JP2017068674A - Support system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system that supports confirmation of the location of a sensor.SOLUTION: A support system comprises: fire sensors 1 placed at lots of places in a building and each including an identification information transmission unit 11 for transmitting identification information on itself; a mobile terminal 7 including a location detection unit 72 for determining the current location of itself to generate location information, and a sensor location information transmission unit 73 for receiving the identification information from the fire sensor 1 and transmitting sensor location information including the identification information and the location information; and an information server 8 including a fire-fighting facility information storage unit 802 for storing fire-fighting facility information associating the identification information with the location information on the fire sensor 1, and a determination unit 804 for receiving the sensor location information and determining whether or not a location indicated by the location information corresponding to the identification information accords with the current location indicated by the location information.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a support system that supports installation of a sensor.

  When constructing a fire alarm system in a building, create a disaster prevention facility map that describes the installation location of the sensor so that it conforms to the Fire Service Act, based on the building's building map. The worker installs the sensors based on the disaster prevention equipment map, and when all or a certain range of sensors are installed, the position of the installed sensor is the same as the installation position indicated in the disaster prevention equipment diagram. It is confirmed whether or not they match (for example, see Patent Document 1).

JP-A-6-162363

However, it is troublesome for workers to carry around disaster prevention equipment diagrams and visually check the detectors to check whether they match the installation position, and there is a risk that a confirmation error will occur. In addition, some detectors have their installation positions depending on the existence of equipment such as air conditioning equipment that was not shown on the building map or added later when the disaster prevention equipment map was created, or because of the structure of the building. Some things had to be changed, in which case the disaster prevention equipment map had to be changed manually.
In view of the above problems, an object of the present invention is to support confirmation of the installation position of a sensor.

  In order to solve the above-described problems, a support system according to the present invention is provided with a sensor having identification information transmitting means that is arranged in various places of a building and transmits its own identification information, and its own current position is specified and position information. A portable terminal having position detection means for generating the sensor position information, and sensor position information transmission means for receiving the identification information from the sensor and transmitting sensor position information including the identification information and the position information; Disaster prevention facility information storage means for storing disaster prevention facility information in which the identification information and the installation position information of the sensor are associated with each other, and the detector position information is received, and the installation position information corresponding to the identification information indicates And a construction confirmation unit having a determination unit that determines whether or not the installation position matches the current position indicated by the position information.

  According to the support system according to the present invention, confirmation of the installation position of the sensor can be supported.

It is a figure which shows an example of a structure of the self-reporting equipment and the support system. 2 is a block diagram illustrating an example of functional configurations of a fire detector 1, a portable terminal 7, and an information server 8. FIG. It is a sequence diagram which shows an example of an installation position automatic reflection operation | movement. It is a sequence diagram which shows an example of an address confirmation operation | movement. It is a sequence diagram which shows an example of the operation | movement at the time of operation | movement / failure.

1. Embodiment FIG. 1 is a diagram illustrating an example of a configuration of an automatic fire alarm facility 100 (hereinafter referred to as “self-fire alarm facility 100”) and a support system 200 according to an embodiment of the present invention. The self-reporting equipment 100 and the support system 200 are connected via a signal line C1.

<Configuration of self-reporting equipment 100>
A self-warning system 100 that is an automatic alarm system includes a fire detector 1, a gas leak detector 2, and a fire receiver 3. The self-reporting equipment 100 may be a P-type system or an R-type system. The fire detector 1 and the gas leak detector 2 are installed in various places of a building that is a fire prevention object. Here, the building is, for example, a housing complex such as a hotel or a condominium, an office building, or a commercial facility. Each place is a section such as a room, hallway, passage, stairs, escalator, elevator hoistway and the like. The fire detector 1 and the gas leak detector 2 are connected to the fire receiver 3 via the signal line C2 or via the signal line C2 and the repeater 4.

  Each of the fire detector 1 and the gas leak detector 2 has identification information (hereinafter referred to as an “address”), and when a state change such as a fire, a gas leak or a self-failure is detected, the state indicating the state change is indicated. A change signal which is a change signal and includes its own address is transmitted to the fire receiver 3. When the fire receiver 3 receives the state change signal from the fire detector 1 or the gas leak detector 2, the fire receiver 3 transmits the sensor state information including the sensor state change information indicating the state change and the address to “transmit sensor state information”. It is transmitted to the support system 200 by a sensor state information transmission unit (not shown) which is an example of “means”. That is, the fire receiver 3 includes a detector state information transmission unit.

  In addition, the self-reporting equipment 100 includes a sound alarm device 5 arranged in a building. The voice alarm device 5 is connected to the fire receiver 3 via the signal line C2 and the repeater 6. The voice alarm device 5 outputs an abnormality detection broadcast according to a signal from the fire receiver 3.

<Configuration of fire detector 1>
The fire sensor 1 is, for example, a sensor such as a smoke sensor, a heat sensor, or a flame sensor. In this embodiment, the case where it is a photoelectric smoke detector is assumed.

  FIG. 2 is a block diagram illustrating an example of functional configurations of the fire detector 1, the mobile terminal 7, and the information server 8. FIG. 2A shows an operation of automatically correcting the latter when the fire detector 1 is installed and the installation position is deviated from the installation position on the disaster prevention equipment diagram (hereinafter, “installation position automatic reflection operation”). )). Fig. 2 (b) shows that when the fire detector 1 is installed, the address of the fire detector 1 installed and the address of the fire detector 1 to be installed at the corresponding location on the disaster prevention equipment map are collated with the worker. Functions related to the operation (hereinafter referred to as “address confirmation operation”). FIG. 2 (c) shows an operation for notifying the position of the fire detector 1 to a self-defense fire brigade member or worker when the fire detector 1 is activated or malfunctioned (hereinafter referred to as "operation / operation upon failure"). .) Indicates functions.

  As shown in FIG. 2, the fire detector 1 includes an identification information transmission unit 11, a fire detection unit 12, and a state change signal transmission unit 13.

  The identification information transmission unit 11 is an example of “identification information transmission means” and is a transmitter that transmits the address of the fire detector 1. Specifically, a beacon signal on which the address of the fire detector 1 is superimposed is periodically transmitted. In this embodiment, a beacon signal is transmitted according to BLE (Bluetooth (registered trademark) Low Energy), which is a power-saving short-range wireless communication standard.

  The fire detection unit 12 detects a smoke by detecting smoke generated at the time of a fire. The fire detection unit 12 includes a light emitting unit and a light receiving unit (not shown). The fire detection unit 12 detects a fire when light emitted from the light emitting unit and scattered by the smoke is received by the light receiving unit by a predetermined amount or more.

  When the fire detection unit 12 detects a fire, the state change signal transmission unit 13 transmits a fire signal as a state change signal to the fire receiver 3. The state change signal transmission unit 13 transmits a failure signal as a state change signal to the fire receiver 3 when a failure occurs in the fire detector 1.

<Configuration of Support System 200>
The support system 200 includes a portable terminal 7 carried by a worker who installs or inspects the fire detector 1 or a member of a self-defense fire brigade, and an information server 8 which is a construction confirmation means. The portable terminal 7 and the information server 8 are connected via a communication line C3 such as a wireless LAN. The information server 8 is connected to the fire receiver 3 via the signal line C1.

<Configuration of mobile terminal 7>
The mobile terminal 7 is a portable computer device such as a smartphone, a tablet terminal, or a mobile phone. That is, the mobile terminal 7 includes a calculation unit such as a CPU, a storage unit such as a flash memory, a user interface unit such as a touch panel, a communication unit such as a data communication card, and the like. As shown in FIG. 2, the portable terminal 7 includes an identification information receiving unit 71, a position detecting unit 72, a sensor position information transmitting unit 73, a terminal position information transmitting unit 74, an address receiving unit 75, and an address. A display unit 76, a route guidance information receiving unit 77, and a route guidance display unit 78 are provided. These functions are realized when the arithmetic unit executes a program stored in the storage unit.

  The identification information receiving unit 71 receives a beacon signal periodically transmitted from the identification information transmitting unit 11 of the fire detector 1. The identification information receiving unit 71 is a communication module compliant with BLE. The beacon signal received by the identification information receiver 71 is demodulated by a demodulator (not shown), and the address of the fire detector 1 superimposed on the signal is extracted.

  The position detection unit 72 is an example of a “position detection unit”, and generates position information by specifying its own position. Specifically, a beacon signal transmitted from a wireless LAN access point is received, and positioning is performed based on the radio field intensity.

  The sensor position information transmission unit 73 is an example of “sensor position information transmission unit”, and the address of the fire sensor 1 received by the identification information reception unit 71, the position information generated by the position detection unit 72, and Is transmitted to the information server 8.

  The terminal position information transmission unit 74 transmits the position information generated by the position detection unit 72 to the information server 8.

  The address receiving unit 75 receives the address of the fire detector 1 specified in the server from the information server 8. The received address is the address of the fire detector 1 corresponding to the position information transmitted by the terminal position information transmitting unit 74.

  The address display unit 76 displays the address of the fire detector 1 received by the identification information receiving unit 71 and the address received by the address receiving unit 75 on the user interface unit.

  The route guidance information receiving unit 77 receives route guidance information described later from the information server 8.

  The route guidance display unit 78 displays a route guidance screen on the user interface unit based on the route guidance information received by the route guidance information receiving unit 77. This route guidance screen includes a plan view of the building showing the installation position of the fire detector 1 and the current position of the mobile terminal 7. In this plan view, the shortest path from the current position of the portable terminal 7 to the installation position of the fire detector 1 is shown.

<Configuration of information server 8>
The information server 8 is an example of “construction confirmation means” and is a device for supporting the activities of workers and self-defense fire brigade. The information server 8 includes a calculation unit such as a CPU, a storage unit such as an HDD, a communication unit such as a data communication card, and the like. The storage unit may be installed in an external server connected via the communication line C3. As shown in FIG. 2, the information server 8 includes a sensor position information receiving unit 801, a disaster prevention facility information storage unit 802, an installation position specifying unit 803, a determining unit 804, a disaster prevention facility information correcting unit 805, a terminal Position information receiving unit 806, address specifying unit 807, address transmitting unit 808, sensor state information receiving unit 809, terminal position information acquiring unit 810, building information storage unit 811, route searching unit 812, route A guide information transmission unit 813 is provided. These functions are realized when the arithmetic unit executes a program stored in the storage unit.

  The sensor position information receiving unit 801 receives sensor position information from the mobile terminal 7.

  The disaster prevention facility information storage unit 802 is an example of “disaster prevention facility information storage means”, and is configured to associate the address of each fire detector 1 installed in a building that is a fire prevention object with the installation position information. Store information. A disaster prevention facility diagram is a diagram in which disaster prevention facility information is reflected in the building building diagram.

  The installation position specifying unit 803 refers to the disaster prevention equipment information storage unit 802 for the installation position in the disaster prevention equipment information corresponding to the address of the fire detector 1 included in the sensor position information received by the sensor position information reception unit 801. To identify.

  The determination unit 804 is an example of a “determination unit”, and the position indicated by the position information of the mobile terminal 7 included in the sensor position information received by the sensor position information reception unit 801 and specified by the installation position specifying unit 803 It is determined whether or not the installation position in the prepared disaster prevention equipment information matches. Here, “the position matches” means that the error between the position coordinates is within a predetermined range when the position information is expressed in a coordinate system. Specifically, for example, it refers to a case where the sections corresponding to each position match.

  The disaster prevention facility information correction unit 805 is an example of “disaster prevention facility information correction means”. When the determination unit 804 determines that the position of the mobile terminal 7 and the installation position of the fire detector 1 do not match, the disaster prevention facility information correction unit 805 The disaster prevention facility information stored in the storage unit 802 is corrected. Specifically, the installation position information constituting the disaster prevention facility information is corrected based on the position information of the mobile terminal 7. More specifically, the installation position information is updated with the position information of the mobile terminal 7.

  The terminal location information receiving unit 806 receives location information of the terminal from the mobile terminal 7.

  The address identifying unit 807 identifies the address of the fire detector 1 in the disaster prevention facility information corresponding to the location information received by the terminal location information receiving unit 806 with reference to the disaster prevention facility information storage unit 802.

  The address transmitting unit 808 transmits the address of the fire detector 1 specified by the address specifying unit 807 to the mobile terminal 7.

  The sensor state information receiving unit 809 receives the sensor state information from the fire receiver 3. When the sensor state information is received by the sensor state information receiving unit 809, the installation position specifying unit 803 sets the installation position in the disaster prevention equipment information corresponding to the address of the fire detector 1 included in the received sensor state information. Is identified with reference to the disaster prevention facility information storage unit 802.

  The terminal location information acquisition unit 810 acquires location information of the mobile terminal 7 that is the transmission destination of the state change information. Specifically, a position information request signal is transmitted to the mobile terminal 7, and the position information returned from the terminal is acquired.

  The building information storage unit 811 stores route information that represents each route in the building that is the fire prevention object, and map information that is image information that represents a plan view of each floor in the building.

  The route search unit 812 stores the shortest route from the position indicated by the position information acquired by the terminal position information acquisition unit 810 to the installation position specified by the installation position specification unit 803 in the building information storage unit 811. Calculate based on information.

  The route guidance information transmission unit 813 is a shortest route information transmission unit that transmits the route guidance information that is the shortest route information to the mobile terminal 7. Specifically, the route guidance information transmission unit 813 receives the route guidance information including the shortest route information indicating the shortest route calculated by the route search unit 812 and the map information necessary to guide the route. 7 to send. The route guidance information includes installation position information indicating the installation position of the fire detector 1 that has detected a change in state, and position information indicating the current position of the mobile terminal 7. That is, the route guidance information is also state change information indicating a state change, and the route guidance information transmission unit 813 is also a state change information transmission unit.

<Operation of Support System 200>
Next, the operation of the support system 200 will be described. Specifically, the installation position automatic reflection operation, address confirmation operation, operation / failure operation, and inspection operation will be described. Here, the operation at the time of inspection is an operation of automatically correcting the latter when the installation position of the fire detector 1 is deviated from the installation position of the disaster prevention equipment information, that is, the disaster prevention equipment information, at the time of inspection.

<Automatic installation position reflection operation>
FIG. 3 is a sequence diagram illustrating an example of the installation position automatic reflection operation. An example of the operation of automatically reflecting the installation position will be described based on FIG. After the worker installs the fire detector 1, when the identification information receiving unit 71 of the portable terminal 7 carried by the worker receives the beacon signal transmitted by the identification information transmitting unit 11 of the fire detector 1 (Sa1). The position detector 72 of the mobile terminal 7 generates position information of the terminal itself (Sa2). When the position information is generated, the sensor position information transmission unit 73 includes a sensor including the address of the fire sensor 1 superimposed on the beacon signal received in step Sa1 and the position information generated in step Sa2. The position information is transmitted to the information server 8 (Sa3).

In the information server 8, when the sensor position information receiving unit 801 receives the sensor position information, the installation position specifying unit 803 causes the disaster prevention corresponding to the address of the fire sensor 1 included in the received sensor position information. The installation position in the facility information is specified with reference to the disaster prevention facility information storage unit 802 (Sa4). When the installation position is specified, the determination unit 804 determines whether or not the position indicated by the position information of the mobile terminal 7 included in the received sensor position information matches the installation position specified in step Sa4. Determine (Sa5). As a result of this determination, when the position of the portable terminal 7 matches the installation position of the fire detector 1 in the disaster prevention facility information, this operation ends. On the other hand, as a result of this determination, if the position of the portable terminal 7 does not match the installation position of the fire detector 1 in the disaster prevention equipment information, that is, the actual installation position of the fire detector 1 and the installation on the disaster prevention equipment diagram. When the position is shifted, the disaster prevention facility information correction unit 805 corrects the disaster prevention facility information stored in the disaster prevention facility information storage unit 802 (Sa6). Specifically, the installation position information constituting the disaster prevention facility information is updated with the position information of the mobile terminal 7.
The above is the description of the installation position automatic reflection operation.

  According to this installation position automatic reflection operation, the worker who installs the fire detector 1 simply receives the beacon signal of the fire detector 1 from the portable terminal 7 carried by himself / herself, and the detector is displayed on the disaster prevention facility diagram. It can be determined whether or not it is installed at the installation position. Moreover, when it is not installed in the installation position on a disaster prevention equipment figure, the installation position on a disaster prevention equipment figure can be automatically corrected to the position where the fire detector 1 is actually installed.

<Address confirmation operation>
FIG. 4 is a sequence diagram illustrating an example of the address confirmation operation. An example of the address confirmation operation will be described based on FIG. 2B and FIG. After the worker installs the fire detector 1, when the identification information receiving unit 71 of the portable terminal 7 carried by the worker receives the beacon signal transmitted by the identification information transmitting unit 11 of the fire detector 1 (Sb1) The position detector 72 of the mobile terminal 7 generates position information of the terminal itself (Sb2). When the position information is generated, the terminal position information transmission unit 74 transmits the position information generated in step Sb2 to the information server 8 (Sb3).

  In the information server 8, when the position information is received by the terminal position information receiving unit 806, the address specifying unit 807 specifies an address corresponding to the received position information with reference to the disaster prevention facility information storage unit 802 ( Sb4). When the address is specified, the address transmission unit 808 transmits the address of the specified fire detector 1 to the mobile terminal 7 (Sb5).

In the portable terminal 7, when the address is received by the address receiving unit 75, the address display unit 76 receives the address of the fire detector 1 superimposed on the beacon signal received in step Sb <b> 1 and the address receiving unit 75. The address is displayed on the user interface unit (Sb6). When the displayed two addresses are different, it indicates that a fire sensor 1 different from the fire sensor 1 to be installed is installed at the corresponding position on the disaster prevention facility diagram. Therefore, the worker can notice the mistake of the fire detector 1 by confirming the difference between the two addresses displayed on the user interface unit.
This completes the description of the address confirmation operation.

  According to this address confirmation operation, the worker who installs the fire detector 1 simply receives the beacon signal of the fire detector 1 from the portable terminal 7 carried by himself, and the fire detector 1 having the correct address at the installation position. It can be determined whether or not is installed.

<Operation during operation / operation during failure>
FIG. 5 is a sequence diagram showing an example of operation at the time of operation / failure. An example of operation at the time of operation / failure will be described based on FIG. The fire receiver 3 receives the state conversion signal transmitted from the state change signal transmission unit 13 when the fire detection unit 12 of the fire detector 1 detects a fire or a failure occurs in the fire detector 1. A sensor state information transmission unit (not shown) transmits the sensor state information to the information server 8.

  When the sensor status information transmitted from the fire receiver 3 is received by the sensor status information receiving unit 809 of the information server 8 (Sc1), the installation position specifying unit 803 of the information server 8 receives the received sensor status information. The installation position in the disaster prevention facility information corresponding to the address of the fire detector 1 included in the state information is specified with reference to the disaster prevention facility information storage unit 802 (Sc2). When the installation position is specified, the terminal position information acquisition unit 810 acquires the position information of the mobile terminal 7 that is the transmission destination of the state change information (Sc3). When the position information of the mobile terminal 7 is acquired, the route search unit 812 obtains the shortest route from the position indicated by the position information acquired in step Sc3 to the installation position specified in step Sc2 as a building information storage unit 811. Is calculated based on the route information stored in (Sc4). When the shortest route is calculated, the route guidance information transmitting unit 813 carries route guidance information including the shortest route information indicating the shortest route calculated in step Sc4 and map information necessary for guiding the route. It transmits to the terminal 7 (Sc5).

In the portable terminal 7, when the route guidance information is received by the route guidance information receiving unit 77, the route guidance display unit 78 displays a route guidance screen on the user interface unit based on the received route guidance information (Sc6). . The self-defense fire brigade or worker carrying the terminal can know the position of the fire detector 1 that senses the change in state by referring to the route guidance screen. In addition, the shortest path to the sensor can be known.
The above is the description of the operation at the time of operation / failure.

<Operation during inspection>
The inspection operation is basically the same as the above-described automatic installation position reflecting operation. As shown in FIG. 3, when the portable terminal 7 carried by the worker at the time of inspection of the fire detector 1 receives a beacon signal transmitted from the fire detector 1 (Sa1), the portable terminal 7 is superimposed on the beacon signal. The sensor position information including the address of the fire detector 1 and the position information of the terminal itself is transmitted to the information server 8 (Sa3). When the information server 8 that has received the sensor position information determines that the installation position in the disaster prevention equipment information corresponding to the address included in the information does not match the position indicated by the position information included in the information. (Sa5), that is, when the position of the fire detector 1 has been changed, the installation position information constituting the disaster prevention facility information is updated with the position information of the portable terminal 7 (Sa6).

2. Modifications The above embodiment may be modified as follows. Further, the following modifications may be combined with one or more other modifications.

<Modification 1>
In the above-described automatic installation position reflecting operation, the determination result by the determination unit 804 may be temporarily displayed on the mobile terminal 7 and the disaster prevention facility information may be corrected after receiving an instruction from a worker who carries the terminal. That is, the information server 8 may further include a determination information transmission unit that is an example of a “determination information transmission unit” that transmits determination information for displaying the determination result by the determination unit 804 on the mobile terminal 7.

<Modification 2>
In the above-described automatic installation position reflecting operation, the fire detector 1 receives the position information of the mobile terminal 7 that has received its own beacon signal from the information server 8 via the fire receiver 3, and thereafter along with its own address. A beacon signal on which the position information is superimposed may be transmitted. That is, the fire detector 1 receives the position information of the portable terminal 7 that has received its own beacon signal, and stores the position information storage unit as an example of “installation position information storage means” that stores the position information as its own position information; A sensor position information transmitting unit which is an example of “sensor position information transmitting means” for transmitting sensor position information including its own address and the same position information may be further provided.

<Modification 3>
As described in Modification 2 above, when the fire detector 1 includes an installation position information storage unit and a sensor position information transmission unit, the determination process in Step Sa5 may be executed by the mobile terminal 7. . That is, the portable terminal 7 receives the sensor position information from the fire sensor 1, and the installation position indicated by the installation position information included in the sensor position information matches the current position indicated by its own position information. A determination unit that is an example of a “determination unit” that determines whether or not is included may be provided. Then, when the determination result is negative, the mobile terminal 7 may instruct the information server 8 to correct the disaster prevention facility information.

<Modification 4>
In the above-described automatic installation position reflection operation, the addresses of the fire detectors 1 are collated instead of the position information to determine whether or not the fire detector 1 is installed at the installation position on the disaster prevention facility diagram. May be. Specifically, the determination unit 804 of the information server 8 includes the location information of the mobile terminal 7 included in the sensor location information received from the mobile terminal 7 and the address of the fire detector 1 corresponding to the disaster prevention facility information, It may be determined whether or not the address of the fire detector 1 included in the sensor position information matches. If the result of this determination is negative, the disaster prevention facility information correction unit 805 may correct the address of the disaster prevention facility information.

<Modification 5>
In the address checking operation described above, when the two addresses displayed on the mobile terminal 7 are different, the worker operates the terminal to instruct the information server 8 to correct the disaster prevention facility information. Good. Specifically, the information server 8 may be instructed to update the address corresponding to in the disaster prevention facility information with the address superimposed on the received beacon signal.

<Modification 6>
In the operation / failure operation described above, the building information storage unit 811 may be provided in the mobile terminal 7 so that the route search in Step Sc4 is executed on the mobile terminal 7 side. The installation position information of the fire detector 1 that senses a change in state and is used in route search is transmitted from the information server 8 to the portable terminal 7.

<Modification 7>
The fire detector 1 according to the above embodiment transmits a beacon signal according to BLE, but may transmit a beacon signal according to other short-range wireless communication standards. For example, a beacon signal may be transmitted according to ZigBee.

<Modification 8>
In the mobile terminal 7 according to the above embodiment, positioning is performed using a beacon signal transmitted from a wireless LAN access point, but PDR (pedestrian dead reckoning) may be used in combination. Alternatively, other positioning techniques may be used. For example, a positioning method using IMES (Indoor Messaging System) or a positioning method using a sound wave signal may be employed.

<Modification 9>
The fire sensor 1 according to the above embodiment is an example of the sensor according to the present invention. The sensor may be the gas leak detector 2 or a sensor that detects other abnormalities such as electric leakage, water leakage, and earthquake.

<Modification 10>
All or part of the functions of the information server 8 according to the above embodiment may be provided by the fire receiver 3 or the general operation panel. In that case, the fire receiver 3 or the general operation panel constitutes the support system 200.

DESCRIPTION OF SYMBOLS 1 ... Fire detector, 2 ... Gas leak detector, 3 ... Fire receiver, 4 ... Repeater, 5 ... Voice alarm device, 6 ... Repeater, 7 ... Portable terminal, 8 ... Information server, 11 ... Transmission of identification information , 12 ... Fire detection unit, 13 ... State change signal transmission unit, 71 ... Identification information reception unit, 72 ... Position detection unit, 73 ... Sensor position information transmission unit, 74 ... Terminal position information transmission unit, 75 ... Address reception , 76 ... Address display part, 77 ... Route guidance information receiving part, 78 ... Route guidance display part, 100 ... Automatic fire alarm equipment, 200 ... Support system, 801 ... Sensor position information receiving part, 802 ... Disaster prevention equipment information storage 803... Installation position specifying unit 804. Determination unit 805. Disaster prevention equipment information correcting unit 806... Terminal position information receiving unit 807... Address specifying unit 808... Address transmitting unit 809. 810 ... the end Position information acquisition unit, 811 ... building information storage unit, 812 ... route search section, 813 ... route guidance information transmitting unit, C1 ... signal line, C2 ... signal line, C3 ... communication line

Claims (8)

Sensors that are arranged at various points in the building and have identification information transmitting means for transmitting their identification information;
A position detecting means for identifying the current position of itself and generating position information; a sensor position for receiving the identification information from the sensor and transmitting sensor position information including the identification information and the position information; A portable terminal having an information transmitting means;
Disaster prevention facility information storage means for storing disaster prevention facility information in which the identification information and the installation position information of the sensor are associated with each other, and the detector position information is received, and the installation position information corresponding to the identification information indicates Construction support means comprising: construction confirmation means having judgment means for judging whether or not the installation position matches the current position indicated by the position information.   The support system according to claim 1, further comprising determination information transmission means for transmitting determination information for causing the portable terminal to display a determination result by the determination means.   The support system according to claim 1 or 2, wherein the sensor further includes an installation position information storage unit that receives the position information and stores the position information as its own installation position information.   When the determination means determines that the installation position and the current position do not match, the disaster prevention equipment information correction means for correcting the installation position information constituting the disaster prevention equipment information based on the position information is further provided. The support system according to any one of claims 1 to 3. Sensors arranged at various locations of the building, and installation position information storage means for storing the installation position information indicating its own installation position, and transmitting sensor position information including its own identification information and the installation position information A sensor having sensor position information transmitting means for
Position detecting means for identifying the current position of itself and generating position information; receiving the sensor position information; and whether the installation position indicated by the installation position information matches the current position indicated by the position information And a portable terminal having a determination means for determining whether or not. A fire receiver connected to the sensor and having sensor state information transmitting means for transmitting sensor state information including sensor state change information indicating the state change of the sensor and the identification information;
The state change information transmitting means for transmitting state change information for displaying the installation position and the current position of the mobile terminal on the mobile terminal when receiving the sensor state information. The support system according to any one of 1 to 5.   The shortest path information transmitting means for calculating the shortest path from the current position of the mobile terminal to the installation position and transmitting the shortest path information for displaying the shortest path on the mobile terminal. 6. The support system according to 6. Sensors that are arranged at various points in the building and have identification information transmitting means for transmitting their identification information;
A position detecting means for identifying the current position of itself and generating position information; a sensor position for receiving the identification information from the sensor and transmitting sensor position information including the identification information and the position information; A portable terminal having an information transmitting means;
Disaster prevention equipment information storage means for storing disaster prevention equipment information in which identification information and position information are associated with each sensor, and the sensor position information is received and corresponds to the position information included in the sensor position information Construction support means comprising: construction confirmation means having judgment means for judging whether or not the identification information included in the disaster prevention facility information matches the identification information included in the sensor position information .

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