JP2013089091A - Fire alarm facility - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable an evacuee to easily evacuate at the occurrence of a fire.SOLUTION: The fire alarm facility is arranged in a building, and includes: a fire sensor for detecting a fire; and a fire receiver for receiving a fire signal from the fire sensor. The fire alarm facility includes a fire information distribution server connected via the Internet to the fire receiver for distributing the information of fire occurrence at the occurrence of a fire or the drawing information of the building. A portable information terminal receives the fire information distributed from the fire information distribution server to start an evacuation guidance application, and detects the current location of its own terminal, and transmits the current location information to the fire information distribution server. Afterwards, an in-building person (evacuee) confirms the drawing information of the building in the vicinity of the current location transmitted from the fire information distribution server by the portable information terminal.

Description

The present invention relates to a fire alarm facility.

Conventionally, fire alarm equipment has been installed in buildings. The fire alarm system includes a fire detector that detects a fire, and a fire receiver that receives a fire signal from the fire detector and displays the location of the fire. In the event of a fire, the broadcast facility broadcasts the occurrence of a fire, and the residents in the building evacuate according to the guide light.
There is also an evacuation guidance system such as Patent Document 1 in which a plurality of guide lights are installed in a corridor of a building and guided in a safe direction by a light flow pattern.

JP-A-8-77482

When the building is small, it is possible to provide an evacuation guidance system as in Patent Document 1, but in the case of a large building of a certain scale or larger, it is expensive to install the evacuation guidance system.

Moreover, when the scale of the building is large, there is a problem that it is difficult to grasp the direction in the building when evacuating in a fire and it is difficult to know which direction to escape and it is difficult to evacuate.
Moreover, there is a problem that it is difficult for the manager of the building to grasp whether all the visitors have evacuated.

The present invention provides a fire alarm facility provided in a building and having a fire detector for detecting a fire and a fire receiver for receiving a fire signal from the fire detector, and is connected to the fire receiver via the Internet. A fire information distribution server that distributes information on the occurrence of a fire in the building at the time of a fire, and a portable information terminal in the building that receives the fire information distributed from the fire information distribution server, the portable information terminal, In the event of a fire, the drawing information of the building stored in the fire information distribution server can be displayed.

In the present invention, the drawing information of the building near the current position of the user is sent from the fire information distribution server in the event of a fire, so it is possible to know where in the building you are and where to evacuate.

In addition, since the drawing information can be switched and displayed with the screen of the fire scene taken by the surveillance camera, it can be confirmed whether or not it is a false alarm.
Further, when the evacuation of the visitors who own the portable information terminal is completed, the evacuation completion information can be grasped, so that it is possible to confirm the number of visitors who have not escaped from the building.

It is a system diagram of the fire alarm system of the present invention. It is an example of a display of the electronic mail displayed on a portable information terminal. It is a display example of a building displayed on a portable information terminal.

Hereinafter, the fire alarm facility of the present invention will be described with reference to FIG. In FIG. 1, 10 is a fire detector, which is provided in a building and detects a fire in the building. Reference numeral 20 denotes a monitoring camera, which is provided in the building and constantly takes pictures of the building monitoring area. A fire receiver 30 is connected to the fire detector 10 via a signal line, and receives a fire signal from the fire detector 10. The fire receiver 30 is connected to the monitoring camera 20 via a video line, and receives the video signal of the monitoring camera 20. The monitoring camera 20 may send a video signal to the fire receiver 30 using a signal line to which the fire detector 10 is connected.

  The fire receiver 30 includes a fire signal receiving unit that receives a fire signal, an alarm unit that performs a fire alarm in the event of a fire, an operation unit, a display unit, a communication unit, and the like, and a camera input switching unit as a means for processing a video signal A video compression unit, an image memory, an image data transmission unit, and an image processing unit.

  The communication unit of the fire receiver 30 is connected to the fire information distribution server 50 via the Internet 42, and fire information and video information acquired on the fire receiver 30 side are sent to the fire information distribution server 50 and stored therein. It will be. Here, the connection between the fire receiver 30 and the Internet 42 is performed by normal communication connection means. For example, a communication device 40 constituted by a personal computer or the like is used as a communication connection means, and this communication device 40 is connected to the fire receiver 30 via an RS232C interface. The communication device 40 transmits fire information and the like transferred using a wireless LAN to a mobile router (not shown). The mobile router is connected to the Internet 42 via mobile base stations by mobile communication such as 3G. In addition, you may connect to the internet 42 via an intranet.

  Reference numeral 50 denotes a fire information distribution server which is connected to the fire receiver 30 via the Internet 42 and distributes or provides information on the occurrence of a fire, drawing information for evacuation, and the like at the time of a fire. The fire information distribution server 50 includes at least a building database 51, a drawing information database 52, a fire scene video database 53, a transmission destination database 54, a transmission / reception unit 55, a position information acquisition unit 56, and a mail / drawing creation unit 57.

  The building database 51 is a database relating to a building, and stores a serial number of the building managed and registered by the fire information distribution server 50 and drawing information for each building in association with each other. In addition to that, the location of the building, the name of the building, and the like are stored, and a comparison table between the address of the fire detector 10 installed in the building and the installation location is also stored.

  The drawing information database 52 stores, for each building (building serial number), an overall side view of the building and a plan view of each floor. In addition, you may use this side view and top view which described the installation place of the fire detector.

  The fire site video database 53 stores the video captured by the monitoring camera 20 in the event of a fire together with the building serial number. The transmission destination database 54 stores the address information of the e-mails of the visitors collected by the receiving device 70 described later together with the building serial number for each building. In the transmission destination database 54, the location information of the visitors by the GPS function of the portable information terminal 60 and the evacuation information are also stored.

  The information stored in the various databases 51 to 54 in the fire information distribution server 50 is such that a necessary e-mail and drawings are automatically created by the mail / drawing creation unit 57. Thus, the location of the fire detector 10 that has fired is displayed on the drawing.

  Reference numeral 60 denotes a portable information terminal such as a smart phone. The portable information terminal 60 includes a control unit 62, an operation unit 61, a communication unit 64, a display device (display unit 63), a call unit 65, a memory 67, and all functions included in a general mobile phone terminal such as a vibrator. A function unit 66 is provided.

  In the case of the present embodiment, the portable information terminal 60 is one of a plurality of application programs stored in the memory, for example, for guiding a person in the building (user) to a safe evacuation site in the event of a fire. An evacuation guidance program (evacuation guidance application) and a terminal application program capable of automatically starting the evacuation guidance program are provided. In the present embodiment, an e-mail program is cited as an example of a terminal application program that activates an evacuation guidance program, but other dedicated application programs may be prepared.

  Further, the portable information terminal 60 can be connected to the Internet 42 by wireless communication via a mobile base station (not shown) connected to the Internet 42. The portable information terminal 60 has a browser function that can be wirelessly connected to the Internet 42, and requests the transfer of information such as HTML in accordance with the URL code of the homepage designated by the resident. Then, the received HTML is analyzed, and the display portion is displayed on the screen. When link information such as an image exists in the HTML, a transfer request for the image is made.

  The portable information terminal 60 receives the fire information distributed from the fire information distribution server 50, activates the evacuation guidance application, detects the current position of the terminal itself using the GPS function, and obtains the current position information from the Internet 42. It is transmitted to the fire information distribution server 50 via, and then receives the drawing information of the building around the current position transmitted from the fire information distribution server 50.

  70 is an admission device for visitors, and is provided at all entrances of the building. For example, when the building is a large-scale department store, the visitor registers the e-mail address of the portable information terminal 60 that he / she owns at the reception device 70 in the reception device 70 as address information. The latest information such as events of the day can be received by e-mail.

  The reception device 70 is a device for receiving building services. In addition, the reception device 70 is also used for managing information on visitors (residual information) at the time of a fire. Although the receiving device 70 is not shown in detail, for example, the receiving device 70 may be provided with a non-contact data carrier system. The visitor owns the portable information terminal 60 as a non-contact data carrier and installs a responder in the receiving device 70. Accordingly, the visitors can communicate by simply presenting the portable information terminal 60 to the radio wave communication area of the responder, for example, touching, approaching, facing, or approaching, and can detect the visitors without contact.

  As stored information to the receiving device 70, a large number of contact information such as the name, age, and gender of the visitor can be stored, but at least a communication number (e-mail address or mobile phone number) that is address information is stored. Just do it. The reception device 70 is connected to the fire receiver 30, and the address information stored in the reception device 70 is sent to the fire information distribution server 50 via the communication device 40 in the same manner as the fire information. Yes.

  Next, an example of operation when a fire occurs in a building, for example, when a fire occurs on the sixth floor of a 10-storey department store will be described. When the fire detector 10 installed on the sixth floor detects a fire, a fire signal is sent to the fire receiver 30. The fire receiver 30 issues a fire alarm with a buzzer or the like, and displays on the display section that a fire has occurred on the sixth floor.

In addition, the communication unit of the fire receiver 30 transfers to the communication device 40 fire information indicating that the fire detector 10 installed on the sixth floor of the building has reported, that is, that a fire has occurred on the sixth floor. . If the fire information output from the fire receiver 30 is a fire signal, the fire information includes the address and type of the fire detector that has detected the fire, text indicating position information, the date and time of occurrence, and the like.
Fire information is sent from the communication device 40 to the fire information distribution server 50 via the Internet 42. Here, the fire information is sent together with building information which is an address for each building managed by the fire information distribution server 50.

  It should be noted that when the fire detector 10 detects a fire, the camera input switching unit in the receiver 30 causes the monitoring camera 20 to be able to acquire video information taken by the monitoring camera 20 near the fire detector 10. Can be switched. And the fire receiver 30 memorize | stores the video information of the surveillance camera 20 in the fire site vicinity in an image memory. The image information is compressed by the image compression unit, and then sent to the fire information distribution server 50 by the image data sending unit in the same manner as the fire information, and is stored in the fire scene video database 53 together with the building serial number information. The

  As described above, on the fire information distribution server 50 side, when a fire occurs, it is possible to know which building and where in the building the fire has occurred from the fire information. Further, it can be seen from the information stored in the transmission destination database 54 how many people are in the building.

  When the fire information distribution server 50 receives the fire information from the fire receiver 30, the fire information distribution server 50 simultaneously transmits information indicating that a fire has occurred in the building to the visitors in the building where the fire has occurred. This simultaneous transmission is performed based on the e-mail address information stored in the destination database 54 in the server 50.

  Based on the building information, the database 54 is searched from the destination database 54 using the serial number of the building where the fire occurred as a search key, and only the e-mail addresses of the residents in the building are extracted from the database 54. . Then, for example, an e-mail E1 as shown in FIG. 2 is transmitted from the fire information distribution server 50 to the portable information terminal 60 possessed by the visitor.

  The e-mail E1 in FIG. 2 includes a fire comment 1a for notifying the contents of the fire occurrence, and URL 1b which is address information for visually checking the monitoring area in charge with the video of the monitoring camera 20 (video of the fire scene). Are linked. 2 is also linked to URL 1c which is address information with which the drawing of the building can be confirmed. The fire comment 60a is automatically created by the program according to the contents of the fire information acquired by the fire information distribution server 50 from the fire receiver 30 when the contents such as the date and time are appropriate.

  When the URL 1b displayed in the e-mail E1 is clicked, the fire scene video stored in the fire scene video database 53 of the fire information distribution server 50 can be visually confirmed. As described above, in the portable information terminal 60, when the evacuation guidance application is activated, the image information captured by the monitoring camera 20 can be displayed on the display unit, so it is possible to confirm whether or not the fire alarm is a false alarm.

  When the URL 1c displayed in the e-mail E1 is clicked, a drawing such as a side view of the building stored in the drawing information database 52 of the fire information distribution server 50 can be viewed.

  The mobile information terminal 60 activates the evacuation guidance application by receiving the fire information delivered from the fire information delivery server 50 by the electronic mail E1. The portable information terminal 60 activates the evacuation guidance application triggered by the reception of the fire information mail distributed from the fire information distribution server 50. This is because, when receiving the e-mail E1, the text analysis and transmission of the flag and the subject are performed. This is done by determining whether the electronic mail is a fire information delivery mail based on information such as the original address. When the evacuation guidance application is activated, the control unit 62 of the portable information terminal 60 activates the GPS function unit 66 to acquire the current position information, and sends the current position information to the fire information distribution server 50 together with an e-mail address, for example. Send.

  The fire information distribution server 50 acquires the position information transmitted from the portable information terminal 60 by the position information acquisition unit 56 and refers to the address of the transmission source together with the corresponding e-mail address of the transmission destination database 54. Store information.

  When the fire information distribution server 50 acquires the location information of the person in the building, next, the mail / drawing creation unit 57 creates a drawing of the building for supporting evacuation from the building. First, drawing Z1 (refer FIG. 3) which added the positional information by GPS to the whole side view of the building memorize | stored in the drawing information database 52 is created. When there is a request from the portable information terminal 60, this drawing Z1 is provided to the portable information terminal 60 as drawing information of the building.

  In the drawing Z1 of FIG. 3, an overall side view Z1a showing an overview of the building is shown along with the direction, and coordinates indicating the position of the resident are indicated by vertical lines Z1b. Further, the location of the fire detector 10 is specified from the address information of the fire detector 10, and the location of the fire detector 10 that has made the notification is indicated by a flame mark Z1c.

  The user of the portable information terminal 60 confirms the drawing Z1 shown in FIG. 3 on the display unit of the terminal by pressing the link URL 1c of the e-mail E1 received earlier, and the location of the fire that occurred in the building (fire It is possible to grasp the positional relationship between the detection location of the sensor 10) and its current position. This makes it possible to know where in the building you are and from which direction to evacuate.

  Drawing information displayed on the portable information terminal 60 can be switched by operating the operation unit 61 of the terminal or touching the display unit 63. As shown in FIG. 3, at first, a side view of the entire building is displayed so that the appearance can be understood. However, when more detailed drawing information is desired, the displayed drawing can be switched. . For example, the screen can be switched to a floor plan stored in the drawing information database 52 of the fire information distribution server 50. In addition, it is possible to display an image of a fire scene image stored in the fire scene video database 53 at any time.

  The switching of the drawing information will be specifically described. For example, when the portable information terminal 60 operates the operation unit 61 ("plan view of each floor" in FIG. 3) to make a transfer request for the plan view, the fire information distribution server 50 First, the drawing information of the floor plan of the sixth floor, which is the fire floor, is transferred. The refugee looks at this drawing on the display unit 63 to confirm the fire occurrence point on the fire floor. Thereafter, the refugee sends the floor information of the floor on which the evacuee is present and makes a transfer request for the floor plan of that floor.

  If the evacuation guidance application is activated, the display unit 63 displays on the display unit 63 a guidance to the evacuee to touch the floor where he / she is (for example, characters on each floor on the left in FIG. 3). The Therefore, for example, when “4th floor” is touched, a transfer request for a floor plan relating to the 4th floor is sent to the fire information distribution server 50, so the fire information distribution server 50 reads the 4th floor drawing from the drawing information database 52. Then, the drawing information is transferred to the portable information terminal 60 via the transmission / reception unit 55.

  In addition, when transmitting drawing information by the request from the portable information terminal 60, when the building is large-scale, the floor plan of one floor becomes very large. Therefore, the floor plan may be divided into blocks each having a predetermined size, and the floor diagram of the block unit at the current location of the user may be sent as drawing information using the user's position information. When location information is periodically sent from a user who is an evacuee, a drawing corresponding to the location information (location coordinates) is taken from the database 52 based on the location information, and the mobile information terminal 60 side Forward.

  When the user of the portable information terminal 60 can evacuate outside the building with reference to the drawing displayed on the display unit of the terminal 60, the user ends the evacuation guidance application of the portable information terminal 60. Then, information indicating that the evacuation is completed is sent from the portable information terminal 60 to the fire information distribution server 50 together with the e-mail address. With the reception of the evacuation completion information, the fire information distribution server 50 stores the evacuation completion information for each e-mail address information of the visitors stored in the transmission destination database 54. The evacuation completion information may be sent from the portable information terminal 60. For example, when evacuating from a building, the evacuation completion information is received from the reception device 70 by touching the reception device 70 at the entrance. You may make it send with the mail address of the portable information terminal 60. FIG.

  The administrator of the disaster prevention center where the fire receiver 30 is installed accesses the fire information distribution server 50 using the communication device 40 or its own portable information terminal 60, and stores the visitor's information stored in the destination database 54. By confirming the information (evacuation status), it is possible to know the number of visitors who have not escaped from the building.

  The portable information terminal 60 sends the position information by the GPS function unit 66 to the fire information distribution server 50 side when the evacuation guidance application is activated. For example, after sending the position information for the first time, You may make it send position information. If it does in this way, the disaster prevention center side can grasp | ascertain the evacuation route | root where the evacuees who are resident are evacuating. Further, if the fire information distribution server 50 stores the position information of the building itself, the position of the refugee can be obtained when the evacuee leaves the building (exit) by acquiring the position information from the refugee every predetermined time. Since the information (position coordinates) is out of the range of the position coordinates of the building, it can be recognized that the evacuation has been completed.

  If the location information is acquired from the evacuees at predetermined intervals, the evacuees can be navigated to a location away from the location of the fire so that the location coordinates of the evacuees move away from the location of the fire. It becomes.

In this embodiment, at the time of a fire, by sending a building drawing information at the request of the visitor, it was possible to evacuate without hesitation in the event of a fire. You may do it.
For example, when transmitting drawing information, a sign is attached to the drawing in a direction that should not be evacuated so that visitors can follow an appropriate evacuation route. For example, when there is an obstacle on the evacuation route, an X mark can be put on the drawing based on the location of the fire.

  Whether or not there is an obstacle on the evacuation route of the building is to use a surveillance camera, store the normal image of the surveillance camera as a background image, and take the difference image from the current image as appropriate. It is possible to detect whether an obstacle exists in the route.

  In the present embodiment, the description has been made assuming that a large-scale building is evacuated during a fire, but the present invention can also be applied to a small-scale building such as a group home. In this case, since the user of the building becomes a person living in the building, it is not necessary to provide a reception device in the building. For this reason, an e-mail address that is address information of the portable information terminal possessed by the resident may be stored in advance in the transmission destination database of the fire information distribution server.

10 fire detectors, 20 surveillance cameras, 30 fire receivers,
40 communication devices, 42 Internet, 50 fire information distribution server,
51 building database, 52 drawing information database,
53 Fire scene video database, 54 Destination database,
60 mobile information terminal, 70 reception device, tt

Claims (4)

In a fire alarm facility provided in a building and having a fire detector for detecting a fire and a fire receiver for receiving a fire signal from the fire detector,
A fire information distribution server that is connected to the fire receiver via the Internet and distributes information on the occurrence of a fire in the building during a fire;
The portable information terminal in the building that receives the fire information distributed from the fire information distribution server,
The fire information facility, wherein the portable information terminal can display drawing information of the building stored in the fire information distribution server in the event of a fire. When the portable information terminal receives the fire information, it activates an evacuation guidance application, detects the current position of the terminal based on the GPS function, and transmits the current position information to the fire information distribution server,
2. The fire according to claim 1, wherein the fire information distribution server creates a drawing for evacuation based on the current position information or transmits a drawing necessary for evacuation to the portable information terminal. Notification equipment. The entrance of the building is provided with a reception device that receives visitors, and acquires destination information of a portable information terminal possessed by the visitors and registers it in a transmission destination database of the fire information distribution server. The fire alarm facility according to claim 1 or 2. The fire notification according to any one of claims 1 to 3, wherein it is determined whether or not a user of the portable information terminal remains in a building based on evacuation completion information transmitted from the portable information terminal. Facility.