JP6810616B2 - Fire alarm system - Google Patents

Description

The present invention relates to a fire alarm system that detects and warns of a fire in cooperation with a server on the Internet.

Conventionally, the receiver of a fire notification system that monitors a fire has been installed in a disaster prevention center or management room in a building, and for example, a fire detector or a transmission connected to a detector line drawn from the receiver to the caution area. By receiving the fire signal from the machine, the fire representative is displayed and the main sound is sounded, and the district sound device connected to the control line drawn from the receiver is sounded, and further connected to the control line. Interlocking control of fire doors and fire shutters.

In the receiver of such a fire notification system, the address, district name, department name, type, line number, sensitivity, accumulation time, and interlocking relationship with the smoke prevention device of the fire detector connected to the receiver. So-called property data such as, etc. are prepared, stored in a non-volatile memory such as EEPROM provided in the receiver, and used for fire reception control.

Japanese Unexamined Patent Publication No. 2011-189055 JP-A-2009-087111 Utility Model Registration No. 3136363

However, in such a conventional fire alarm system, a fire detector or a control device is connected to a line drawn from the receiver, and the receiver is connected to an alarm unit, an operation unit, a display unit, and the like. It is equipped with all the operation display functions necessary for fire monitoring of printers, etc., and the number of line cables drawn from the receiver increases as the configuration of the receiver becomes complicated and the scale of the facility to be monitored increases. However, there is a problem that the manufacture and installation of the receiver become complicated.

In addition, during the operation of the fire alarm system, it is necessary to change the property data due to facility renovation or tenant replacement, but in the past it was necessary to go to the receiver installation location to update the property data, which is troublesome. There is also a problem that it takes time.

Furthermore, depending on the fire alarm system, you may want to connect a sub-display panel to the receiver to see the fire alarm display by the receiver at another location, but connect the cable to the sub-display panel at a location away from the receiver. There is also a problem that it is necessary to pull and connect, and it takes time and effort for installation work.

In order to solve this problem, the applicant of the present application divides the receiver configuration into a terminal monitoring and control device that monitors and controls detectors and control devices and a receiver that performs display operations, and both are divided into a server on the Internet. We are proposing a fire alarm system that simplifies the system configuration and facilitates manufacturing, installation, and operation management by connecting by control processing.

By the way, in the fire alarm system, periodic inspection is obligatory once a year, and at the time of periodic inspection, an inspector applies smoke or heat to the fire detector using a test jig to issue a report. We are conducting a detector test to confirm that the fire detector operates normally.

For this reason, even in a fire alarm system in which a terminal monitoring control device and a receiver are linked via a server, it is necessary to perform a sensor test using a test jig at the time of periodic inspection. In this case, in order to confirm the result of the sensor test by the inspector, it is necessary to have one person on the receiver side and one person on the server side if necessary, but this increases the number of personnel required for inspection. However, since it is necessary to proceed with the sensor test while communicating with each other, there is a problem that it takes time and effort and it is not possible to proceed with the sensor test efficiently.

The present invention divides the receiver configuration into a terminal monitoring control device that monitors and controls detectors and control devices and a receiver that performs display operations, and inspects the detector test when they are linked by the control processing of a server on the Internet. The purpose is to provide a fire alarm system that enables one person to proceed efficiently.

(Fire alarm system)
The present invention
The terminal monitoring controller and receiver are connected to the server via the network,
When the terminal monitoring and control device receives a fire signal from a fire detector connected to the line drawn to the caution area, it sends the fire signal to the server via the network.
The server receives the fire signal transmitted from the terminal monitoring and control device via the network, performs a predetermined fire reception process, and transmits a fire alarm signal to the receiver via the network based on the process result to cause a fire. In a fire alarm system that outputs an alarm
A mobile terminal carried by an inspector who conducts a fire detector alarm test using a test jig is connected to the server via a network.
Based on the operation of the inspector, the mobile terminal sends a test detector notification signal indicating the fire detector to be tested to the server to set the test mode.
When the server determines that the fire signal received from the terminal monitoring control device is the fire signal from the fire detector set in the test mode, the server performs a predetermined test warning reception process and receives the test warning. It is characterized in that a signal is transmitted to a mobile terminal to notify the reception result of a test report.

(Test detector notification)
The mobile terminal sets one or more detector addresses selected as test targets in the test detector notification signal and transmits the test detector notification signal to the server.

(Notification of receiving test report by receiver)
When the test issuance reception process is performed, the server transmits the test issuance reception signal to the receiver to notify the fire reception by the test issuance.

(True fire during sensor test)
When the server determines that the fire signal received from the terminal monitoring and control device is a fire signal from a fire detector that is not set to the test mode, it performs fire reception processing and sends a fire warning signal to the receiver and Send to a mobile terminal to output a fire alarm.

(Internet and gateway)
The network is the Internet, and the terminal monitoring and control device and the receiver are connected to the Internet via the gateway device.
The mobile terminal is connected to the Internet via a wireless network.

(Tethering function of mobile phone terminal)
The mobile terminal is connected to the Internet via a short-range wireless network by the mobile phone terminal.

(Test operation screen of mobile terminal)
Mobile terminals
Log in to the server using the specified user ID and password, acquire the test operation screen, and
By selecting one or more fire detectors to be tested from the list of fire detectors displayed on the test operation screen, a test detector notification signal is sent to the server.
When the test alert reception signal is received from the server, the detector information of the fire alarm is displayed on the test alert reception screen.

(Display of test results in the list of fire detectors)
When the mobile terminal receives the test notification reception signal from the server, the mobile terminal displays the test result in the fire detector list on the test operation screen.

(List of fire detectors)
The mobile terminal can select and display any of a list of detector addresses, a list of detector installation locations, and a map of the sensor installation area as a list of fire detectors.

(Fire signal of R type fire detector)
When a fire is detected, the fire detector sends a fire signal with a unique address,
The terminal monitoring and control device sends a fire signal with an address to the server,
The server generates a fire warning signal with fire area information indicating the location of the fire based on the address set in the fire signal and sends it to the receiver.
The receiver displays the fire area information set in the fire warning signal received from the server.

(Fire signal of P-type detector)
When a fire is detected, the fire detector sends a predetermined alarm current to the line,
The terminal monitoring and control device sends a fire signal to the server in which the alarm line information indicating the line through which the alarm current has flowed is set.
The server sends a fire warning signal with fire area information indicating the location of the fire to the receiver based on the alarm line information set in the fire signal.
The receiver displays the fire area information set in the fire warning signal received from the server.

(Basic effect)
In the present invention, when the terminal monitoring control device and the receiver are connected to the server via a network, and the terminal monitoring control device receives a fire signal from a fire detector connected to the line drawn out to the caution area. , The fire signal is transmitted to the server via the network, and the server receives the fire signal transmitted from the terminal monitoring and control device via the network, performs a predetermined fire reception process, and performs a predetermined fire reception process, and the fire alarm signal is based on the process result. In a fire alarm system that sends a fire alarm to a receiver via a network to output a fire alarm, a mobile terminal carried by an inspector who conducts a fire detector alarm test using a test jig connects the network. Connected to the server via the mobile terminal, the mobile terminal sends a test detector notification signal indicating the fire detector to be tested to the server based on the operation of the inspector to set the test mode, and the server monitors and controls the terminal. When it is determined that the fire signal received from the device is a fire signal from a fire detector set in the test mode, a predetermined test warning reception process is performed and the test warning reception signal is transmitted to the mobile terminal. In order to notify the reception result of the test alarm, the inspector selects the fire detector to be tested by operating the mobile terminal prior to the detector alarm test, and this is notified to the server and selected. A test mode is set for the sensor, and then a fire signal is sent to the server when the detector is triggered and tested using the test jig, and the server is sent from the sensor for which the test mode is set. The result of the test report is displayed on the mobile terminal after determining that it is a fire signal, which eliminates the need for an inspector to be attached to the server and receiver side, and an inspector who conducts a detector test using a test jig. Only one person can efficiently proceed with the sensor alarm test.

(Effect of test sensor notification)
In addition, the mobile terminal sets one or more detector addresses selected as test targets as test detector notification signals and sends them to the server, so that the inspector issues a report while selecting each detector one by one. The test can be performed, or for example, a plurality of detectors installed on the same floor can be collectively selected to perform an alarm test.

In addition, when selecting the detectors to be tested one by one, the detectors not selected as the test target normally monitor the fire, and the restrictions on the fire monitoring function by the detector test are the minimum necessary. It is possible to stay in.

(Effect of receiving test report by receiver)
In addition, when the test issuance reception process is performed, the server sends a test issuance reception signal to the receiver to notify the fire reception of the fire reception by the test issuance. If necessary, the state of the sensor test can be confirmed.

(True fire during sensor test)
In addition, when the server determines that the fire signal received from the terminal monitoring control device is a fire signal from a fire detector that is not set to the test mode, it performs fire reception processing and receives a fire warning signal. Since a fire alarm is output by sending to the machine and mobile terminal, if a fire occurs during the detector test and a fire signal is transmitted from the detector, it will not be affected by the detector test. , A fire alarm is output from the receiver, and a fire alarm is also output from the mobile terminal owned by the inspector, enabling quick and appropriate response to the actual fire during the detector test.

(Effects of the Internet and gateways)
In addition, since the network is the Internet, the terminal monitoring and control device and the receiver are connected to the Internet via the gateway device, and the mobile terminal is connected to the Internet via the wireless network, communication devices for the existing Internet and A communication connection with the server can be easily established using the network, and the monitored facility is damaged by a disaster such as an earthquake, and some lines connected to the terminal monitoring control device are cut off, for example. Even in such a case, as long as the communication connection with the server is secured, the fire monitoring function as a fire notification system can be maintained, and a highly reliable system that is resistant to troubles such as disasters can be constructed. Become.

In addition, since the mobile terminal carried by the inspector is connected to the server on the Internet via the wireless network, the inspector's behavior is not restricted and the sensor test work can be efficiently carried out.

(Effect of tethering function of mobile phone terminal)
In addition, since the mobile terminal is connected to the Internet via a short-range wireless network by the mobile phone terminal, this uses the so-called tethering function in which the mobile phone terminal such as a smart phone functions as an access point of the wireless LAN network. Since the service area of the mobile phone terminal is spread all over the country, all the facilities where the fire notification system is installed exist in the service area of the mobile phone terminal, and the fire notification system is installed. It is possible to efficiently proceed with the sensor alarm test by one inspector using a mobile terminal without being restricted by the installation area of the target facility.

(Effect of test operation screen of mobile terminal)
In addition, the mobile terminal logs in to the server using a predetermined user ID and password, acquires the test operation screen, and one or more of the fire detectors to be tested from the list of fire detectors displayed on the test operation screen. The test detector notification signal is sent to the server by selecting the fire detector, and when the test alert reception signal is received from the server, the fire alarm detector information is displayed on the test alert reception screen. For example, the inspector downloads the sensor test homepage provided by the server to the mobile terminal to display the test operation screen, and uses this test display screen to select the sensor to be tested and display the test results. By doing so, the inspector can efficiently proceed with the sensor test work with the support from the server.

(Effect of displaying test results in the fire detector list)
Further, when the mobile terminal receives the test alarm reception signal from the server, the mobile terminal displays the test result in the fire detector list on the test operation screen to sequentially test a plurality of fire detectors. In addition, the status of the fire detectors that have been tested can be easily and easily grasped from the list display.

(Effect of fire detector list)
In addition, since the mobile terminal can select and display either a list of detector addresses, a list of detector installation locations, or a map of the sensor installation area as a fire detector list, the inspector can perform a sensor alert test. It is possible to easily and easily select a sensor to be tested and perform a sensor alarm test according to the location of the facility where the test is started.

In addition, it is possible for multiple inspectors to carry their mobile terminals and divide them into separate warning areas for fire alarm systems, and to proceed with detector tests in parallel, which enables large-scale fire alarms in high-rise office buildings, etc. Even with a system, it is possible to efficiently proceed with the sensor test work and complete the necessary work in a short time.

(Effect of fire signal of R type fire detector)
In addition, the fire detector sends a fire signal with a unique address when a fire is detected, the terminal monitoring and control device sends a fire signal with an address to the server, and the server sends a fire signal. A fire warning signal with fire area information indicating the location of the fire is generated based on the address set in, and sent to the receiver, and the receiver receives the fire area information set in the fire warning signal received from the server. Is displayed, so that the fire alarm system in which the terminal monitoring control device and the receiver are connected to the server via the network can operate in the same way as the fire monitoring function of the conventional R-type fire alarm system. It is possible for one inspector to efficiently carry out the inspection work by the detector alarm test.

(Fire signal of P-type detector)
In addition, the fire detector sends a predetermined alarm current to the line when a fire is detected, and the terminal monitoring control device sends a fire signal in which the alarm line information indicating the line through which the alarm current has flowed is set. The server sends a fire alarm signal with fire area information indicating the location of the fire based on the alarm line information set in the fire signal to the receiver, and the receiver receives the fire from the server. Since the fire area information set in the alarm signal is displayed, the fire alarm system in which the terminal monitoring control device and the receiver are connected to the server via the network has the fire monitoring function of the conventional P-type fire alarm system. Equivalent operation is possible, and inspection work by a sensor alarm test can be efficiently carried out by one inspector.

Explanatory drawing showing the outline of the R-type fire alarm system and the detector test A block diagram showing the functional configurations of the terminal monitoring and control device, receiver, and server of FIG. Explanatory drawing showing the login screen of the mobile terminal Explanatory drawing showing the menu screen of the mobile terminal Explanatory drawing showing the sensor test management screen of the mobile terminal Explanatory drawing showing a sensor selection screen of a mobile terminal Explanatory drawing showing a fire alarm screen of a mobile terminal Explanatory drawing showing the test report reception screen of the mobile terminal A time chart showing the operation of the fire alarm system during the sensor test. Explanatory drawing showing the outline of the P-type fire alarm system and the detector test A block diagram showing the functional configurations of the terminal monitoring control device, receiver, and server of FIG.

[Fire alarm system]
(Overview of fire alarm system)
FIG. 1 is an explanatory diagram showing an outline of an R-type fire alarm system and a sensor alarm test. As shown in FIG. 1, in the fire alarm system of the present embodiment, the terminal monitoring control device 10 is connected to the Internet 22 via the gateway device 18, and the receiver 12 is connected via the gateway device 20. As a result, the terminal monitoring control device 10 and the receiver 12 are communicably connected to the server 24 via the Internet 22.

The gateway devices 18 and 20 perform protocol conversion between the TCP signal (transmission control protocol signal) on the terminal monitoring and control device 10 and the receiver 12 side and the IP signal (Internet protocol signal) on the Internet 22 side.

The terminal monitoring control device 10 and the receiver 12 are installed in a monitored facility 11 such as an office building, and the server 24 is installed in another place such as a manufacturer or a maintenance management company.

A transmission line 14 is pulled out from the terminal monitoring control device 10 to a caution area, and in the present embodiment, an analog sensor 16 is connected to the transmission line 14 as a sensor system.

In the transmission line 16 drawn from the terminal monitoring and control device 10, smoke prevention devices such as district acoustic devices, fire doors, and fire dampers are used as terminal devices that serve as a control load via a repeater having a transmission function. Is connected, but the illustration is omitted.

A unique address is preset in the analog sensor 16 connected to the transmission line 14, and the maximum address per transmission line 14 is, for example, 512 addresses, which is a device of 512 devices including the terminal monitoring control device 10. It is possible to connect.

When the terminal monitoring control device 10 receives a fire signal for which the address transmitted from the fire alarm (fire detection) of the analog detector 16 is set, the address of the analog detector 16 destined for the server 24 is set. A fire signal is transmitted from the gateway device 18 to the server 24 via the Internet 22.

When the server 24 receives the fire signal from the terminal monitoring and control device 10, it refers to the property data stored in advance from the address set in the fire signal to acquire the fire area information indicating the location of the fire, and this fire. A fire alarm signal in which the district information is set is transmitted to the receiver 12 via the Internet 22 and the gateway device 20. The receiver 12 that has received the fire alarm signal from the server 24 outputs a fire alarm with a district display indicating the location of the fire.

Further, when the server 24 receives the fire signal from the terminal monitoring control device 10, the server 24 transmits the district acoustic control signal in which the address of the district acoustic device corresponding to the fire district information indicating the fire occurrence location is set to the Internet 22 and the gateway device 18. It is sent to the terminal monitoring and control device 10 via the above, and the district acoustic control signal in which the received address is set is transmitted from the terminal monitoring and control device 10 to the transmission line 14, and the district connected to the repeater having the same address. Sound the sound device.

(Inspection system)
When performing an alarm test of the analog detector 16 during such a periodic inspection of the fire alarm system, the inspector 26 carries the test jig 28 and the mobile terminal 30 to perform the inspection work of the analog detector 16. .. When the analog detector 16 is a scattered light type smoke detector, the test jig 28 emits test smoke, and when the analog detector 16 is a heat detector, it is heated by a heater.

The mobile terminal 30 is a tablet terminal or the like having a short-range wireless communication function such as a predetermined wireless LAN, and by using the tethering function of the mobile phone terminal 32 such as a smart phone owned by the inspector 26, Communication connection is possible from the mobile phone terminal 32 to the server 24 via the mobile phone network 34 provided with the base station 36 and the Internet 22.

The tethering function of the mobile phone terminal 32 is a function equivalent to an access point of a wireless LAN network, and performs wireless communication compliant with IEEE802.11 based on a wireless network by Ethernet (registered trademark), and communicates with the mobile terminal 30. A wireless LAN line is established between them to transmit data.

By connecting the mobile terminal 30 to the server 24 on the Internet 24 by using the tethering function of the mobile phone terminal 32 in this way, for example, the monitored facility 11 that is not in the service area of the wireless LAN network. However, if it is in the service area of the mobile phone network 34, a communication connection can be reliably established with the server 24 on the Internet 22 and used for the sensor alarm test.

(Outline of sensor alarm test)
The sensor alert test by the inspector 26 is performed as follows. The inspector 26 goes to the place where the analog sensor 16 is installed, first logs in to the server 24 using the mobile terminal 30, and acquires a predetermined test operation screen from the server 24.

Subsequently, when one or a plurality of fire detectors to be tested are selected from, for example, a list of detector addresses displayed by operating the test operation screen of the mobile terminal 30, a test detector notification in which the detector address is set is set. The signal is transmitted to the server 24, which sets the test mode for the analog sensor 16 to be tested.

Subsequently, the inspector 26 issues a test report by, for example, inflowing test smoke into the analog sensor 16 to be tested by the test jig 28. The analog detector 16 test-issued by the test jig 28 transmits a fire signal for which a sensing address is set to the terminal monitoring control device 10, and the terminal monitoring control device 10 transmits the fire signal from the gateway device 18 to the Internet 22 via the Internet 22. It is transmitted to the server 24 via.

When the server 24 receives the fire signal from the terminal monitoring control device 10, it compares the sensor address set in the fire signal with the sensor address in which the test mode is set, and compares the sensor address in which the test mode is set with the sensor address in which the test mode is set. If the above is true, the test report reception signal is transmitted to the mobile terminal 30 to display the test report reception screen including the sensor address and district information. As a result, the inspector 26 can confirm that the test report of the analog sensor 16 has been normally issued.

[Functional configuration of fire alarm system]
(Terminal monitoring and control device)
FIG. 2 is a block diagram showing a functional configuration of the terminal monitoring control device, receiver, and server of FIG.

As shown in FIG. 2, the terminal monitoring control device 10 includes a terminal control unit 38, a transmission unit 40, and a communication unit 42. The terminal control unit 38 is composed of a computer circuit including a CPU, a memory, and various input / output ports. By executing a program, the terminal control unit 38 cooperates with the transmission unit 40 to transmit so-called fire alarms to a sensor and a control device. Perform transmission control according to the protocol.

The downlink signal from the transmission unit 40 to the analog sensor 16 is a voltage mode transmission, and is transmitted as a voltage pulse that changes the voltage of the transmission line 14 between, for example, 18 volts and 30 volts. On the other hand, the uplink signal from the analog sensor 16 is transmission in the current mode, a signal current is passed through the transmission line 14 at the timing of bit 1 of the transmission data, and the uplink signal is transmitted to the transmission unit 40 as a so-called current pulse train. ..

The transmission control by the fire transmission protocol by the terminal control unit 38 is as follows. During normal monitoring, the terminal control unit 38 transmits a polling command for normal monitoring in which terminal addresses are sequentially specified, and when the analog sensor 16 receives a polling command that matches its own set address, a normal monitoring response is received. I do. Therefore, the terminal control unit 38 can detect the failure by using the analog sensor 16 that did not respond to the polling command as a failure.

Further, the terminal control unit 38 transmits a batch AD conversion command for each transmission cycle of polling commands for all terminal addresses. When the analog detector 16 receives the batch AD conversion command from the terminal control unit 38, it samples the detected analog detection data such as smoke concentration and temperature and compares it with a predetermined fire level.

When the analog detection data sampled by the analog sensor 16 exceeds the fire level, an interrupt signal is transmitted to the terminal control unit 38 at the response timing to the polling command. This interrupt signal sends a signal that is not normally used, such that the response bit string is all 1.

When the terminal control unit 38 receives the interrupt signal from the analog detector 16, it issues a group search command, receives an interrupt response from the group including the analog detector 16 that has detected a fire, and determines the group. .. Subsequently, as a search command within the group, each analog sensor 16 included in the determined group is sequentially issued a poll with a specified address, and a fire response such as analog data is received to detect the analog analog. The sensor address of the sensor 16 is recognized, and a fire signal in which the sensor address is set is instructed to the communication unit 42 to be transmitted to the server 24 via the gateway device 18 and the Internet 22.

Further, the terminal control unit 38 transmits a control signal designated as an address set to the control signal received from the server 24 to the transmission line 14 for the control equipment such as the district acoustic device, the fire door, and the smoke prevention device. It sends and operates the terminal device connected to the repeater that matches its own address.

(Receiving machine)
As shown in FIG. 2, the receiver 12 includes a receiver control unit 44, a communication unit 46, an alarm unit 48, a display unit 50, and an operation unit 52. The receiver control unit 44 is composed of a computer circuit including a CPU, a memory, and various input / output ports, and controls alarms, displays, and operations necessary for fire monitoring by executing a program with the communication unit 46. Do it in cooperation.

A speaker is provided in the alarm unit 48 to output an acoustic alarm or a voice message as a fire alarm. The display unit 50 is provided with a fire representative light, a failure representative light, and the like, a display with a touch panel, and a printer.

The operation unit 52 is provided with various operation switches such as an acoustic stop switch, a fire assertion switch, a district acoustic pause switch, and a recovery switch that are operated when a fire alarm sound is output. The communication unit 46 is communicated and connected to the server 24 via the gateway device 20 and the Internet 22, and transmits and receives various signals.

When the receiver control unit 44 receives the fire alarm signal in which the fire area information is set from the server 24, the receiver control unit 44 outputs an acoustic alarm by ringing the speaker of the alarm unit 48 and blinks the representative fire light of the display unit 50. Further, the display is controlled to display the fire area information indicating the location of the fire together with the fire alarm information.

Further, the receiver control unit 44 controls to stop the acoustic alarm from the alarm unit 48 when the operation of the acoustic stop switch provided on the operation unit 52 is detected during the output of the fire alarm.

Further, when the receiver control unit 44 detects the fire determination operation of the fire determination switch provided in the operation unit 52 during the output of the fire alarm, the receiver control unit 44 instructs the communication unit 46 to output the fire determination signal to the server 24. Controls to be transmitted to the terminal, and interlocking control and transfer control are performed by instructions from the server 24 to the terminal monitoring control device 10.

Further, when the receiver control unit 44 detects the operation of the district sound pause switch provided in the operation unit 52 during the output of the fire alarm, the receiver control unit 44 instructs the communication unit 46 to output the district sound pause signal. The control to transmit to the server 24 is performed, and the district sound is temporarily stopped by the instruction from the server 24 to the terminal monitoring control device 10.

Further, when the receiver control unit 44 detects the operation of the recovery switch provided in the operation unit 52 during the output of the fire alarm, the receiver control unit 44 instructs the communication unit 46 to transmit the recovery signal to the server 24. Is performed to restore the server 24, and at the same time, the operating detector and the terminal device are restored by the instruction from the server 24 to the terminal monitoring control device 10.

Further, when the receiver control unit 44 receives the test alarm reception signal from the server 24, the receiver control unit 44 blinks the representative fire light of the display unit 50, and also controls to display the test alarm reception screen including the district information on the display. In this case, the output of the acoustic alarm from the alarm unit 48, the interlocking control, and the transfer control are not performed.

(server)
As shown in FIG. 2, the server 24 includes a server control unit 54, a communication unit 56, a display unit 58, an operation unit 60, and a database 62.

The server control unit 54 is composed of a computer circuit including a CPU, a memory, and various input / output ports, and performs various processing controls necessary for fire monitoring by executing a program. The communication unit 72 transmits and receives various signals to and from the terminal monitoring and control device 10 and the receiver 12 via the Internet 22.

The display unit 58 is a computer display, and the operation unit 60 is an input device such as a computer keyboard and mouse.

The property data of the fire alarm system in which the terminal monitoring control device 10 and the receiver 12 are installed is stored in the database 62 in advance. The property data stored in the database 62 includes the address, district name, department name, type, line number, sensitivity, accumulation time, and smoke prevention device of the analog detector 16 and repeater connected to the terminal monitoring and control device 10. Data such as interlocking relationships are included.

The server control unit 54 functions as the center of fire monitoring control in the fire alarm system, and performs the following control.

When the server control unit 54 receives a fire signal with an address set, which is transmitted from the terminal monitoring control device 10 via the Internet 22, a fire such as a district name corresponding to the address is referred to by referring to the property data in the database 62. The fire area information indicating the place of occurrence was acquired, and the fire warning signal in which the fire area information was set was controlled to be transmitted to the receiver 12 via the Internet 22, and the fire area information was specified from the receiver 12. Output a fire alarm.

Further, when the server control unit 54 receives the district acoustic pause signal from the receiver 12 via the Internet 22 after transmitting the fire warning signal, the server control unit 54 monitors and controls the district acoustic stop signal via the Internet 22. The district acoustic device is transmitted to the device 10 to stop the ringing district acoustic device, and after a predetermined time, the district acoustic control signal is transmitted to the terminal monitoring control device 10 via the Internet 22 to control the district acoustic device to re-ring. ..

Further, when the server control unit 54 receives the fire assertion signal from the receiver 12 via the Internet 22 after transmitting the fire warning signal, the server control unit 54 transmits the control signals of the interlocking control and the transfer control via the Internet 22. It is transmitted to the terminal monitoring control device 10 to perform interlocking control of the terminal device and transfer control for the name of the external device.

Further, when the server control unit 54 receives the recovery signal from the receiver 12 via the Internet 22 after transmitting the fire alarm signal, the server control unit 54 restores the fire control process of the server 24 itself and sends the recovery signal to the Internet 22. It is transmitted to the terminal monitoring and control device 10 via the above, and control is performed to restore the operating sensor and the terminal device.

Further, when the server control unit 54 receives the failure signal transmitted from the terminal monitoring control device 10 via the Internet 22 in the normal monitoring state, the server control unit 54 indicates the cause and the countermeasure of the failure stored in the database 62. Is acquired, a failure signal in which this failure information is set is transmitted to the receiver 12 via the Internet 22, a failure alarm sound is output from the alarm unit 48, and the failure representative light of the display unit 50 is blinked. Controls the display of failure information.

(Control operation of fire alarm system)
The operation of the fire alarm system will be described with reference to FIGS. 1 and 2. The terminal monitoring control device 10 monitors the presence or absence of a fire alarm based on the fire detection of, for example, the analog detector 16 connected to the transmission line 14, and when the fire alarm of the analog detector 16 is determined, the fire alarm is issued. A fire signal with the address of the analog detector 16 is transmitted to the server 24.

When the server 24 receives the fire signal from the terminal monitoring and control device 10, it searches the property data in the database 62 by the address set in the fire signal and acquires the fire area information indicating the location of the fire, and this fire area information. Is set to send a fire alarm signal to the receiver 12. The receiver 12 that has received the fire alarm signal from the server 24 outputs a fire alarm by an alarm sound and a display.

Further, the server 24 acquires the address of the district acoustic device corresponding to the address of the alarm detector acquired from the property information of the database 62 based on the fire signal received from the terminal monitoring control device 10, and this address is set. The district acoustic control signal is transmitted to the terminal monitoring control device 10.

The terminal monitoring control device 10 that has received the district acoustic control signal from the server 24 transmits the district acoustic control signal to the transmission line 14 and sounds the district acoustic device having the same address.

In response to the fire alarm output from the receiver 12, the disaster prevention manager or the like operates the acoustic stop switch provided on the operation unit 52 of the receiver 12, so that the receiver 12 determines the acoustic stop operation. Stop the acoustic alarm.

Subsequently, the disaster prevention manager or the like goes to the fire site to check for the presence or absence of a fire, and when the fire is confirmed, operates the fire determination switch provided in the operation unit 52 of the receiver 12. Therefore, the receiver 12 determines the fire determination operation and transmits the fire determination signal to the server 24.

The server 24, which has received the fire determination signal from the receiver 12, sends the control signal of the interlocking control and the transfer control in which the address of the terminal device corresponding to the fire alarm is set to the terminal monitoring control device 10 based on the fire determination. Send. When the terminal monitoring control device 10 receives the control signals of the interlocking control and the transfer control from the server 24, it transmits the interlocking control signal set with the received address to the transmission line 14 and connects to the repeater having the same address. Operate the fire doors and smoke exhaust equipment, and output a transponder signal to the outside.

After that, when the fire is extinguished by firefighting activities, the disaster prevention manager or the like operates the recovery switch provided in the operation unit 52 of the receiver 12. The receiver 12 determines the recovery operation and transmits the recovery signal to the server 24.

The server 24 that has received the recovery signal from the receiver 12 recovers its own fire control process and transmits the recovery signal to the terminal monitoring control device 10, and the terminal monitoring control device 10 that receives this recovers the operation. Restore the equipment and terminal equipment to the same normal monitoring state as before the fire broke out.

(Advantages of fire alarm system)
According to such an R-type fire alarm system, a terminal monitoring control device 10 and a receiver 12 are installed in a monitored facility such as an office building, and a fire reception control processing function is provided in an external server 24. By distributing the fire reception control processing function to the server 24, it is possible to simplify the equipment installed in the monitored facility.

Further, the equipment to be installed in the monitored facility is separately installed in the terminal monitoring control device 10 and the receiver 12, and the sensor and the control device are connected to the terminal monitoring control device 10 by wiring via the transmission line 14. By consolidating the hardware and consolidating the input / output functions for the user such as alarm, display, and operation in the receiver 12, terminal monitoring is performed compared to the conventional receiver in which the terminal monitoring control device and the receiver are integrated. The configuration of the control device 10 and the receiver 12 has been simplified, and the installation work of the system equipment in the monitored facility is mainly the installation and wiring work of the terminal monitoring control device 10, and the terminal monitoring control device for the receiver 12. It is not necessary to connect the wiring to the 10 and the server 24 can be connected to the server 24 via the Internet 22, which makes it possible to facilitate the installation work of the equipment in total.

In addition, by consolidating the fire reception control processing functions on the server 24, properties such as sensor address, district name, department name, type, line number, sensitivity, storage time, and interlocking relationship with smoke prevention equipment. The data is stored and managed on the server 24, and when changing the property data due to facility renovation or tenant replacement, there is no need to go to the receiver installation location to update the property data as in the past. , The property data can be easily updated on the server 24.

[Mobile device operation screen]
FIG. 3 is an explanatory diagram showing a login screen of a mobile terminal used for a sensor alarm test, FIG. 4 is an explanatory diagram showing a menu screen of the mobile terminal, and FIG. 5 shows a sensor test management screen of the mobile terminal. Explanatory drawing, FIG. 6 is an explanatory view showing a sensor selection screen of the mobile terminal, FIG. 7 is an explanatory view showing a fire warning screen of the mobile terminal, and FIG. 8 is an explanatory view showing a test report receiving screen of the mobile terminal. Is. The sensor test management screen and the sensor selection screen are included in the test operation screen.

(Login)
As shown in FIG. 3, when the inspector accesses the server 24 to perform the alarm test of the fire detector, the login screen 70 is displayed on the mobile terminal 30. Therefore, when a predetermined user ID 72 and password 74 are set on the login screen 70 and a login operation is performed, the menu screen 76 shown in FIG. 4 is displayed based on the authentication process of the server 24.

(Selection of test sensor)
The menu screen 75 of FIG. 4 includes menu buttons such as inspection 76, property information 77, history 78, and failure information 80. When the menu button of inspection 74 is operated, the sensor test management screen 82 shown in FIG. 5 is displayed. To.

On the sensor test management screen 82, selection buttons for address selection 84, district name selection 86, and map selection 88 are arranged. For example, when the address selection 84 is operated, the screen switches to the address selection screen 90 in FIG. The address list 92 of the vessel is displayed.

The address list 92 is composed of selection radio buttons, addresses, types, and test result items. If you want to select it as a test target, you can operate the selection radio button as shown at address 002. Further, the address 001 is a fire detector for which the alarm test has been completed, and "normal" is displayed as the test result.

In the address selection screen of FIG. 6, one fire detector is selected as a test target, but for example, a plurality of fire detectors installed on the same floor may be collectively selected.

Further, when the district name selection 86 is operated on the sensor test management screen 82 of FIG. 5, a list of sensor installation locations is displayed on the screen, and this list shows the districts whose installation locations are shown in the address list 92 of FIG. The screen with the name added is displayed.

Further, when the map selection 88 is operated on the test sensor selection screen 82 of FIG. 5, the map of the caution area on which the sensor symbol is displayed is displayed, for example, by floor, and the sensor symbol is operated. , The sensor to be tested is selected.

In addition to the address, district name, and map, the sensor selection to be tested includes those that display appropriate selection information on the screen for selection.

(Fire alarm screen)
As shown in FIG. 7, the fire alarm screen 94 has a fire mark 96, a fire display 98 of "fire", fire area information 100, and guidance of "fire. Please check the site. Was the site a fire?" Display 102, "yes" and "no" operation buttons 104 and 106 for on-site confirmation, and map buttons 108 for displaying an overall view of the caution area are displayed.

The fire alarm screen 94 is displayed on a display provided on the display unit 50 of the receiver 12, but in the present embodiment, the mobile terminal 30 used by the inspector 26 for the detector test is displayed. Is also displayed.

(Test notification reception screen)
As shown in FIG. 8, the test report receiving screen 110 displays the fire mark 96, the fire display 98, and the fire area information 100, similarly to the fire warning screen 94 of FIG. 7, but in addition to this, The test report display 112 is displayed to indicate that the fire has been received by the test report.

In addition, as test guidance 114, "Fire alarm by sensor test. Did you confirm the test result?" Is displayed, and a confirmation button 116 is arranged. When the confirmation button 116 is operated when the test result is confirmed, the confirmation signal is transmitted to the server 24, and the test mode set in the test target detector is canceled. Further, when the confirmation button 116 is operated, the screen returns to the address selection screen 90 of FIG. 6, and "normal" is set and displayed in the test result of the address list 92.

The operation screen of the mobile terminal 30 shown in FIGS. 3 to 8 is an example, and an appropriate operation screen can be used as needed.

[Fire alarm system detector test]
FIG. 9 is a time chart showing the operation associated with the sensor test of the fire alarm system, and will be as follows with reference to FIGS. 1 and 2.

As shown in FIG. 9, when the alarm test of the analog detector 16 installed in the warning area of the fire alarm system is performed, the inspector 26 uses the mobile terminal 30 to perform the login screen 70 shown in FIG. 3 in step S1. Is used to perform a login operation on the server 24, and the user ID and password for this login are transmitted to the server 24. If the login is successful, the server 24 displays the menu screen 72 shown in FIG. 4 in step S2.

Subsequently, when the inspector 26 selects inspection 74 from the menu screen 72 in step S4, the inspector 26 switches to the test sensor management screen 82 of FIG. 5 in step S5, and uses, for example, the address list 92 of the address selection screen 90 of FIG. When the analog sensor 16 to be tested is selected, the test sensor notification signal is transmitted to the server 24 in step S6, and the server 24 tests the address of the analog sensor 16 notified as the test target in step S7. Set the mode.

When the test issuance is ready in this way, the inspector 26 uses the test jig 28 to test-issue the analog detector 16 selected as the test target, so that the analog detector 16 steps. The fire signal with its own address set in S8 is transmitted to the terminal monitoring and control device 10, and the terminal monitoring and control device 10 receiving this is transmitted to the server 24 with the fire signal with the sensor address set in step S9.

When the server 24 receives the fire signal from the terminal monitoring control device 10 in step S10 and determines in step S11 that the fire signal is from the analog detector 16 to be tested in which the test mode is set, the process proceeds to step S12. The test reception processing is performed in the mobile terminal 30 and the test notification reception signal is transmitted to the mobile terminal 30 and the receiver 12, and in step S13, the test notification reception screen 110 shown in FIG. 8 is displayed on the mobile terminal 30 as a test result. In step S14, the receiver 12 also displays the test report receiving screen 110 shown in FIG. 8 as a test result, similarly to the mobile terminal 30.

On the other hand, if the detection address set in the fire signal from the terminal monitoring control device 10 in step S11 does not correspond to the detector address in which the test mode is set, it is determined that the fire signal is due to a true fire. In step S15, a fire warning signal is transmitted to the receiver 12 and the mobile terminal 30, and in step S16, the receiver 12 is displayed with the fire warning screen 94 shown in FIG. By outputting an alarm and displaying the fire alarm screen 94 shown in FIG. 7 on the mobile terminal 30 in step S17 in the same manner as the receiver 12, the inspector 26 is notified of the fire occurrence and the detector is issued. Stop the test and have them deal with the fire.

[P-type fire alarm system]
(Overview of fire alarm system)
FIG. 10 is an explanatory diagram showing an outline of a P-type fire alarm system that monitors a fire on a line-by-line basis and a sensor alarm test, and FIG. 11 shows a functional configuration of the terminal monitoring control device, receiver, and server of FIG. It is a block diagram.

As shown in FIG. 10, in the fire alarm system of the present embodiment, the P-type terminal monitoring and control device 120 is connected to the Internet 22 via the gateway device 18, and the receiver 12 is connected to the Internet 22 via the gateway device 20. As a result, the terminal monitoring control device 10 and the receiver 12 are communicably connected to the server 24 via the Internet 22.

A plurality of sensor lines 124 are pulled out from the P-type terminal monitoring control device 120, and the on / off detector 126 is connected to the P-type terminal monitoring and control device 120. A plurality of control lines (not shown) are drawn out from the P-type terminal monitoring and control device 120, and for example, a district acoustic device is connected as a terminal device for each control line.

As shown in FIG. 11, the P-type terminal monitoring and control device 120 includes a terminal control unit 130 and a communication unit 134, and a plurality of line receiving units 132 are provided corresponding to the plurality of sensor lines 124. A plurality of line control units are provided corresponding to a plurality of control lines not shown.

In the line receiving unit 132, any of the on / off detectors 126 connected to the sensor line 124 detects a fire and issues a fire, and causes an alarm current to flow through the detector line 124. Therefore, this alarm current is transmitted. It detects and outputs a fire signal to the terminal control unit 130.

When the terminal control unit 130 receives the fire signal from the line reception unit 132, the terminal control unit 130 transmits the fire signal for which the line address (line number) is set to the server 24, and causes the server 24 to perform a predetermined fire control process.

When the terminal control unit 130 receives a signal such as district acoustic stop, interlocking control, or restoration for which a line address is set from the server 24, the line control unit (not shown) becomes a line control unit corresponding to the line address. Instruct to control the sound stop, interlocking, or restoration.

Since the other configurations and functions are basically the same as those of the R-type fire alarm system shown in FIGS. 1 and 2, the same reference numerals are given and the description thereof will be omitted.

(Outline of sensor alarm test)
The detector alarm test by the inspector 26 of the on / off detector 126 provided in the P-type fire alarm system is performed as follows. The inspector 26 goes to the installation location of the on / off detector 126, first logs in to the server 24 using the mobile terminal 30, and acquires the test operation screen from the server 24.

Subsequently, when the line number to which the on / off sensor 126 to be tested is connected is selected from the line number list displayed on the test operation screen of the mobile terminal 30, the test line notification in which the selected line number is set is set. The signal is transmitted to the server 24, and the server 24 sets the test mode for the line number to be tested.

Subsequently, the inspector 26 causes the test to be issued by inflowing the test smoke into the on / off sensor 126 connected to the sensor line 124 to be tested by the test jig 28. The on / off detector 126, which was test-reported by the test jig 28, transmits a fire signal to the P-type terminal monitoring and control device 120, and the P-type terminal monitoring and control device 120 has the line number of the detector line 124 that received the fire signal. The set fire signal is transmitted to the server 24.

When the server 24 receives the fire signal from the P-type terminal monitoring and control device 120, the server 24 compares the line number set in the fire signal with the line number in which the test mode is set, and the line number in which the test mode is set is compared. In the case of, the test issuance reception signal is transmitted to the mobile terminal 30, and the test issuance reception screen including the issuance line number and the district name is displayed. As a result, the inspector 26 can confirm that the test notification of the on / off detector 126 has been performed normally.

Subsequently, when the inspector 26 performs a confirmation operation on the test result on the mobile terminal 30, a confirmation signal is transmitted to the server 24, and in response to this, the server 24 transmits a sensor recovery signal to the P-type terminal monitoring and control device 120. Then, by temporarily shutting off the power supply to the sensor line 124 in the alarm state, the on / off detector 126 that issued the test alarm is restored.

As a result, it is no longer necessary to have an inspector on the server 24 and receiver 12 sides of the P-type fire alarm system, and only one inspector who conducts a sensor test using the test jig 28 is required to perform a sensor alarm test. Can be advanced efficiently.

[Modification of the present invention]
In the above embodiment, the terminal monitoring and control device is connected to a sensor system device such as a fire detector and a transmitter and a control system device such as a district sound device and a fire door. It may be installed separately for the system and the control system.

Further, the configuration including the Internet, servers, and databases in the above embodiment may be cloud computing, and cloud computing is a shared pool of configurable computing resources such as networks, servers, storage, applications, and services. On the other hand, it is convenient and on-demand accessible.

Further, the present invention includes appropriate modifications that do not impair its purpose and advantages, and is not further limited by the numerical values shown in the above embodiments.

10: Terminal monitoring and control device 12: Receiver 14: Transmission line 16: Analog detectors 18, 20: Gateway device 22: Internet 24: Server 26: Inspector 28: Test jig 30: Mobile terminal 32: Mobile phone terminal 34 : Mobile phone network 36: Small stations 38, 110: Terminal control units 42, 46, 134: Communication units 44, 130: Receiver control unit 48: Alarm unit 50: Display unit 52: Operation unit 54: Server control unit 62: Database 70: Login screen ゜ 72: Menu screen 82: Test detector management screen 90: Address selection screen 92: Address list 94: Fire alarm screen 110: Test notification reception screen 120: P-type terminal monitoring and control device 124: Sensor Line 126: On / off detector 132: Line receiver

Claims (11)

The terminal monitoring controller and receiver are connected to the server via the network,
When the terminal monitoring control device receives a fire signal from a fire detector connected to a line drawn out to the caution area, the terminal monitoring control device transmits the fire signal to the server via the network.
The server receives a fire signal transmitted from the terminal monitoring and control device via the network, performs a predetermined fire reception process, and receives a fire alarm signal based on the process result to the receiver via the network. In a fire alarm system that sends a fire alarm to the
A mobile terminal carried by an inspector who performs an alarm test of the fire detector using a test jig is connected to the server via the network.
The mobile terminal transmits a test detector notification signal indicating a fire detector to be tested based on the operation of the inspector to the server to set the test mode.
When the server determines that the fire signal received from the terminal monitoring and control device is a fire signal from the fire detector set in the test mode, the server performs a predetermined test alert reception process to issue a test. A fire notification system characterized in that a notification reception signal is transmitted to the mobile terminal to notify the reception result of a test notification.
In the fire alarm system according to claim 1, the mobile terminal is characterized in that one or a plurality of detector addresses selected as test targets are set in the test detector notification signal and transmitted to the server. Fire alarm system.
In the fire alarm system according to claim 1, when the server performs the test alarm reception process, the server transmits the test alarm reception signal to the receiver to notify the fire reception by the test alarm. A fire alarm system characterized by letting it go.
In the fire alarm system according to claim 1, when the server determines that the fire signal received from the terminal monitoring and control device is a fire signal from a fire detector that is not set to the test mode. , A fire alarm system characterized in that the fire reception process is performed and the fire alarm signal is transmitted to the receiver and the mobile terminal to output a fire alarm.
In the fire alarm system according to claim 1,
The network is the Internet, and the terminal monitoring control device and the receiver are connected to the Internet via a gateway device.
The mobile terminal is a fire alarm system characterized in that it is connected to the Internet via a wireless network.
The fire alarm system according to claim 5, wherein the mobile terminal is connected to the Internet via a short-range wireless network by the mobile phone terminal.
In the fire alarm system according to claim 1,
The mobile terminal
Log in to the server using the specified user ID and password, acquire the test operation screen, and
By selecting one or more fire detectors to be tested from the list of fire detectors displayed on the test operation screen, the test detector notification signal is transmitted to the server.
A fire alarm system characterized in that when the test alarm reception signal is received from the server, the sensor information of the fire alarm is displayed on the test alarm reception screen.
In the fire alarm system according to claim 7, when the mobile terminal receives the test notification reception signal from the server, the mobile terminal displays the test result in the fire detector list on the test operation screen. A featured fire alarm system.
In the fire alarm system according to claim 8, the mobile terminal selects and displays a list of detector addresses, a list of detector installation locations, or a map of the sensor installation area as the fire detector list. A fire alarm system characterized by making it possible.
In the fire alarm system according to claim 1,
When the fire detector detects a fire, it transmits a fire signal with a unique address.
The terminal monitoring control device transmits a fire signal to which the address is set to the server.
The server generates a fire warning signal in which fire area information indicating a fire occurrence location is set based on an address set in the fire signal, and transmits the fire alarm signal to the receiver.
A fire alarm system in which the receiver displays the fire area information set in the fire alarm signal received from the server.
In the fire alarm system according to claim 1,
When the fire detector detects a fire, a predetermined alarm current is passed through the line.
The terminal monitoring and control device transmits a fire signal in which the alarm line information indicating the line through which the alarm current has flowed is set, and transmits the fire signal to the server.
The server transmits a fire warning signal in which fire area information indicating a fire occurrence location is set based on the alarm line information set in the fire signal to the receiver.
A fire alarm system in which the receiver displays the fire area information set in the fire alarm signal received from the server.

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