JP2023040256A - fire alarm system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fire alarm system that facilitates manufacturing, installation, and operation management by simplifying a system configuration by separating a receiver configuration into a section that monitors and controls sensors and control devices and a section that performs display and operation and connecting the two through control processing by a server on the Internet.

SOLUTION: In a fire alarm system, a terminal monitoring control device 10 and a receiver 12 are connected to a server 42 via the Internet 40. The terminal monitoring control device 10 is disposed with a terminal device connected for each alert region in a monitoring object facility, and is not provided with an operation unit that performs operation corresponding to a fire alert and an alert unit that outputs a fire alert. The server 42 is installed outside the monitoring object facility, and is not provided with an operation unit that performs operation corresponding to a fire alert and an alert unit that outputs a fire alert. The receiver 12 is disposed in the monitoring object facility, and is provided with an operation unit that performs operation corresponding to a fire alert and an alert unit that outputs a fire alert.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2023,JPO&INPIT

Description

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

Conventionally, receivers for fire alarm systems that monitor fires are installed in disaster prevention centers and control rooms in buildings. By receiving the fire signal from the receiver, the fire representative display is displayed and the main sound is activated. It also performs interlocking control of fire doors, fire shutters, etc.

In the receiver of such a fire alarm system, the address of the fire detector connected to the receiver, district name, department name, type, line number, sensitivity, accumulation time, interlocking relationship with smoke prevention and exhaust equipment Such so-called property data is prepared and stored in a non-volatile memory such as an EEPROM provided in the receiver for use in fire reception control.

JP 2011-189055 A JP 2009-087111 A Utility Model Registration No. 3136363 JP 2013-089076 A JP 2009-098757 A JP 2010-282316 A JP 2015-133026 A JP 2002-183864 A JP 2013-089091 A JP 2006-195845 A JP-A-11-096473 JP 2015-133058 A Japanese Patent Publication No. 2012-519315

However, in such a conventional fire alarm system, a fire sensor and a control device are connected to a line drawn from the receiver, and the receiver includes an alarm unit, an operation unit, a display unit, All operation and display functions necessary for fire monitoring, such as a printer, are provided, and the configuration of the receiver becomes complicated, and as the scale of the facility to be monitored increases, the number of line cables pulled out from the receiver increases. However, there is a problem that the manufacture and installation of the receiver become complicated.

In addition, while the fire alarm system is in operation, it is necessary to change the property data due to facility renovations and tenant replacements. There is also the problem that it takes time.

Furthermore, depending on the fire alarm system, there are cases where it is desired to connect a sub-display panel to the receiver and see the fire alarm display by the receiver in another location, but the cable is connected to the sub-display panel in a place away from the receiver. There is also a problem that it is necessary to pull and connect, and the installation work takes time and effort.

The present invention divides the receiver configuration into a part that monitors and controls sensors and control equipment, and a part that performs display operation, and connects both by control processing of a server on the Internet, thereby simplifying the system configuration and manufacturing. To provide a fire alarm system that facilitates installation, operation and management.

(Fire alarm system)
The present invention is a fire alarm system,
A terminal monitoring control device and a receiver are connected to a server via a network that connects the monitoring target facility and the outside of the monitoring target facility, and the network is connected between the terminal monitoring control device and the server and between the receiver and the server. send and receive signals through
The terminal monitoring and control device is arranged by connecting a terminal device for each security zone of the facility to be monitored, and does not have an operation unit for performing operations corresponding to fire alarms and an alarm unit for outputting fire alarms,
The server is located outside the facility to be monitored and does not have an operation unit that performs operations corresponding to fire alarms and an alarm unit that outputs fire alarms,
The receiver is arranged at a facility to be monitored, and is characterized by comprising an operation unit for performing operations corresponding to fire alarms and an alarm unit for outputting fire alarms.

(basic effect)
The present invention relates to a fire alarm system in which a terminal monitoring control device, a receiver, and a terminal monitoring control device are connected to a server via a network connecting a facility to be monitored and the outside of the facility to be monitored. Signals are sent and received via a network between the receiver and the server, and between the receiver and the server. Terminal monitoring and control devices are arranged by connecting terminal devices for each security zone of the facility to be monitored, and respond to fire alarms. The server is located outside the facility to be monitored and is equipped with an operation unit for performing operations corresponding to fire alarms and an alarm unit for outputting fire alarms. First, the receiver is installed in the facility to be monitored and has an operation unit that responds to the fire alarm and an alarm unit that outputs the fire alarm. The receiver is installed, and the fire reception control processing function is provided on an external server. By distributing the fire reception control processing function to the server, it is possible to simplify the equipment installed in the monitored facility. can.

In addition, as the equipment to be installed in the monitoring target facility, the terminal monitoring control device and the receiver are installed separately. By consolidating input/output functions for the user such as alarm, display, and operation into the device, the structure of the terminal monitoring control device and the receiver is compared to the conventional fire receiver, which integrated the terminal monitoring control device and the receiver. installation work at the facility to be monitored mainly consisted of installing and wiring the terminal monitoring and control equipment. It suffices to establish a communication connection with the server, and it is possible to simplify and facilitate the installation work of the equipment as a whole.

In addition, by consolidating the control processing function of fire reception on the server, the property such as fire detector address, district name, department name, type, line number, sensitivity, accumulation time, interlocking relationship with smoke prevention and exhaust equipment, etc. The data is stored and managed on the server, and when property data is changed due to facility renovations or tenant replacements, there is no need to visit the location where the receiver is installed to update the property data. Property data can be easily updated on the server.

Explanatory diagram showing the outline of the R-type fire alarm system Block diagram showing the functional configuration of the terminal monitoring and control device, receiver and server in FIG. Time chart showing the operation of the fire alarm system Explanatory diagram showing an example of installing a fire alarm system for a building Explanatory diagram showing an outline of a fire alarm system with a backup server Explanatory diagram showing an outline of a fire alarm system using a wired LAN Block diagram showing the functional configuration of the terminal monitoring control device, receiver and server in FIG. Explanatory diagram showing the outline of the P-type fire alarm system Block diagram showing the functional configuration of the terminal monitoring control device, receiver and server in 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. As shown in FIG. 1, in the fire alarm system of this embodiment, a terminal monitoring control device 10 is connected to the Internet 40 via a gateway device 34, and a receiver 12 is connected via a gateway device 36. As a result, the terminal monitoring control device 10 and the receiver 12 are connected to the server 42 via the Internet 40 so as to be communicable. Furthermore, in this embodiment, the sub-display panel 14 is communicably connected to the server 42 via the gateway device 38 .

The gateway devices 34, 36, 38 transmit TCP signals (transmission control protocol signals) on the side of the terminal monitoring control device 10, receiver 12 and sub display panel 14 and IP signals (Internet protocol signals) on the side of the Internet 40. doing protocol conversion.

The terminal monitoring control device 10, the receiver 12 and the sub-display board 14 are installed in a monitoring target facility such as an office building, and the server 42 is installed in another location such as a manufacturer or maintenance company. Note that the sub display panel 14 is provided as required, and does not necessarily need to be provided.

A transmission line 16 is drawn out from the terminal monitoring control device 10 to the guarded area. An on/off sensor 24 is connected to the sensor line 22 via 20 , and a transmitter 26 is further connected via the repeater 20 . In addition, on the transmission line 16 drawn out from the terminal monitoring control device 10, as terminal devices to be controlled, a district acoustic device 28, a fire door 30, and a smoke prevention device 32 such as a fire damper are connected via a repeater 20. It is connected.

The analog sensor 18 and repeater 20 connected to the transmission line 16 are preset with unique addresses, and the maximum address per transmission line 16 is, for example, 512 addresses. Allows connection of multiple devices.

For example, when the terminal monitoring control device 10 receives a fire signal set with an address transmitted from a fire alarm (fire detection) of the analog sensor 18, the address of the analog sensor 18 whose destination is the server 42 is set. Then, the fire signal is transmitted from the gateway device 34 to the server 42 via the Internet 40 .

When the server 42 receives the fire signal from the terminal monitoring control device 10, it refers to the pre-stored property data from the address set in the fire signal, acquires the fire area information indicating the location of the fire, A fire alarm signal in which district information is set is transmitted to the receiver 12 and the sub-display panel 14 via the Internet 40 and the gateway devices 36 and 38 .

Upon receiving the fire alarm signal from the server 42, the receiver 12 outputs a fire alarm accompanied by an area indication indicating where the fire broke out. The sub-display board 14 also outputs a fire alarm accompanied by the district display showing the location of the fire, which is the same as that of the receiver 12 .

Further, when the server 42 receives the fire signal from the terminal monitoring control device 10, the server 42 transmits the district acoustic control signal in which the address of the district acoustic device 28 corresponding to the fire district information indicating the location of the fire is set to the Internet 40 and the gateway device. 34 to the terminal supervisory control device 10. From the terminal supervisory control device 10, the district sound control signal set with the received address is sent to the transmission line 16, and connected to the repeater 20 with the matching address. The local sound device 28 is sounded.

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

As shown in FIG. 2 , the terminal monitoring control device 10 includes a terminal control section 44 , a transmission section 45 , a communication section 46 , an information transfer section 48 , a power supply section 50 and a standby power supply section 52 .

The terminal control unit 44 is composed of a computer circuit having a CPU, a memory, and various input/output ports. Performs transmission control according to the protocol.

The downstream signal from the transmitter 45 to the analog sensor 18 and the repeater 20 is voltage mode transmission, and is transmitted as a voltage pulse that changes the voltage of the transmission line 16, for example, between 18 volts and 30 volts. On the other hand, the upstream signal from the analog sensor 18 and repeater 20 is transmitted in the current mode. is transmitted to

Transmission control by the terminal control unit 44 according to the fire transmission protocol is as follows. During normal monitoring, the terminal control unit 44 transmits polling commands for normal monitoring that sequentially specify terminal addresses, and the analog sensor 18 and repeater 20 receive polling commands that match their set addresses. Then, a normal monitoring response is made. For this reason, the terminal control unit 44 can detect a failure by regarding the analog sensor 18 or repeater 20 that did not respond to the polling command as a failure.

In addition, the terminal control unit 44 transmits a batch AD conversion command at each polling command transmission cycle for all terminal addresses. For example, when the analog sensor 18 receives a batch AD conversion command from the terminal control unit 44, it samples analog detection data such as detected smoke concentration and temperature, and compares it with a predetermined fire level.

When the analog detection data sampled by the analog sensor 18 exceeds the fire level, an interrupt signal is transmitted to the terminal controller 44 at the timing of responding to the polling command. This interrupt signal sends a signal that is not normally used, such as setting the response bit string to all 1's.

Upon receiving an interrupt signal from the analog sensor 18, the terminal control unit 44 issues a group search command, receives an interrupt response from the group including the analog sensor 18 that detected the fire, and identifies the group. . Subsequently, as a search command within the address, polling is sequentially issued to individual analog sensors 18 included in the determined group, and a fire response such as analog data is received. The sensor address of the sensor 18 is recognized, and the communication section 46 is instructed to transmit the fire signal set with this sensor address to the server 42 via the gateway device 34 and the Internet 40 .

Further, when the repeater 20 connected to the on/off sensor 24 and the transmitter 26 receives the collective AD conversion command from the terminal control unit 44, it samples the on/off data indicating whether or not there is a fire alarm or a fire alarm, and samples the fire alarm. In the case of an alarm or fire transmission, an interrupt signal is transmitted to the terminal control section 44 at the timing of responding to the polling command. In response to this, the terminal control unit 44 issues a group search command and an intra-group search command, recognizes the address of the repeater 20 that has issued the fire alarm or fire signal, and sends the fire signal set with this sensor address to the server 42. send.

In addition, the terminal control unit 44 transmits a control signal designating the address set in the control signal received from the server 42 to the transmission line 16 to the district acoustic device 28, the fire door 30, and the smoke prevention and exhaust equipment 32. and operates the terminal device connected to the repeater 20 whose address matches its own address.

In addition to a power supply unit 50 that generates DC power from a commercial AC power supply and supplies it to each unit, the terminal monitoring control device 10 is provided with a backup power supply unit 52 . The standby power supply unit 52 has a battery, and normally receives power supply from the power supply unit 50 to charge the battery, and when the commercial AC power supply fails, the standby power supply unit 52 switches to power supply from the battery. , the standby power supply can be maintained for a predetermined time or more specified by the standard.

(Receiving machine)
As shown in FIG. 2 , the receiver 12 includes a receiver control section 54 , a communication section 56 , an alarm section 58 , a display section 60 , an operation section 62 , a power supply section 64 and a standby power supply section 66 .

The receiver control unit 54 is composed of a computer circuit having a CPU, a memory, and various input/output ports. Do it in cooperation.

The alarm unit 58 is provided with a speaker to output an acoustic alarm or a voice message as a fire alarm.

The display unit 60 is provided with a fire indicator light, an obstacle indicator light, etc., a display with a touch panel, and a printer.

The operation unit 62 is provided with various operation switches such as a sound stop switch, a fire determination switch, a district sound temporary stop switch, and a recovery switch, which are operated when a fire alarm sound is output.

The communication unit 56 is communicatively connected to the server 42 via the gateway device 36 and the Internet 40, and transmits and receives various signals.

When the receiver control unit 54 receives a fire alarm signal in which the fire area information is set from the server 42, the alarm unit 58 outputs an acoustic alarm by sounding the speaker, and blinks the representative fire light of the display unit 60. Further, control is performed to display fire zone information indicating the place where the fire broke out together with the fire alarm information on the display.

Further, the receiver control unit 54 performs control to stop the sound alarm from the alarm unit 58 when detecting the operation of the sound stop switch provided in the operation unit 62 during the output of the fire alarm.

Further, when the receiver control unit 54 detects a fire determination operation of the fire determination switch provided in the operation unit 62 during the output of the fire alarm, the receiver control unit 54 instructs the communication unit 56 to transmit the fire determination signal to the server 42. , and an instruction from the server 42 to the terminal monitoring control device 10 is used to perform interlocking control and report transfer control.

In addition, when the receiver control unit 54 detects that the area sound pause switch provided in the operation unit 62 has been operated while the fire alarm is being output, the receiver control unit 54 instructs the communication unit 56 to output the area sound pause signal. Control is performed to transmit to the server 42, and an instruction from the server 42 to the terminal monitoring control device 10 temporarily stops the area sound.

In addition, when the receiver control unit 54 detects the operation of the recovery switch provided in the operation unit 62 during the output of the fire alarm, the receiver control unit 54 instructs the communication unit 56 to control to transmit the recovery signal to the server 42. , the server 42 is restored, and the detectors and terminal equipment in operation are restored according to the instructions from the server 42 to the terminal monitoring control device 10 .

The receiver 12 is also provided with a standby power supply section 66 in addition to a power supply section 64 that generates DC power from a commercial AC power supply and supplies it to each section. The standby power supply unit 66 has a battery, and normally receives power supply from the power supply unit 64 to charge the battery, and when the commercial AC power supply fails, the standby power supply unit 66 switches to power supply from the battery. , the standby power supply can be maintained for a predetermined time or more specified by the standard.

The sub-display panel 14 shown in FIG. 1 has the same functional configuration as the receiver 12 shown in FIG.

(server)
As shown in FIG. 2 , the server 42 includes a server control section 70 , a communication section 72 , a display section 74 , an operation section 76 and a database 78 .

The server control unit 70 is composed of a computer circuit having a CPU, a memory, and various input/output ports, and performs various processing controls necessary for fire monitoring by executing programs. The communication unit 72 transmits and receives various signals to and from the terminal monitoring control device 10 and the receiver 12 via the Internet 40 .

A display unit 74 is a computer display, and an operation unit 76 is an input device such as a keyboard and a mouse of the computer.

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 78 in advance. The property data stored in the database 78 includes the addresses of the analog sensors 18 and repeaters 20 connected to the terminal monitoring control device 10, district names, department names, types, line numbers, sensitivity, storage time, smoke prevention and exhaust equipment, etc. It contains data such as interlocking relationship with

The server control unit 70 functions as the center of fire monitoring control in the fire alarm system, and performs the following controls.

When the server control unit 70 receives a fire signal set with an address transmitted from the terminal monitoring control device 10 via the Internet 40, the server control unit 70 refers to the property data in the database 78 and refers to the fire signal such as the district name corresponding to the address. Fire area information indicating the place of occurrence is acquired, and control is performed to transmit a fire alarm signal in which this fire area information is set to the receiver 12 via the Internet 40, and the fire area information is specified in the receiver 12. Output a fire alarm. The fire alarm signal from the server 42 is also transmitted to the sub-display panel 14, but will be omitted in the following description.

Further, when the server control unit 70 receives a local sound stop signal from the receiver 12 via the Internet 40 after transmitting the fire alarm signal, the server control unit 70 transmits the local sound stop signal via the Internet 40 to terminal monitor control. A control signal is sent to the device 10 to stop the ringing district sound device 28, and after a predetermined time, a district sound control signal is sent to the terminal monitoring control device 10 via the Internet 40 to re-sound the district sound device 28. I do.

Further, when the server control unit 70 receives a fire determination signal from the receiver 12 via the Internet 40 after transmitting the fire alarm signal, the server control unit 70 transmits control signals for interlocking control and alarm transfer control via the Internet 40. It is transmitted to the terminal monitoring control device 10, and interlocking control of the terminal equipment and information transfer control for the external equipment name are performed.

Further, when the server control unit 70 receives a recovery signal from the receiver 12 via the Internet 40 after transmitting the fire alarm signal, the server control unit 70 recovers the fire control processing of the server 42 itself and transmits the recovery signal to the Internet 40 . to the terminal monitoring and control device 10 via , and control to restore operating sensors and terminal equipment.

Further, when the server control unit 70 receives a fault signal transmitted from the terminal monitoring control device 10 via the Internet 40 in the normal monitoring state, the server control unit 70 receives fault information indicating the cause of the fault and countermeasures stored in the database 78 . and transmits a failure signal in which this failure information is set to the receiver 12 via the Internet 40, outputs a failure alarm sound from the alarm unit 58, blinks the failure indicator lamp of the display unit 60, Controls the display of failure information on the display.

(Control operation of fire alarm system)
FIG. 3 is a time chart showing the operation of the fire alarm system. As shown in FIG. 3, 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 sensor 18 connected to the transmission line 16 in step S1. When it is determined that the alarm has been issued, the process proceeds to step S2, and a fire signal in which the address of the analog sensor 18 that issued the fire alarm is set is transmitted to the server 42. FIG.

When the server 42 receives the fire signal from the terminal monitoring control device 10, in step S3, it retrieves the property data in the database 78 using the address set in the fire signal, acquires the fire area information indicating the place where the fire broke out, and obtains the fire area information. A fire alarm signal in which fire area information is set is transmitted to the receiver 12 . The receiver 12 that has received the fire alarm signal from the server 42 outputs a fire alarm with an alarm sound and display in step S4.

Further, in step S5, the server 42 acquires the address of the district acoustic device corresponding to the address of the alarm sensor acquired from the property information of the database 78 based on the fire signal received from the terminal monitoring control device 10. The set area sound control signal is transmitted to the terminal monitor control device 10 .

The terminal supervisory control device 10, which has received the district sound control signal from the server 42, transmits the district sound control signal to the transmission line 16 in step S6, and causes the district sound device 28 with the matching address to ring.

In response to the fire alarm output from the receiver 12 in step S4, the disaster prevention manager or the like operates the sound stop switch provided in the operation unit 62 of the receiver 12. A stop operation is discriminated, and the sound alarm is stopped in step S8.

Subsequently, the disaster prevention manager or the like goes to the fire site to check whether there is a fire or not. For this reason, when the receiver 12 determines the operation to determine the fire in step 9, the process proceeds to step S10, and a fire determination signal is transmitted to the server 42. FIG.

The server 42 receives the fire determination signal from the receiver 12, based on the fire determination in step S11, outputs the control signal for interlocking control and report transfer control in which the address of the terminal device corresponding to the fire alarm is set. Send to device 10 . When the terminal monitoring control device 10 receives control signals for interlocking control and report transfer control from the server 42, the process proceeds to step S12, and the interlocking control signal in which the received address is set is transmitted to the transmission path 16. The fire door 30 and smoke prevention device 32 connected to 20 are operated, and the information transfer unit 48 is instructed to output a signal transfer 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 62 of the receiver 12 . The receiver 12 determines the restoration operation in step S13, and transmits a restoration signal to the server 42 in step S14.

The server 42 that has received the restoration signal from the receiver 12 restores its own fire control processing in step S15, and also transmits the restoration signal to the terminal monitoring control device 10, and the terminal monitoring control device 10 that has received this is operated. Restore the detectors and terminal equipment inside, and put them into the same normal monitoring state as before the fire broke out.

[Merits of the fire alarm system]
According to such an R-type fire alarm system, a facility to be monitored such as an office building is provided with a terminal monitoring control device 10 and a receiver 12, and a fire reception control processing function is provided in an external server 42. By distributing the fire reception control processing function to the server 42, equipment installed in the facility to be monitored can be simplified.

In addition, the equipment to be installed in the facility to be monitored is divided into the terminal monitoring control device 10 and the receiver 12, and the sensor and control equipment are wired and connected to the terminal monitoring control device 10 via the transmission line 16. By consolidating the hardware and consolidating the input/output functions for the user such as warning, display, and operation in the receiver 12, terminal monitoring is much easier than in conventional receivers, in which the terminal monitoring control device and the receiver are integrated. The configuration of the control device 10 and the receiver 12 becomes simple, and the work of installing the system equipment in the facility to be monitored mainly consists of the installation and wiring work of the terminal monitoring control device 10. As for the receiver 12, the terminal monitoring control device 10 is unnecessary, and it is only necessary to connect to the server 42 via the Internet 40, which makes it possible to facilitate the installation work of the equipment as a whole.

In addition, by consolidating the fire reception control processing function in the server 42, the address of the detector, the name of the district, the name of the department, the type, the line number, the sensitivity, the accumulation time, the interlocking relationship with the smoke prevention and exhaust equipment, etc. The data is stored and managed in the server 42, and when the property data is changed due to facility renovation, tenant replacement, etc., there is no need to visit the installation location of the receiver and update the property data as in the past. , the server 42 can easily update property data.

[Fire alarm system installed in the building]
FIG. 4 is an explanatory diagram showing an installation example of a fire alarm system for a building. As shown in FIG. 4, a building 11 such as a building to be monitored has n floors. For example, an analog sensor 18 is connected, and a transmitter 26 and a district acoustic device 28 are connected via a repeater 20 .

The terminal monitoring control device 10 installed on each floor is connected to a dedicated gateway device 34, and can be connected to the server 42 on the Internet 40 shown in FIG.

A receiver 12 is installed in the disaster prevention center, janitor's office, etc. on the 1st floor of the building 11, and can be connected to the server 42 on the Internet 40 shown in FIG.

In the configuration in which the terminal monitoring and control device 10 is arranged on each floor of the building 11 in this embodiment, the number of terminal devices installed on each floor is large in scale and close to the maximum address of the terminal devices that can be connected to the transmission line 16. is suitable in some cases.

On the other hand, if the number of terminal devices installed in the entire building is within the maximum address of the terminal devices that can be connected to the transmission line 16, for example, one terminal monitoring control device is installed on the first floor of the same floor as the receiver 12. 10 is arranged, and the transmission line 16 is pulled out from there to each floor to arrange the terminal equipment.

Further, when the number of terminal devices installed on the same floor exceeds the number corresponding to the maximum number of addresses of terminal devices connectable to the transmission line 16, the transmission unit of the terminal monitoring control device 10 shown in FIG. 45 may be provided, and a plurality of transmission lines 16 may be drawn out to connect terminal devices.

In this way, the terminal monitoring and control devices 10 installed in the monitoring target facility are arranged in an appropriate number according to the scale and building configuration of the monitoring target facility.

[Server multiplexing]
FIG. 5 is an explanatory diagram showing an outline of a fire alarm system provided with a spare server. In addition to the embodiment of FIG. 1, two spare servers 80 and 82 are connected to the Internet 40 to multiplex the servers. ing.

The spare servers 80 and 82 have basically the same configuration and functions as the main server 42 shown in FIG. 82 is installed in a geographically remote location, for example, the Osaka branch office or the Sendai branch office.

When the property information or history information stored in the database of the main server 42 is changed during the operation of the fire alarm system, this changed information is sent to the spare servers 80, 82 in substantially real time and stored in the database. are updated to synchronize each other's information.

In the fire alarm system of FIG. 5 in which servers are multiplexed, for example, when the area where the main server 42 is installed is hit by a disaster such as an earthquake and the server 42 goes down and stops functioning, terminal monitoring is performed. By switching the connection destination of the control device 10 and the receiver 12 to either of the spare servers 80 and 82 that are functioning normally, fire monitoring can be continued, and a disaster-resistant system can be constructed.

[Fire alarm system using LAN]
FIG. 6 is an explanatory diagram showing an outline of a fire alarm system using a wired LAN, and FIG. 7 is a block diagram showing the functional configuration of the terminal monitoring control device, receiver and server shown in FIG.

As shown in FIG. 6, in the present embodiment, a LAN (local area network) such as Ethernet (registered trademark) is installed in the facility to be monitored where the terminal monitoring control device 10, the receiver 12 and the sub-display panel 14 are arranged. A LAN line 86 is drawn from a LAN communication device 84 , and the LAN communication device 84 is connected to the Internet 40 via the gateway device 36 .

In the embodiment, as shown in FIG. 7, the terminal monitoring control device 10 and the receiver 12 are provided with LAN communication units 88 and 90, and the terminal monitoring control device 10, the receiver 12 and the sub-display board 14 are connected to the LAN. By connecting to the line 86, communication connection with the server 42 via the Internet 40 is enabled. Since other configurations and functions are the same as those of the embodiment shown in FIGS.

By using the wired LAN including the gateway device 34 and the LAN communication device 84 in this way, there is no need to prepare a gateway device dedicated to the fire alarm system, the introduction of the fire alarm system is easy, and the operation cost can be reduced. becomes.

[P type fire alarm system]
(Overview of fire alarm system)
FIG. 8 is an explanatory diagram showing an outline of a P-type fire alarm system that monitors fires on a line-by-line basis. FIG. 9 is a block diagram showing the functional configuration of the P-type terminal monitoring and control device, receiver and server shown in FIG. be.

As shown in FIG. 8, in the fire alarm system of this embodiment, a P-type terminal monitoring control device 100 is connected to the Internet 40 via a gateway device 34, and a receiver 12 is connected via a gateway device 36. As a result, the P-type terminal monitoring control device 100 and the receiver 12 are connected to the server 42 via the Internet 40 so as to be communicable.

A plurality of sensor lines 102 are led out from the P-type terminal monitor control device 100, and an on/off sensor 24 and a transmitter 26 are connected. A plurality of control lines 104 are drawn out from the P-type terminal supervisory control device 100, and for example, a district audio device 28 is connected as a terminal device to each control line 104 unit.

As shown in FIG. 9, the P-type terminal monitoring and control apparatus 100 includes a terminal control unit 44, a communication unit 46, a signal transfer unit 48, a power supply unit 50, and a standby power supply unit 52. Although basically the same as the configuration, a plurality of line receivers 106 are provided corresponding to the plurality of sensor lines 102, and a plurality of line controllers 108 are provided corresponding to the plurality of control lines 104. ing.

The line receiving unit 106 detects a fire by any of the on/off sensors 24 connected to the sensor line 102 and issues an alarm, and the alarm current flows through the sensor line 102, so the alarm current is detected. Then, the terminal controller 44 is caused to output a fire signal.

When the terminal control unit 44 receives the fire signal from the line receiving unit 106, the terminal control unit 44 transmits the fire signal in which the line address (line number) is set to the server 42, and causes the server 42 to perform predetermined fire control processing.

Further, when the terminal control unit 44 receives from the server 42 a signal for local sound stop, interlocking control, recovery, etc., for which a line address is set, the line control unit 108 instructs the line control unit 108 corresponding to the line address. control such as sound stop, interlock, or recovery.

Other configurations and functions are basically the same as those of the R-type fire alarm system shown in FIGS.

The P-type fire alarm system also provides the same advantages as those shown for the R-type fire alarm system.

Also, for the P-type fire alarm system, server multiplexing and Internet connection between the terminal monitoring control device 10 and the receiver 12 using a wired LAN can be applied in the same manner as for the R-type fire alarm system.

[Modification of the present invention]
In the above-described embodiment, the terminal monitoring and control device is connected to sensor-based devices such as fire detectors and transmitters, and control-based devices such as district sound equipment and fire doors. It may be installed separately for the system and the control system.

Also, the configuration including the Internet, servers, and databases in the above embodiments may be cloud computing, which is a shared pool of configurable computing resources such as networks, servers, storage, applications, and services. and convenient, on-demand access.

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

10: Terminal monitoring control device 12: Receiver 14: Sub-display panel 16: Transmission line 18: Analog sensor 20: Repeater 22: Sensor line 24: ON/OFF sensor 26: Transmitter 28: District acoustic device 30: Fire prevention Door 32: Smoke prevention equipment 34, 36, 38: Gateway device 40: Internet 42: Server 44: Terminal control unit 46, 56, 72: Communication unit 48: Signal transfer unit 50, 64: Power supply unit 52, 66: Reserve Power supply unit 54: receiver control unit 58: alarm units 60, 74: display units 62, 76: operation unit 70: server control unit 78: databases 80, 82: standby server 84: LAN communication device 86: LAN lines 88, 90 : LAN communication unit 100: P-type terminal monitoring control device 102: sensor line 104: control line 106: line receiving unit 108: line control unit

Claims (1)

A terminal monitoring control device and a receiver are connected to a server via a network connecting a facility to be monitored and the outside of the facility to be monitored. send and receive signals over the network between
The terminal monitoring and control device is arranged by connecting a terminal device for each security zone of the facility to be monitored, and does not include an operation unit for performing operations corresponding to fire alarms and an alarm unit for outputting fire alarms,
The server is arranged outside the facility to be monitored, and does not include an operation unit that performs an operation corresponding to a fire alarm and an alarm unit that outputs a fire alarm,
The fire alarm system, wherein the receiver is arranged at the facility to be monitored, and comprises an operation unit for performing an operation corresponding to the fire alarm and an alarm unit for outputting the fire alarm.

Images