JP6351125B2 - Abnormality reporting system - Google Patents

Description

  The present invention relates to an abnormality notification system.

  In Patent Document 1, when it is determined that a fire has occurred by a signal from a camera-equipped fire detector, both the fire receiver and the fire receiver capture images taken by the camera-equipped fire detector. It is described that the information is displayed on a mobile phone capable of communication. Thereby, the mobile phone carrier can confirm the fire occurrence site without rushing to the site, and can take action according to the situation.

JP 2003-296836 A

  However, when the user who confirms the image of the fire occurrence site on the mobile phone has not received sufficient training, the user may panic and perform a notification operation to notify the appropriate reporting destination. There are things that cannot be done.

  The present invention has been made under the background described above, and an object of the present invention is to provide a technique that enables a site administrator who has detected an abnormality to easily perform a reporting operation to an appropriate reporting destination. Is to provide.

In order to solve the above-described problems, according to the present invention, an abnormality monitoring facility having an abnormality detector installed in a facility to be monitored, and a terminal that can be communicated with the abnormality monitoring facility and is carried by an administrator who manages the facility When the abnormality is detected by the abnormality detector, the terminal device acquires information on a notification destination corresponding to the facility where the abnormality detector that has detected the abnormality is installed. The software button selection operation has been performed on the report destination information acquisition means, the display control means for displaying the software button indicating the notification operation on the display means, and the operation means operated by an administrator managing the facility The operation specifying means for specifying the operation button, and the operation specifying means specifying that the software button selection operation has been performed on the operation means. , Abnormality notification system; and a notification means for performing notification operation to report destination based on the report destination information obtained by the report destination information obtaining means.

  According to the abnormality notification system based on the present invention, when an abnormality is detected in a monitored facility, an administrator operates a software button for reporting to a notification destination corresponding to the facility displayed on a terminal device carried by the administrator. By simply doing, it is possible to easily make a report to an appropriate report destination.

The system diagram which shows the structure of the fire reporting system which concerns on embodiment of this invention. The system diagram which shows the structure of a fire alarm equipment. The block diagram which shows the structure of a fire detector with a camera. The block diagram which shows the structure of a fire receiver. The block diagram which shows the structure of a mobile telephone. The block diagram which shows the function structure of the control part of a mobile telephone. The schematic diagram which shows an example of the display screen of a mobile telephone. The flowchart which shows operation | movement of the user terminal at the time of fire detection. The system diagram which shows the structure of the fire reporting system which concerns on the modification 1. FIG. The figure which shows an example of a report destination information management table.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a system diagram showing a configuration of a fire notification system 1 according to an embodiment of the present invention. The fire reporting system 1 includes a fire reporting facility 100 installed in a facility to be monitored, a mobile phone 400 carried by the facility manager, and a fire engine 500 serving as a report destination in the event of a fire. The fire alarm system 100, the mobile phone 400, and the fire engine 500 can communicate with each other via the communication network NW. The facilities to be monitored where the fire alarm system 100 is installed are nursing homes, group homes (facility where people with illness and disabilities and elderly people live with the assistance of specialized staff), commercial buildings, It may be an arbitrary facility such as a factory or a general household. The communication network NW may include any known communication network such as a mobile communication network, a fixed telephone communication network, and the Internet. The fire notification system 1 corresponds to an example of the abnormality notification system of the present invention, the fire notification facility 100 corresponds to an example of the abnormality monitoring facility according to the present invention, and the mobile phone 400 according to the present invention. It corresponds to an example of a terminal device, and the fire fighting organization 500 corresponds to an example of a report destination according to the present invention. The fire engine 500 includes a telephone and a terminal (computer device) for receiving a fire report or the like.

  FIG. 2 is a system diagram showing the configuration of the fire alarm facility 100. As shown in FIG. 2, the fire alarm system 100 includes a plurality of camera-equipped fire detectors 200, and a fire receiver 300 connected to these fire detectors 200 via signal lines 150.

  The fire detector with camera 200 has a function as a fire detector that detects a physical quantity related to a fire such as smoke concentration and heat (temperature) in an installed area (warning area) and outputs it as data. The camera-equipped fire detector 200 has a function as a camera that captures a predetermined range of an installed area and outputs a video signal representing the captured video.

  FIG. 3 is a block diagram showing a configuration of the fire detector with camera 200. The fire detector with camera 200 includes a control unit 210, a fire detection unit 220, an address setting unit 230, a communication unit 240, a camera 250, and a rotation unit 260. These units are communicably connected via a bus 270. Has been.

  The control unit 210 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory), and the CPU reads a program stored in the ROM into the RAM and executes the program. Each part of the fire detector 200 is controlled to realize various functions of the camera-equipped fire detector 200. The fire detection unit 220 outputs information (referred to as a “detection signal”) based on a physical quantity related to a fire such as heat. The fire detection unit 220 may be, for example, a heat sensor that detects heat (temperature), a smoke sensor that detects smoke, or a flame sensor that detects flame, or a combination of two or more functions of these sensors. It may be a type sensor. These sensors may be of a type that outputs a signal that changes according to a detected physical quantity (for example, temperature) as a sensing signal (referred to as a variable output type), and if the detected physical quantity satisfies a predetermined condition (for example, When the detected temperature exceeds a predetermined temperature), a type (referred to as “reporting”) that outputs a predetermined signal indicating the occurrence of a fire (referred to as an on-off type) may be used.

  The address setting unit 230 sets an address of the fire detector with camera 200, and an individual address AD is set for each fire detector with camera 200. The communication unit 240 transmits and receives various signals to and from the fire receiver 300 via the signal line 150. The camera 250 is, for example, a digital video camera, and photographs a warning area where the fire detector with camera 200 is provided. The video captured by the camera 250 is output as a video signal and transmitted to the fire receiver 300 via the signal line 150 by the communication unit 240. The rotating unit 260 supports the camera 250 and rotates according to a control command from the fire receiver 300 to change the shooting direction of the camera 250. Note that the transmission of the video signal from the camera 250 and the fire detection unit 210 does not hinder the transmission of information (sensing signal) representing the physical quantity related to the fire from the fire detection unit 210. May be transmitted to the fire receiver 300 via different signal lines.

  FIG. 4 is a block diagram illustrating a configuration of the fire receiver 300. As shown in FIG. 4, the fire receiver 300 includes a control unit 310, a storage unit 320, a display unit 330, an operation unit 340, a first communication unit 350, and a second communication unit 360, each of which is a bus 370. It is connected so that it can communicate via.

  The control unit 310 includes a CPU, a ROM, and a RAM. The CPU reads each program stored in the ROM or the storage unit 320 and executes the program, thereby controlling each unit of the fire receiver 300. 300 various functions are realized.

  The storage unit 320 is a large-capacity storage unit such as a hard disk or a flash memory, and stores various programs and data. The data stored in the storage unit 320 includes a sensor type ID, a pre-level SP, a fire discrimination level SF, and a warning area associated with the address AD individually assigned to each fire detector 200 with camera. Identification information and the like are included. Here, the pre-level SP and the fire discrimination level SF are detected by the fire receiver 300 from the camera-equipped fire sensor 200 when the camera-equipped fire sensor 200 has a variable output type sensor. This is a threshold value to be compared with the signal, and may vary depending on the sensor type, installation location, and the like. The pre-level SP is a threshold value for detecting a fire at a forecast level, and the fire determination level SF is a threshold value for detecting the occurrence of a fire at a fire alarm level. Fire detection at the fire alarm level is more reliable than fire detection at the forecast level. For example, when the pre-level SP and the fire discrimination level SF are set so that the pre-level SP <fire discrimination level SF, and the detection signal from the camera-equipped fire detector 200 exceeds the pre-level SP, the fire receiver 300 If it is determined that a fire at the forecast level has been detected (or a fire is suspected) and the fire determination level SF is exceeded, it may be determined that a fire at the fire alarm level has been detected. When it is determined that a fire at the forecast level has been detected, the fire receiver 300 displays the fact on the display unit 330 or notifies the mobile phone 400 as described later. Further, when the fire receiver 300 determines that a fire at the fire alarm level is detected, the fire receiver 300 is installed in the facility or in the fire department 500 in addition to the display on the display unit 330 and the mobile phone 400. Perform processing such as sounding an alarm bell (not shown) (determination that fire alarm level fire is detected by the fire receiver 300 and / or processing associated therewith may be referred to as “reporting”) ). When the camera-equipped fire detector 200 is an on / off type, the pre-level SP and the fire determination level SF need not be set for the address AD of the camera-equipped fire detector 200. When receiving a signal indicating that the fire detector 200 has issued from the on-off type fire detector 200, the fire receiver 300 determines that a fire of the fire alarm level has occurred.

  Further, the storage unit 320 stores time-series data of signals representing the state of each fire detector with camera 200 and a video signal from the camera 250 of each fire detector with camera 200. These data may be stored so as to be stored for a predetermined period such as 3 days, and updated so that the latest data is always stored. In addition, the past data may be stored in a medium such as an optical recording medium or transferred to an external server device connected to the communication network NW and stored for each predetermined period without erasing past data. Good.

  The display unit 330 is a liquid crystal display, for example, and displays various information based on an instruction from the control unit 310. For example, in a normal state where no fire has occurred, the display unit 330 displays character information indicating the normal state, such as “being normally monitored”. When a fire occurs, the display unit 330 displays the address AD of the camera-equipped fire detector 200 that has detected a fire (for example, the alarm is issued) and fire information indicating a warning area where the camera-equipped fire detector 200 is installed ( (Character information) is displayed, and an image taken by the camera 250 of the camera-equipped fire detector 200 that detects a fire is displayed superimposed on the character information.

  The operation unit 340 includes various input switches such as a camera-on switch OS, a numeric keypad TK, and a direction key HK, and sends an operation signal according to the content of an operation by the administrator of the fire alarm facility 100 to the control unit 310. By turning on the camera on switch OS, the control unit 310 validates the input using the numeric keypad TK and the direction key HK. When the camera on switch OS is turned on and the address AD of the camera-equipped fire detector 200 is input with the numeric keypad TK, the video of the camera 250 of the camera-equipped fire sensor 200 designated by the address AD is displayed on the display unit 330. The Then, by operating the direction key HK, the camera 250 is rotated via the rotation unit 260, and the shooting direction of the warning area shot by the camera 250 is changed.

  The first communication unit 350 is an interface for communicating with the mobile phone 400 and the fire engine 500 via the communication network NW outside the fire alarm system 100, and has a function of, for example, a general subscriber phone terminal. The second communication unit 360 is an interface for exchanging data with the fire detector 200 via the signal line 150.

  The operation of the control unit 310 of the fire receiver 300 will be described. The control unit 310 of the fire receiver 300 transmits a control signal “address AD / return command” for calling the fire detector with camera 200 to the signal line 150 via the second communication unit 360 in a polling manner during normal monitoring. To do. Here, the address AD is an address of the camera-equipped fire detector 200 to which a detection signal should be returned. The camera fire detector 200 corresponding to the address AD responds to this control signal, and sends a return signal “address AD / sense signal” including its own address AD and sense signal to the signal line 150. The fire receiver 300 receives the return signal and determines whether or not a fire has been detected based on the detection signal included in the return signal. This polling operation is sequentially performed on all the camera-equipped fire detection units 200 monitored by the fire receiver 300.

  Here, when the fire detector with camera 200 is a variable output type fire detector, the control unit 310 of the fire receiver 300 indicates that the output signal (sense signal) from the fire detector with camera 200 is the fire detector with camera. When the pre-level SP associated with the vessel 200 is exceeded, it is determined that a forecast level fire has been detected. In this case, the camera-equipped fire detector 200 whose output signal exceeds the pre-level SP is referred to as a camera-equipped fire sensor that detects a fire. When the fire detector with camera 200 is an on-off type fire detector, upon receiving a signal indicating that the fire detector with camera 200 has triggered a fire, the control unit 310 of the fire receiver 300 causes a fire at a fire alarm level to occur. It is determined that it has been detected. In this case, the fire detector with camera 200 that has been issued is referred to as a fire detector with camera that detects a fire. In the following description, unless otherwise specified, the detection of fire by the camera-equipped fire detector 200 includes both detection of fire at a forecast level and detection of fire at a fire alarm level.

  When it is determined that the fire is detected based on the detection signal from the camera-equipped fire detector 200 during the polling operation, the control unit 310 of the fire receiver 300 controls the fire detector 200 with the camera that has detected the fire. The signal “address AD / video signal transmission command” is transmitted through the signal line 150. Here, the address AD is the address of the fire detector with camera 200 that has detected a fire. In response to this control signal, the fire detector with camera 200 corresponding to the address AD responds, and a return signal “address AD / video” including its own address AD and a video signal representing the video of the warning area taken by the camera 250. Signal "is sent to the signal line 150. The control unit 310 of the fire receiver 300 receives this return signal and causes the display unit 330 to display the video (video information) of the warning area taken by the camera 250 on the fire information.

  In addition, the control unit 310 of the fire receiver 300 transmits a display command to the mobile phone 400 via the communication network NW in order to display the video of the warning area captured by the camera 250 on the display unit 430 of the mobile phone 400. To do. The display command is transmitted to the mobile phone 400 via, for example, a mobile communication network included in the communication network NW. In the display command, in addition to the video signal representing the video photographed by the camera 250, the facility identification information for identifying the facility where the fire receiver 300 (fire notification facility 100) is installed, the position indicating the location of the facility Information, location information indicating the installation location (warning area) of the fire detector 200 that detects a fire, date information indicating the date and time when the fire was detected, and the like. The facility identification information may be any information that can identify the facility, such as the name of the facility and the telephone number of the telephone installed in the facility, and is stored in the storage unit 320 of the fire receiver 300 in advance. The facility location information is an address of the facility and is stored in advance in the storage unit 320 in association with the facility identification information. The location information indicating the installation location (warning area) of the fire detector with camera 200 may be a room number when the facility is a group home, for example, “kitchen”, “bathroom”, etc. It may be stored in the storage unit 320 in association with the address AD of the camera-equipped fire detector 200.

  FIG. 5 is a block diagram showing the configuration of the mobile phone 400. As shown in FIG. 5, the mobile phone 400 includes a control unit 410, a storage unit 420, a display unit 430, an operation unit 440, a communication unit 450, a microphone (hereinafter referred to as a microphone) 460, and a speaker 470. Each unit is communicably connected via a bus 480.

  The control unit 410 includes a CPU, a ROM, and a RAM. The CPU reads each program stored in the ROM or the storage unit 420 and executes the program, thereby controlling each unit of the mobile phone 400. Realize various functions. The storage unit 420 is a large-capacity storage unit such as a hard disk or a flash memory, and stores various programs and data. The display unit 430 is a liquid crystal display, for example, and displays various information based on instructions from the control unit 410. In the event of a fire, as will be described in detail later, in accordance with a display command from the fire receiver 300, an image taken by the camera 250 of the camera-equipped fire detector 200 that has detected a fire is displayed together with other information. .

  The operation unit 440 sends an operation signal corresponding to the content of the operation by the user of the mobile phone 400 (for example, the manager of the facility to be monitored) to the control unit 410. In this example, the operation unit 440 includes a touch pad (position detection sensor) 441 that is arranged on the display surface of the display unit 430 and forms a touch panel together with the display unit 430. The touch pad 441 detects the position of the screen of the display unit 430 touched by the user, and is of any known method such as a capacitance method, a resistance film method, an infrared method, or an ultrasonic method. Good. The communication unit 450 is an interface for communicating with the fire alarm system 100 and the fire engine 500 through the communication network NW. Under the control of the control unit 410, the communication unit 450 receives a video signal acquired by the camera 250 of the fire detector 200 from the fire alarm device 100 via, for example, a telephone line (mobile telephone line and fixed telephone line). Or send information to the fire engine 500 via a telephone line or the Internet.

  The microphone 460 picks up the user's voice and converts it into a voice signal when the user calls using the mobile phone 400. The speaker 470 converts the voice signal of the other party to sound and outputs the sound when the user makes a call using the mobile phone 400.

  FIG. 6 is a block diagram illustrating a functional configuration of the control unit 410 of the mobile phone 400. As illustrated in FIG. 6, the control unit 410 includes a reception unit 411, a display control unit 412, a report destination information acquisition unit 413, a report unit 414, a voice synthesis unit 415, and an operation identification unit 416. The receiving unit 411 receives a display command transmitted from the fire receiver 300 of the fire alarm system 100 via the communication unit 450 when a fire is detected by the camera-equipped fire detector 200 of the fire alarm system 100. The display command includes, as described above, a video signal representing an image captured by the camera 250 of the fire detector with camera 200 that detects a fire, facility identification information (for example, a facility name), and location information (address) of the facility. ), Location information of the fire detector 200 that has detected a fire, fire detection date and time, and the like. The reception unit 411 sends the received video signal and each information to the display control unit 412, and the display control unit 412 controls the display unit 430 to perform display based on the video signal received from the reception unit 411 and each information. . The receiving unit 411 corresponds to an example of a position information acquisition unit and an installation location information acquisition unit according to the present invention.

  FIG. 7 is a schematic diagram illustrating an example of a screen displayed on the display unit 430 of the mobile phone 400 based on a display command from the fire receiver 300. As shown in FIG. 7, the display screen of the display unit 430 is divided into three areas: an information display area 431, a video display area 432, and an operation area 433. In the uppermost information display area 431, the name of the facility in which the fire included in the display command is detected, the address of the facility, the location (room number) of the detector, and the date and time of fire detection are displayed. In the video display area 432 in the center, an image captured by the camera 250 of the camera-equipped fire detector 200 that detects a fire is displayed. In the lowermost operation area 433, a display indicating a notification operation is displayed. In this example, the display indicating the notification operation is a software button 434 including the characters “report”. Here, the software button is an image displayed on the display unit 430 and is selected by a touch operation by the user detected by the touch pad 441, for example. When a software button is selected by a user operation, control unit 410 interprets that an instruction assigned to the software button (in the case of a “report” software button, an instruction for a notification operation) is made by the user.

  In the operation area 433, an arrow button 435 for operating the camera 250 of the camera-equipped fire detector 200 in which the captured video is displayed in the video display area 432 is displayed. When the user of the mobile phone 400 touches the arrow button 435, an operation signal corresponding thereto is transmitted from the mobile phone 400 to the fire receiver 300 of the fire alarm system 100 via the communication network NW. Based on the operation signal received from the phone 400, the rotating unit 260 corresponding to the camera 250 displaying an image on the mobile phone 400 is operated. Thereby, the direction of the camera 250 is moved in a direction corresponding to the arrow button 435 touched by the user.

  Referring to FIG. 6 again, the reception unit 411 supplies the facility identification information to the report destination information acquisition unit 413 among the information included in the display command received via the communication unit 450. The report destination information acquisition unit 413 refers to the storage unit 420 and acquires the report destination information stored in advance in the storage unit 420 in association with the facility identification information. The information of the report destination is, for example, a telephone number or an e-mail address (sometimes simply referred to as a mail address) of the fire fighting organization 500 that has jurisdiction over the area where the facility is located. The report destination information acquisition unit 413 sends the acquired report destination information to the report unit 414. The contact information corresponding to the facility identification information stored in advance in the storage unit 420 may be set / changed by the user of the mobile phone 400.

  The reception unit 411 also includes, among information included in the display command received via the communication unit 450, the facility name, the facility location information (address), the location information of the fire detector 200 that has detected a fire, and the fire detection date and time. Is sent to the speech synthesizer 415. The voice synthesizer generates a voice signal that expresses the information received from the receiver 411 by voice and supplies the voice signal to the report unit 414.

  The operation specifying unit 416 receives an operation signal from the operation unit 440 and determines whether or not an operation based on a display indicating the notification operation displayed on the display unit 430 has been performed by the user. When it is determined that the display indicating the notification operation is performed by the user, the operation specifying unit 416 sends information indicating that to the notification unit 414. In the example shown in FIG. 7, since the display indicating the notification operation is the “report” software button 434, the operation specifying unit 416 determines that the touch operation of the “report” software button 434 has been performed by the user. It determines with operation based on the display which shows operation being performed, and sends the information which shows that to the report part 414. FIG.

  When the reporting unit 414 receives information indicating that an operation based on a display indicating a reporting operation has been performed by the user from the operation specifying unit 416, the reporting unit 414 controls the communication unit 450 to report the reporting acquired by the reporting destination information acquiring unit 413. A reporting operation is performed based on the destination information. For example, when the information of the report destination is the telephone number of the report destination, the report unit 414 calls the telephone number as a report operation. When a call is connected to the report destination, the report unit 414 transmits the voice signal generated by the voice synthesizer 415 to the report destination through a telephone line. At the report destination, by reproducing sound based on the received audio signal, it is possible to grasp when and where the fire has occurred and take appropriate action.

  FIG. 8 is a flowchart showing the operation of the mobile phone 400 when a fire is detected. When a fire is detected by any of the fire detectors with camera 200, a display command including a video signal obtained by the camera 250 of the fire detector with camera 200 is sent from the control unit 310 of the fire receiver 300 to the mobile phone 400. The display command is received by the receiving unit 411 of the mobile phone 400 (step S1). When the display command is received, the display control unit 412 of the mobile phone 400 causes the display unit 430 to display a video based on the video signal included in the received display command (step S2). At this time, the display unit 430 displays a display indicating the notification operation (for example, the “report” software button in FIG. 7) along with the display of the video taken by the camera 250.

  In step S <b> 3, the operation specifying unit 416 of the mobile phone 400 determines whether a notification operation based on a display indicating the notification operation displayed on the display unit 430 has been performed. If it is determined that the notification operation has been performed (step S3: YES), the process proceeds to step S4. If not (step S3: NO), it waits for the notification operation to be performed.

  In step S <b> 4, the report destination information acquisition unit 413 acquires report destination information corresponding to the facility identification information included in the display command received by the reception unit 411. In step S5, the reporting unit 414 performs a reporting operation based on the reporting destination information acquired in step S4. Note that the image displayed on the display unit 430 when the notification operation is performed may be stored in the storage unit 420. Thereby, it is possible to confirm the state of the site when a report is made later.

  As described above, the mobile phone 400 of the present embodiment has a camera-equipped fire detector when a fire (predictive level or fire alarm level) is detected by the camera-equipped fire detector 200 installed in the facility to be monitored. The video signal representing the video imaged by 200 is received, and a display indicating the notification operation is displayed on the display unit 430 together with the video image. Further, a preset notification operation is performed in response to an operation in accordance with the display indicating the notification operation on the operation unit 440. Therefore, the user of the mobile phone 400 that has received the fire notification can easily make a report by performing an operation in accordance with the display indicating the report operation even when the user is upset by the sudden fire. . In addition, since the mobile phone 400 performs a notification operation based on contact information corresponding to the facility where the fire detector with camera 200 that detects a fire is installed, the user of the mobile phone 400 is away from the facility ( For example, even in a different prefecture, it is possible to make a report to the most suitable report destination (for example, the fire department 500 having jurisdiction in the area to which the facility belongs) in order to deal with the fire of the facility.

[Modification]
The present invention is not limited to the above-described embodiment, and various modifications can be made. Hereinafter, some modifications will be described. Two or more of the following modifications may be used in combination.

(Modification 1)
In the embodiment described above, there is one facility to be monitored. However, the present invention is not limited to this. There may be a plurality of facilities to be monitored. The plurality of monitoring target facilities may be under the jurisdiction of different fire fighting organizations.

  FIG. 9 is a system diagram illustrating a configuration of the fire reporting system 1 according to the first modification. The fire notification system 1 shown in FIG. 9 is different from the fire notification system 1 shown in FIG. 1 in that there are two facilities to be monitored and each has fire notification facilities 100A and 100B installed. In the fire reporting system 1 shown in FIG. 9, the facility where the fire alarm system 100A is installed is under the jurisdiction of the fire engine 500A, and the facility where the fire alarm device 100B is installed is under the jurisdiction of the fire engine 500B. . That is, the appropriate notification destination at the time of the fire is different between the facility where the fire alarm facility 100A is installed and the facility where the fire alarm facility 100B is installed. In this case, the mobile phone 400 may store in the storage unit 420 a report destination information management table TB1 that stores report destination information for each facility to be monitored.

  FIG. 10 is a schematic diagram illustrating an example of the report destination information management table TB1. In this example, the facility where the fire alarm facility 100A is installed is referred to as “AAAAA”, and the facility where the fire alarm facility 100B is installed is referred to as “BBBBB”. As shown in FIG. 10, a number “No.” is assigned to each of the facilities “AAAAA” and the facility “BBBBB”, and “report destination telephone number”, “report destination mail address”, “ “Reporting URL” is set. The “report destination URL” is used when a fire report is sent to the computer device (data center or the like) of the report destination by data transmission. When the report destination has no computer device and has only a telephone, the “report destination mail address” and “report destination URL” fields may be blank.

  When a fire is detected by the camera fire detector 200 installed in the facility “AAAAA” or the facility “BBBBB”, the mobile phone 400 causes a fire from the fire receiver 300 of the fire alarm device 100A or the fire alarm device 100B. A display command including a video signal acquired by the detected fire detector with camera 200 is received. As described above, since this display command includes facility identification information (for example, facility name) for identifying the facility where the fire detector 200 that detects a fire is installed, the notification destination information of the mobile phone 400 is included. The acquisition unit 413 refers to the report destination information management table TB1 stored in the storage unit 420 using the facility identification information, and acquires report destination information associated with the facility identification information. Thereby, even when there are a plurality of facilities to be monitored, the user of the mobile phone 400 can report to an appropriate report destination corresponding to the facility where the fire is detected.

  The report destination information management table TB1 may be stored in a location other than the storage unit 420 of the mobile phone 400. For example, the information is stored in a server device (not shown) connected to the communication network NW, and the mobile phone 400 transmits facility identification information to this server device to request communication destination information, and as a response, the facility identification information The information of the report destination associated with may be acquired from the server device. Alternatively, the notification destination information corresponding to the facility “AAAAA” is stored in the storage unit 320 of the fire receiver 300 of the fire notification facility 100A, and the facility “BBBBB” is stored in the storage unit 320 of the fire receiver 300 of the fire notification facility 100B. The contents of the report destination information management table TB1 may be divided and stored such that the report destination information to be stored is stored. In that case, when a fire is detected by the camera-equipped fire detector 200, the fire receiver 300 stores the report destination information corresponding to the facility where the camera-equipped fire detector 200 is installed in the storage unit 320. And transmitted to the mobile phone 400 together with the display command (or included in the display command). The receiving unit 411 of the mobile phone 400 sends the received report destination information to the reporting unit 414. Therefore, in this case, the receiving unit 411 functions as a report destination information acquisition unit.

  In the example shown in FIG. 9, the number of facilities to be monitored is two, but the number of facilities to be monitored may be more than two and is not particularly limited.

(Modification 2)
In the above-described embodiment, the fire alarm system 100 (fire receiver 300) has reported that one mobile phone 400 has detected a fire (transmission of images taken by the fire detector with camera 200). However, the present invention is not limited to this. You may transmit the image | video image | photographed with the fire detector 200 with a camera to the several mobile phone 400. FIG. Further, the terminal device to which the video captured by the camera-equipped fire detector 200 is transmitted is not limited to a mobile phone, and may be a mobile terminal other than a mobile phone such as a tablet terminal or a laptop computer. Alternatively, the terminal device may be a stationary computer device. It suffices to be able to display an image captured by the fire detector with camera 200 transmitted from the fire receiver 300. In the case where the terminal device does not have a telephone function, when a notification operation is instructed by the user, the terminal device may perform notification by e-mail or other data transmission. When making a fire report by e-mail or data transmission, the mobile phone 400 may transfer the video signal sent from the fire receiver 300 to the report destination. Or you may transmit the image (still image) currently displayed on the display part 430 at the time of a report.

(Modification 3)
In the above embodiment, the fire detector with camera 200 is used as the abnormality detector, but the present invention is not limited to this. The camera 250 may be separated from the fire detector. In short, it is only necessary that the camera 250 is installed in association with the fire detector so that the camera 250 can capture an area where the fire detector is installed.

  The abnormality detector may be a sensor other than a fire sensor such as a gas sensor or a trespass detector.

(Modification 4)
In the above embodiment, the “notification” software button is displayed on the display unit 430 of the mobile phone 400 as a display indicating the notification operation displayed together with the video taken by the fire detector with camera 200 that has detected a fire. The present invention is not limited to this. For example, when the mobile phone 400 includes a hard key such as a numeric keypad, a notification operation guidance message such as “Press any keypad to report” may be displayed.

(Modification 5)
In the above-described embodiment, the reporting unit 414 of the mobile phone 400 calls the telephone number of the report destination as the report operation, and when the call is connected to the report destination, the voice signal generated by the voice synthesis unit 415 is transmitted through the telephone line. Sent to the report destination. However, the present invention is not limited to this. For example, it is not necessary to transmit an audio signal. In that case, the user of the mobile phone 400 will explain the date and time of the occurrence of the fire, the location, etc. At this time, if the display unit 430 of the mobile phone 400 displays information such as the date and time of the fire occurrence, the name and address of the facility where the fire occurred, the installation location of the sensor 200 that detected the fire, etc., the user explains It becomes easy. In addition, the fire occurrence date / time, location, etc. may be transmitted by sending an e-mail or transmitting data via the Internet without using a telephone.

(Modification 6)
In the above embodiment, the location information indicating the facility name of the facility to be monitored and the location information indicating the location of the facility is stored in the storage unit 320 of the fire receiver 300, and when a fire is detected, The information was included in the display command and transmitted to the mobile phone 400. However, the present invention is not limited to this. For example, the number associated with each facility in the management table TB1 shown in FIG. 10 is transmitted as facility identification information from the fire receiver 300 to the mobile phone 400, and the mobile phone 400 uses the received facility identification information to generate a table TB1. The facility name may be acquired with reference to FIG. In addition, if the management table TB1 has a facility location information column and location information is stored in association with the facility identification information (“No.”), the mobile phone 400 sends it from the fire receiver 300. The facility location information can be acquired by referring to the management table TB1 using the facility identification information.

  The same applies to the location information indicating the installation location (warning area) of the camera-equipped fire detector 200. That is, the location information of each camera fire detector 200 of the fire alarm system 100 is stored in the storage unit 420 of the mobile phone 400 in association with the identification information of each camera fire detector 200. The identification information of the camera-equipped fire detector 200 that has detected a fire from the receiver 300 is sent to the mobile phone 400, the storage unit 420 is referred to on the mobile phone 400 side, and the fire detector with a camera associated with the received identification information. 200 pieces of location information may be acquired.

(Modification 7)
Programs that realize the functions of the control unit 410 include magnetic recording media (magnetic tape, magnetic disk (HDD, FD (Flexible Disk)), etc.), optical recording media (optical disc (CD (Compact Disc), DVD (Digital Versatile Disk))) Etc.) may be provided in a state stored in a computer-readable recording medium such as a magneto-optical recording medium or a semiconductor memory, and installed in a terminal device such as a cellular phone. Alternatively, it may be downloaded via a communication line and installed in the terminal device.

DESCRIPTION OF SYMBOLS 1 ... Fire notification system 1,100,100A, 100B ... Fire notification equipment, 150 ... Signal line, 200 ... Fire detector with camera, 210 ... Control unit, 220 ... Fire detection unit, 230 ... Address setting unit, 240 ... Communication , 250 ... Camera, 260 ... Rotating part, 270 ... Bus, 300 ... Fire receiver, 310 ... Control part, 320 ... Storage part, 330 ... Display part, 340 ... Operation part, 350 ... First communication part, 360 ... 2nd communication part, 370 ... Bus, 400 ... Mobile phone, 410 ... Control part, 411 ... Reception part, 412 ... Display control part, 413 ... Report destination information acquisition part, 414 ... Report part, 415 ... Speech synthesis part, 416 ... Operation specifying unit, 420 ... Storage unit, 430 ... Display unit, 431 ... Information display area, 432 ... Video display area, 433 ... Operation area, 434 ... Software button, 435 ... Arrow button , 440 ... operation unit, 450 ... communication unit, 460 ... microphone, 470 ... speaker, 480 ... bus, 500,500A, 500B ... fire department, NW ... communication network, TB1 ... report-destination information management table

Claims (2)

An anomaly reporting system having an anomaly monitoring equipment having an anomaly detector installed in a facility to be monitored, and a terminal device carried by an administrator who can communicate with the anomaly monitoring equipment and manage the facility,
The terminal device
When an abnormality is detected by the abnormality detector, notification destination information acquisition means for acquiring information of a notification destination corresponding to the facility where the abnormality detector that has detected the abnormality is installed;
Display control means for displaying a software button indicating a reporting operation on the display means;
An operation specifying means for specifying that the selection operation of the software button is performed on the operation means operated by an administrator who manages the facility;
In response to the fact that the operation specifying unit has specified that the software button selection operation has been performed on the operation unit, the notification destination information is acquired based on the notification destination information acquired by the notification destination information acquisition unit. An abnormality reporting system comprising: a reporting means for performing a reporting operation. The server device or the abnormality monitoring facility is connected to a communication network via a communication unit, and includes a storage unit that stores information on a report destination associated with facility identification information.
The said report destination information acquisition means acquires the information of the report destination matched with the facility identification information which identifies the facility where the abnormality detector which detected the said abnormality was installed from the said memory | storage part. The abnormality report system according to 1.