器を備える前記外部システムとは別の外部システムへ、他のネットワークを介さずに送信する、
     請求項8に記載の警報システム。
    The external communication unit transmits the received fire information to an external system different from the external system provided with the first detector, installed in a third facility different from the first facility, to another network send without going through
    An alarm system according to claim 8.
  10.  前記第1感知器が感知した前記火災の感知結果を受信する受信機に対して、前記第1感知器から受信した前記感知結果を送信する親機、を更に備え、
     前記親機は、前記外部通信部を有する、
     請求項1から9のいずれか1項に記載の警報システム。
    a parent device that transmits the sensing result received from the first sensor to a receiver that receives the sensing result of the fire sensed by the first sensor;
    The parent device has the external communication unit,
    10. An alarm system according to any one of claims 1-9.
  11.  非住宅である第1施設に設置され火災を感知する第1感知器を備える第1警報システムと、
     前記第1施設とは別の第2施設に設置され火災を感知する第2感知器を備える第2警報システムと、
    を備え、
     前記第1警報システムは、前記第1感知器が感知した前記火災に関する火災情報を、他のネットワークを介さずに、前記第2警報システムへ送信する第1外部通信部、を有し、
     前記第2警報システムは、前記火災情報を、前記第1警報システムから他のネットワークを介さずに受信する第2外部通信部、を有する、
     警報連携システム。
    a first alarm system comprising a first detector installed at a non-residential first facility and detecting a fire;
    a second alarm system installed in a second facility separate from the first facility and comprising a second sensor for detecting fire;
    with
    The first alarm system has a first external communication unit that transmits fire information related to the fire detected by the first sensor to the second alarm system without passing through another network,
    The second alarm system has a second external communication unit that receives the fire information from the first alarm system without passing through another network,
    Alarm coordination system.
  12.  非住宅である第1施設に設置され火災を感知する第1感知器を備える警報システムで用いられる連携方法であって、
     前記第1感知器が感知した火災に関する火災情報を、他のネットワークを介さずに、前記第1施設とは別の第2施設に設置され火災を感知する第2感知器を備える外部システムへ送信する送信ステップ、
    を有する、
     連携方法。
    A coordination method used in an alarm system comprising a first detector installed in a non-residential first facility and detecting a fire, comprising:
    Fire information about the fire detected by the first sensor is transmitted to an external system equipped with a second sensor installed in a second facility different from the first facility and detecting fire without going through another network. a sending step to
    having
    how to work together.
  13.  第2施設に設置され火災を感知する第2感知器を備える警報システムで用いられる連携方法であって、
     前記第2施設とは別の第1施設に設置され火災を感知する第1感知器が感知した火災に関する火災情報を、前記第1感知器を備える外部システムから他のネットワークを介さずに受信する受信ステップ、
    を有する、
     連携方法。
    A coordination method for use in an alarm system comprising a second detector installed at a second facility and detecting a fire, comprising:
    Receives fire information related to a fire detected by a first sensor that is installed in a first facility different from the second facility and detects fire from an external system that includes the first sensor without going through another network. receiving step,
    having
    how to work together.
  14.  請求項12に記載の連携方法を、1以上のプロセッサに実行させるための、
     プログラム。
    for causing one or more processors to execute the cooperation method according to claim 12,
    program.
  15.  請求項13に記載の連携方法を、1以上のプロセッサに実行させるための、
     プログラム。
    for causing one or more processors to execute the cooperation method according to claim 13,
    program.
PCT/JP2022/043472 2021-12-23 2022-11-25 Alarm system, alarm cooperation system, cooperation method, and program WO2023120025A1 (en)

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JP2020087369A (en) * 2018-11-30 2020-06-04 パナソニックIpマネジメント株式会社 Presentation system, presentation system control method, program, and relay terminal
JP2021068666A (en) 2019-10-28 2021-04-30 パナソニックIpマネジメント株式会社 Environmental control system
JP2021144445A (en) * 2020-03-11 2021-09-24 パナソニックIpマネジメント株式会社 Control system, control method, and program

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016021732A (en) * 2014-06-20 2016-02-04 株式会社バッファロー Wireless connection device, network system and wireless connection device control method
JP2020087369A (en) * 2018-11-30 2020-06-04 パナソニックIpマネジメント株式会社 Presentation system, presentation system control method, program, and relay terminal
JP2021068666A (en) 2019-10-28 2021-04-30 パナソニックIpマネジメント株式会社 Environmental control system
JP2021144445A (en) * 2020-03-11 2021-09-24 パナソニックIpマネジメント株式会社 Control system, control method, and program

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