JP4761682B2 - Fire alarm system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fire alarm system, and more particularly to an inspection method capable of inspecting a fire alarm system by using a mobile phone.
[0002]
[Prior art]
A conventional inspection method for fire alarm equipment will be briefly described. At the time of inspection, the inspector applies gas and heat to the fire detector using a tester. Then, the fire detector outputs a fire signal, and the receiver of the fire receiver receives the fire signal. In the fire receiver, the address (or district number) of the fire detector that issued the alarm is displayed and the main sound is sounded.
[0003]
There is another inspector on the fire receiver side, and it is confirmed on the receiver side that the fire detector operates normally by the tester. At this time, the inspector on the receiver side communicates with the inspector on the fire detector side using a transceiver or the like. In other words, the inspector on the receiver side informs the inspector on the detector side of where the fire detector installed in the apparatus has operated normally.
[0004]
The inspector on the receiver side restores the fire detector by performing a recovery operation. On the fire detector side, if the detector confirmation light goes off and the detector is confirmed to be restored, move to another location and continue to check another fire detector.
[0005]
[Problems to be solved by the invention]
The conventional inspection method requires two inspectors, one who operates the tester on the sensor side and the other who confirms the fire display accompanying the fire signal on the receiver side, which increases labor costs. There was a problem.
[0006]
In recent years, various technologies and inventions using mobile phones have been disclosed. For example, Japanese Patent Laid-Open No. 10-40485 discloses a device that outputs a fire signal of a fire detector to a mobile phone in the event of a fire.
[0007]
Therefore, an object of the present invention is to make it possible for a fire alarm facility to be inspected by one person using such a mobile phone.
[0008]
[Means for Solving the Problems]
The present invention includes a fire detector, in the fire detector receives the fire signal output from the fire alarm system comprising a fire receiver having a receiving portion for self-holding, the mobile terminal the fire signal during test The communication unit that transmits to the mobile station, and the recovery unit that restores the fire detector that has output the fire signal according to a recovery command from the portable terminal, and that receives the fire signal output from the fire detector and that is self-held The fire receiver is provided with a recovery unit for releasing the self-holding of the fire receiver .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1
FIG. 1 is a block diagram of a fire alarm system according to the present invention, and the fire alarm system 1 includes a fire detector 5 and a fire receiver 10. Although not shown in the figure, the fire receiver 10 is connected to smoke prevention equipment, district sound equipment, and the like. In FIG. 1, M is an inspector and is on the fire detector 5 side. The inspector M has a tester 6 and a mobile phone 7 (or PHS) as a mobile terminal.
[0010]
Next, the block configuration of the fire receiver 10 will be described. Reference numeral 11 denotes control means including a microprocessor. A receiving unit 12 is connected to the fire detector 5 through a power / signal line, and receives a fire signal output from the fire detector 5. A communication unit 13 transmits a fire signal received by the receiving unit 12 to the mobile phone 7 at the time of inspection (test), and receives a recovery command (control signal) from the mobile phone 7. The communication unit 13 includes an automatic dialer in which a telephone number of the mobile phone 7 preset by a predetermined operation or input is registered.
[0011]
An operation unit 14 includes an acoustic stop switch and a numeric keypad. Reference numeral 14 </ b> A is a test switch provided in the operation unit 14. A memory setting unit 15 stores various programs, threshold values, constants, and address comparison table of the fire detector 5 necessary for controlling the fire receiver 10. Further, specific information can be set and stored by input from the operation unit 14. Reference numeral 16 denotes a display unit for displaying the area where the fire occurred and the address of the sensor that issued the alarm when a fire occurs.
[0012]
Reference numeral 17 denotes a control unit that operates the recovery unit 18 in response to a recovery command from the mobile phone 7. Reference numeral 18 denotes a recovery unit that recovers the fire detector 5 that has output a fire signal in response to a recovery command from the mobile phone 7 and cancels the self-holding state associated with the fire signal input of the fire receiver 10.
[0013]
Here, the remote control function from the mobile phone 7 will be supplementarily described. The control unit 17 uses a known technique of operating an air conditioner or the like according to a control command from a mobile phone. This control function is realized, for example, by defining a control function in the numeric keypad or function key of the cellular phone 7 and starting the control control program by the control unit of the cellular phone 7 by pressing information of the numeric keypad or function key. It can be done.
[0014]
Each block described above (reception unit 12 to restoration unit 18) is controlled by the control unit 11 based on the program stored in the storage setting unit 15.
[0015]
Next, the inspection method in the fire alarm facility 1 of the present invention will be described. First, the inspector M goes to the fire receiver 10 and presses the test switch 14 </ b> A of the operation unit 14. While the test switch 14 </ b> A is turned on, the communication unit 13 operates and a fire signal is transmitted to the mobile phone 7. When the operation of the test switch 14A is finished, the inspector M moves to the installation site of the fire detector 5.
[0016]
The inspector M uses the test device 6 to issue a fire detector 5. When the fire detector 5 operates, it outputs a fire signal, and the receiving unit 12 of the fire receiver 10 receives the fire signal. The control means 11 of the receiver 10 displays a fire on the display unit 16. The communication unit 13 transmits a fire signal to the mobile phone 7 used by the inspector M. At this time, as the fire signal to be transmitted, the address of the fire detector 5 that has issued the alarm may be added as a data signal.
[0017]
By providing the communication unit 13 that is operated by the test switch 14A in this way, it is possible to check the reception state of the fire signal on the fire detector 5 side even if there is no inspector on the fire receiver 10 side.
[0018]
When the inspector M confirms that the fire signal has been received by the mobile phone 7, in order to start the control unit 17, the inspector M operates a predefined key of the mobile phone 7 and outputs a recovery command. When the communication unit 13 receives the restoration command, the control unit 11 outputs a restoration command to the control unit 17. Then, the control unit 17 operates the recovery unit 18 to recover the fire detector 5. The operation of the recovery unit 18 is the same as that when a recovery switch (not shown) is pressed.
[0019]
In this way, by providing the recovery unit 18 that recovers the fire detector 5 that has output the fire signal in response to a recovery command from the mobile phone 7, an inspector who performs the recovery operation on the fire receiver 10 side becomes unnecessary, and one person It becomes possible to check the fire alarm facility 1.
[0020]
Embodiment 2
A second embodiment of the present invention will be described. In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, and description is abbreviate | omitted. A major difference from the first embodiment is that a fire signal is transmitted to a WWW server via the Internet network.
[0021]
FIG. 2 is a block diagram of the fire alarm facility 1C according to the second embodiment of the present invention. In FIG. 2, reference numeral 7C denotes a mobile phone that can be connected to the Internet, has a browser function, and can browse home pages on the Internet. Note that a PDA or the like having a similar function may be used instead of the mobile phone.
[0022]
Next, a block configuration different from that of the first embodiment of the fire receiver 10C will be described. A communication unit 13C is a part that transmits a fire signal received by the receiving unit 12 to the WWW server 30 and receives a recovery command (control signal) from the mobile phone 8 at the time of inspection (test). The communication unit 13 includes an Internet interface and the like, and the URL of the WWW server 30 is set.
[0023]
Reference numeral 15 denotes a storage setting unit, which stores the information described in the first embodiment, and also has property information provided by the fire alarm facility 1C as specific information by input from the operation unit 14, for example, “Chiyoda ○ The address and name of the building such as “Building” are set and stored. This specific information is transmitted together when the fire signal is transmitted to the WWW server 30.
[0024]
In FIG. 2, 8 is a mobile communication network, 9 is an Internet network, and 30 is a WWW server connected to the Internet network 9. The WWW server 30 is installed in the manufacturer of the fire alarm facility 1C or the disaster prevention company that has been constructed. The WWW server 30 stores a homepage file and publishes it on the Internet network 9. However, information on fire detectors on the homepage is only open to inspectors with IDs and passwords. The WWW server 30 includes server communication means 31, control means 32, and storage means 33. The control means 32 writes the information fetched from the server communication means 31 in the storage means 33 so that it can be viewed on the home page of the WWW server 30. The WWW server 30 can be connected to a client computer via a server-compatible interface, and a home page is created and inspection information is extracted by this computer.
[0025]
Next, an inspection method in the fire alarm facility 1C of the present invention will be described. First, the inspector M goes to the fire receiver 10 </ b> C and presses the test switch 14 </ b> A of the operation unit 14. When the test switch 14A is turned on, the communication unit 13C operates to connect to the WWW server 30 via the Internet network 9. At the time of this connection, an authentication procedure may be performed by operating the operation unit 14 and inputting an ID or password. While the test switch 14 </ b> A is on, the control means 11 controls to transmit a fire signal to the WWW server 30. When the operation of the test switch 14A is finished, the inspector M moves to the installation site of the fire detector 5.
[0026]
The inspector M uses the test device 6 to issue a fire detector 5. When the fire detector 5 operates, it outputs a fire signal, and the receiving unit 12 of the fire receiver 10C receives the fire signal. The control means 11 of the receiver 10C displays a fire on the display unit 16. The communication unit 13 </ b> C transmits a fire signal with address information added to the WWW server 30. At this time, the property information “Chiyoda XX Building” stored in the storage setting unit 15 is also transmitted together.
[0027]
Information transmitted from the communication unit 13 </ b> C is taken into the storage unit 33 in the WWW server 30 via the server communication unit 31. The control means 32 of the WWW server 30 stores the captured information in the storage means 33 for each piece of property information. For example, control is performed so that information is written in the storage means 33 together with the time for each piece of property information, with a feeling such as “Chiyoda XX building detector (address 011) issuance time 14:23 minutes”.
[0028]
The inspector M browses the home page of the WWW server 30 on the Internet via the mobile communication network 8 using the mobile phone 7C. In addition, when logging on to the WWW server 30, it is preferable to set the ID and password so that only the inspector M of the fire alarm facility 1C can view the home page of the WWW server 30.
[0029]
The inspector M browses the home page of the WWW server 30 and confirms that the inspected fire detector 5 has operated normally. In this way, by using the mobile phone 7C that can be connected to the Internet, the communication unit 13C that is operated by the test switch 14A is provided, so that even if there is no inspector on the fire receiver 10C side, on the fire detector 5 side. It becomes possible to confirm the reception status of the fire signal.
[0030]
When the inspector M confirms that the fire signal has been received by the mobile phone 7C, the inspector M operates the keys of the mobile phone 7C and outputs a recovery command as described in the first embodiment. When the communication unit 13C receives the restoration command, the control unit 17 operates the restoration unit 18 to restore the fire detector 5 and cancel the self-holding accompanying the input of the fire signal of the fire receiver 10 . Note that the recovery command from the mobile phone 7C may be output to the server communication unit 31 of the WWW server 30 via the mobile communication network 8 without being directly output to the communication unit 13C. In this case, after fetching the recovery command from the server communication unit 31, the control unit 32 controls to output the recovery command to the communication unit 13C of the fire receiver 10C.
[0031]
As described above, the fire detector 5 that outputs the fire signal is restored by the restoration command from the mobile phone 7C, and the restoration unit 18 that releases the self-holding accompanying the input of the fire signal of the fire receiver 10 is provided. An inspector who performs a recovery operation on the receiver 10C side becomes unnecessary, and the fire alarm facility 1C can be inspected alone. In this manner, the fire detectors 5 are inspected, and when all of the detectors 5 have been inspected, the process returns to the fire receiver 10C and the test switch 14A is turned off.
[0032]
In the second embodiment, since inspection information is stored on the WWW server 30, the inspector M returns to the disaster prevention company and then extracts the inspection information from the computer and creates a work report related to the inspection. be able to.
[0033]
In each embodiment, the fire detector that outputs the fire signal of the fire receiver is restored by the recovery command from the mobile phone, and the self-holding accompanying the input of the fire signal of the fire receiver is released . However, automatic recovery may be performed in the fire receiver. In this case, the control unit and the recovery unit of the fire receiver are omitted, and an automatic recovery switch is provided instead. This automatic recovery switch is a switch that automatically recovers when a predetermined time elapses after the fire is triggered when the sensor is checked. Therefore, at the time of inspection, the inspection should be started after turning on the automatic recovery switch on the receiver side. In addition, smoke control equipment such as a shirt or a fire door may be connected to the control unit. In this way, the smoke evacuation device can be activated and restored from the mobile phone, so that it is possible to perform inspections other than the fire detector alone.
[0034]
【The invention's effect】
The present invention is configured as described above, and in a fire alarm facility comprising a fire detector and a fire receiver having a receiver for receiving and self-holding a fire signal output from the fire detector, a fire is detected during a test. A communication unit that transmits a signal to the mobile terminal, and a receiving unit that restores the fire detector that has output the fire signal and receives the fire signal output from the fire detector and self-holds in response to a recovery command from the mobile terminal Since the fire receiver is provided with a recovery section that releases the self-holding of the receiver, it is not necessary to check or restore the fire signal on the receiver side, and the fire alarm facility can be checked alone.
[0035]
In addition, since a communication unit is provided that transmits a fire signal to the WWW server via the Internet during the test, it is possible to check the reception status of the fire signal from the WWW server homepage, so it is necessary to place inspection personnel on the fire receiver side. The fire alarm equipment can be checked by one person. In addition, by installing a WWW server at the disaster prevention company, the inspector who is an employee of the disaster prevention company must return to the company and create an inspection report, etc. based on the inspection information stored in the WWW server. Can do.
[Brief description of the drawings]
FIG. 1 is a block diagram of a fire alarm facility according to a first embodiment of the present invention.
FIG. 2 is a block diagram of a fire alarm system according to a second embodiment of the present invention.
[Explanation of symbols]
M Inspector, 1 Fire alarm facility, 1C Fire alarm facility, 5 Fire detector, 6 Tester, 7 Mobile phone, 7C Mobile phone, 8 Mobile communication network, 9 Internet network, 10 Fire receiver, 10C Fire receiver, DESCRIPTION OF SYMBOLS 11 Control means, 12 Receiving part, 13 Communication part, 13C Communication part, 14 Operation part, 14A Test switch, 15 Storage setting part, 16 Display part, 17 Control unit, 18 Recovery part, 30 WWW server, 31 Server communication means, 32 control means, 33 storage means

Claims (4)

In a fire alarm facility comprising a fire detector and a fire receiver having a receiver that receives and self-holds a fire signal output from the fire detector,
A communication unit that transmits the fire signal when testing the mobile terminal,
Restoring the fire detector that has output the fire signal in response to a recovery command from the mobile terminal, and releasing the self-holding of the receiving unit that has received and self-held the fire signal output from the fire detector And
A fire alarm facility characterized in that the fire receiver is provided.   The fire alarm system according to claim 1, wherein communication between the communication unit and the portable terminal is performed via a mobile communication network or an Internet network via a mobile communication network.   The fire alarm system according to claim 2, wherein the fire receiver transmits the fire signal to a WWW server via an Internet network during a test.   4. The fire alarm system according to claim 3, further comprising a control unit for writing information associated with the fire signal in a storage unit of the WWW server so that information can be viewed on a homepage.

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