JP2020052656A - Disaster prevention system - Google Patents

Abstract

To provide a disaster prevention system for realizing early site checks in the event of a fire.SOLUTION: A fire receiver 22 transmits a forecast signal to a support server 31 when it is determined that the period in which the smoke density measured by a smoke detector exceeds 3%/m lasts for 5 seconds or more, and transmits a sensor transmission signal to the support server when it is determined that the period in which the smoke density measured by the smoke detector exceeds 10%/m lasts for 60 seconds or more. The support server notifies a mobile terminal 32 and a headquarters terminal 33 of a forecast when a forecast signal is received from the fire receiver, and notifies the mobile terminal and the headquarters terminal of a sensor alert when a sensor alert signal is received from the fire receiver.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a system for realizing early site confirmation when a fire occurs.

  2. Description of the Related Art Conventionally, there has been known a system for requesting a self-defense fire brigade member in a building to check a site when a fire occurs. For example, in the disaster prevention support system described in Patent Literature 1, the disaster prevention support server that has received the sensor alarm signal from the fire receiver transmits a message requesting site confirmation to a terminal carried by a self-defense firefighter.

JP 2018-106693 A

  However, heretofore, there has been a demand for an on-site confirmation earlier than the detector alert stage. The use of the disaster prevention support system has the advantage that the self-defense firefighter can rush early based on the detector alarm signal from the fire receiver and check the site, and the early firefighting and other activities to respond to fires are quicker, From the outbreak of the fire to the alarming stage, the fire will not function unless it grows.

  The present invention has been made in view of such circumstances, and has as its object to speed up on-site confirmation when a fire occurs.

  In order to solve the above problems, a disaster prevention system according to the present invention is a disaster prevention system including an automatic fire alarm, a terminal carried by disaster prevention personnel, and a support server for supporting activities of the disaster prevention personnel. When the physical quantity detected by the sensor exceeds a first threshold, or when the time when a predetermined physical quantity is detected by the sensor exceeds the first threshold, While transmitting an alarm signal to the support server, the physical quantity detected by the sensor exceeds a second threshold lower than the first threshold and is equal to or lower than the first threshold, or A signal transmitting unit that transmits a forecast signal to the support server when a time when the predetermined physical quantity is detected by the sensor exceeds the second threshold and is equal to or less than the first threshold. Sir Receiving the detector alarm signal from the automatic fire alarm system, notifies the terminal of the alarm alarm, while receiving the forecast signal from the automatic fire alarm system, notifies the terminal of the alarm. It is characterized by having a notifying means for performing.

  In a preferred aspect, the terminal includes a notifying unit for receiving the notification of the forecast, and allowing the disaster prevention staff to notify a predetermined reporting destination of a situation of an installation location of the sensor.

  ADVANTAGE OF THE INVENTION According to the disaster prevention system which concerns on this invention, the site confirmation at the time of a fire occurrence can be quickened. Furthermore, earlier confirmation of the site will result in quicker response to self-defense firefighting activities such as initial firefighting, as well as quicker notification to public firefighting, which will reduce fires to a small scale. In the case of a fire report, confirming a non-fire early can respond to the situation without ringing the bell on the area or sounding a fire alarm by emergency broadcast.

The block diagram which shows an example of a structure of the disaster prevention system 1. The block diagram which shows an example of a structure of the fire receiver 22. Sequence diagram showing an example of the operation of the disaster prevention system 1 Sequence diagram showing an example of the operation of the disaster prevention system 1A

1. Embodiment 1-1. Configuration A disaster prevention system 1 according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a configuration of the disaster prevention system 1. The disaster prevention system 1 shown in FIG. 1 includes an automatic fire alarm system 2 installed on a fire prevention target, and a disaster prevention support system 3 connected to the automatic fire alarm system 2.

  The automatic fire alarm system 2 includes a smoke detector 21 installed at each place of a fire prevention target, and a fire receiver 22 installed at a disaster prevention center and connected to the smoke detector 21 via a transmission line. The smoke detector 21 is an analog address sensor, measures the smoke density in the surroundings, and transmits an analog value indicating the measured smoke density to the fire receiver 22. The fire receiver 22 is an R-type analog fire receiver. FIG. 2 is a block diagram showing the configuration of the fire receiver 22. The fire receiver 22 shown in the figure includes a control unit 221 including an arithmetic processing unit such as a CPU and a volatile memory such as a RAM, a storage unit 222 which is a storage device such as a flash memory, a liquid crystal display, an organic EL display, and the like. A display unit 223, which is a display device, an operation input unit 224, which is an input device such as an operation button and a touch panel, a first communication unit 225, which is a communication interface for performing data communication with the smoke detector 21, A second communication unit 226, which is a communication interface for performing data communication with the system 3, is provided. When the control unit 221 of the fire receiver 22 executes the disaster prevention program stored in the storage unit 222, the functions of the mode setting unit 2211, the monitoring unit 2212, the alarm output unit 2213, and the signal transmission unit 2214 are realized.

  The mode setting unit 2211 stores, in the storage unit 222, setting information indicating whether the caution / accumulation mode is enabled or disabled. Here, the caution / accumulation mode is an operation mode for notifying the possibility of a fire at a stage earlier than the detector alert stage. The validity / invalidity of the caution / accumulation mode is set by switching on / off by the user.

  The monitoring unit 2212 periodically transmits and receives signals to and from each of the smoke detectors 21 using a polling / selecting method, and determines the occurrence of an event. When the above caution / accumulation mode is valid, the monitoring unit 2212 determines that the period in which the smoke density measured by the smoke detector 21 exceeds 3% / m is the period in which the accumulation time exceeds 5 seconds as the first threshold value It is determined whether or not to continue. If the result of this determination is affirmative, it is determined to be in the forecast stage. In addition, the monitoring unit 2212 determines whether or not the period in which the smoke density measured by the smoke detector 21 exceeds 10% / m continues as the second threshold value for a period exceeding the accumulation time of 60 seconds. If the result of this determination is affirmative, it is determined that the detector is in the alerting stage. In addition, the monitoring unit 2212 determines whether a certain period of time has elapsed after the alarm is issued, whether an alarm is generated for the plurality of smoke detectors 21, or whether a transmitter signal is received from a transmitter (not shown). Or, when a fire determination operation is performed in the fire receiver 22, it is determined that the fire has occurred. On the other hand, when the caution / accumulation mode is invalid, the monitoring unit 2212 does not make a determination in the prediction stage, but only makes a determination in the detector emission stage and the fire occurrence stage.

The warning output unit 2213 outputs a warning according to the event determined by the monitoring unit 2212. Specifically, the display unit 223 and a speaker (not shown) output a message for notifying the transition to the forecast stage, the sensor issuing stage or the fire occurrence stage, and the source of the fire.
In addition, in the alarm of the detector issuing stage and the fire occurrence stage, the main sound of the fire receiver 22 itself is performed, and at the same time, the local sound for generating a warning to the area of the disaster prevention target or the entire building (not shown) is performed. Also, the warning at the forecast stage does not perform the area sounding, and the main sounding may be a sounding of a caution sound enough to alert the inside of the disaster prevention center where the fire receiver 22 is installed.

  The signal transmission unit 2214 transmits a signal corresponding to the event determined by the monitoring unit 2212 to the disaster prevention support system 3. Specifically, it transmits to the disaster prevention support system 3 a signal notifying the transition to the forecast stage, the sensor issuing stage or the fire occurrence stage, and the source of the fire.

  Next, the disaster prevention support system 3 shown in FIG. 1 is a system for supporting self-defense firefighting activities. More specifically, it is a system for realizing early on-site confirmation when a fire occurs. This disaster prevention support system 3 includes a support server 31 for supporting self-defense firefighting activities, a portable terminal 32 carried by each member of the self-defense fire brigade, and a headquarters terminal 33 installed in a disaster prevention center. These devices are communicably connected by a communication line 34 such as the Internet or a wireless LAN.

  When receiving the event signal transmitted from the fire receiver 22, the support server 31 transmits information corresponding to the event that has occurred to each terminal by push notification or the like. At this time, the content of the information is determined by referring to a message table that associates the content of the event with the notification message, and the destination of the information is determined by referring to a destination table that associates the content of the event with the destination of the information. decide. Specifically, when receiving the forecast signal, the support server 31 transmits the forecast information requesting the confirmation of the site of the fire source to the portable terminal 32 and the headquarters terminal 33 of the member in charge of the floor at the fire source. Here, the portable terminal 32 of the member in charge of the floor of the fire origin is specified by referring to the self-defense fire brigade system information that records the unit, the group, and the floor in charge for each member. Upon receiving the detector alarm signal instead of the forecast signal, the support server 31 transmits the sensor alarm information requesting the confirmation of the site of the fire source to the portable terminal 32 and the headquarters terminal 33 of the member in charge of the floor of the fire source. Send to When a fire occurrence signal is received, fire occurrence information requesting the start of self-defense firefighting activities is transmitted to all portable terminals 32 and headquarters terminals 33.

  The mobile terminal 32 is, specifically, a mobile terminal such as a smartphone, a mobile phone, a tablet terminal, and a wearable terminal. The portable terminal 32 stores a disaster prevention support program in advance. This disaster prevention support program is a program that gives an event notification function and a communication function to the mobile terminal 32. Among these functions, the event notification function is a function of displaying event information received from the support server 31 on a display together with an alarm sound. On the other hand, the communication function is a function that enables transmission and reception of text messages and communication between the user of the portable terminal 32 and the user of the head office terminal 33. This communication function functions as a reporting means to the disaster prevention center.

  The head office terminal 33 is, specifically, a stationary PC. The headquarters terminal 33 stores a disaster prevention support program in advance. This disaster prevention support program is a program that provides the head office terminal 33 with an event notification function and a communication function. Among these functions, the event notification function is a function of displaying event information received from the support server 31 on a display. On the other hand, the communication function is a function that enables transmission and reception of text messages and communication between the user of the head office terminal 33 and the user of the mobile terminal 32. It should be noted that center personnel located at the disaster prevention center may also carry the portable terminal 32.

1-2. Operation Next, the operation of the disaster prevention system 1 in the event of a fire will be described with reference to the sequence diagram shown in FIG. Attention / Each case where the accumulation mode is valid and when it is invalid will be described.

1-2-1. When the storage mode is enabled, the monitoring unit 2212 of the fire receiver 22 periodically transmits and receives signals to and from the smoke detector 21 in a polling / selecting manner, and the smoke density measured by the smoke detector 21 is 3 It is determined whether or not the period exceeding% / m continues for a period exceeding the accumulation time of 5 seconds. If the result of this determination is affirmative, it is determined to be in the forecast stage (step Sa1). If it is determined to be the forecast stage, the alarm output unit 2213 of the fire receiver 22 displays a message notifying the transition to the forecast stage and the source of the fire on the display unit 223, and outputs a caution sound from the speaker (step Sa2). ). As a result, the center personnel of the disaster prevention center can know that the process has shifted to the forecast stage. Further, the signal transmission unit 2214 of the fire receiver 22 transmits to the support server 31 a signal notifying the transition to the prediction stage and the source of the fire (Step Sa3). At this stage, the control of the area sounding in the fire prevention target is not performed.

  When the support server 31 receives the forecast signal from the fire receiver 22, the support server 31 sends the forecast information requesting the site check of the fire source to the portable terminal 32 and the headquarters terminal 33 of the member in charge of the floor of the fire source by push notification or the like. It transmits (step Sa4).

  Upon receiving the forecast information from the support server 31, the portable terminal 32 starts the disaster prevention support program if it has not been started, and displays the forecast information together with an alarm sound on a display depending on the model (step Sa5). . As a result, the user of the portable terminal 32 can know that the process has shifted to the forecast stage, and can proceed to the site confirmation. When the occurrence or non-occurrence of a fire is confirmed as a result of the on-site confirmation, the confirmation result can be notified to the user of the head office terminal 33 using the portable terminal 32. The user of the headquarters terminal 33 that has received the notification of the confirmation result performs a fire confirming operation on the fire receiver 22 when receiving the notification of the fire occurrence, and Perform a non-fire operation on the fire receiver 22. If a non-fire operation is performed at this stage, the district sound is not sounded to the floor immediately above the fire floor. Further, the user of the headquarters terminal 33, which has been notified of the occurrence of the fire, operates the headquarters terminal 33 to notify the mobile terminal 32 of the member in charge of the floor of the fire source of the transition to the normal mode.

  In addition, the method of the user of the portable terminal 32 notifying the confirmation result to the disaster prevention center is not limited to the method using the portable terminal 32, but may use an emergency telephone or operate the transmitter. When the support server 31 receives the notification of the occurrence of a fire or a non-fire from the mobile terminal 32, the support server 31 transmits a control signal for inputting a fire determination or non-fire to the fire receiver 22 to receive the fire. The machine 22 may be controlled.

Upon receiving the forecast information from the support server 31, the headquarters terminal 33 displays the forecast information on a display (step Sa6). As a result, the user of the headquarters terminal 33 can know that the process has shifted to the forecast stage, and can proceed to the site check if the fire source is close to the disaster prevention center.
In this forecast stage, site confirmation can be performed, and the user of the portable terminal 32 or the staff of the disaster prevention center notifies the fire to the public fire department, so that in the event of a fire, the time until the public fire rushes can be shortened. Firefighting and rescue activities for public firefighting will be started while the scale of the fire is small, and the damage caused by the fire will be reduced.

  After transmitting the forecast signal, the monitoring unit 2212 of the fire receiver 22 determines whether or not the period in which the smoke density measured by the smoke detector 21 exceeds 10% / m continues for more than 60 seconds. If the result of this determination is affirmative, it is determined that the detector is in the alerting stage (step Sa7). If it is determined that the detector is in the alerting stage, the alarm output unit 2213 of the fire receiver 22 displays a message notifying the transition to the alerting stage and the fire source on the display unit 223, and outputs the main sound and the speaker. (Step Sa8). At the same time, control the sound of the district sound to the floor immediately above the fire floor. As a result, the center personnel of the disaster prevention center can know that the process has shifted to the detector alerting stage. Further, the signal transmission unit 2214 of the fire receiver 22 transmits to the support server 31 a signal notifying the transition to the detector alert stage and the source of the fire (step Sa9).

  When the support server 31 receives the sensor alarm signal from the fire receiver 22, the sensor alarm information for requesting the site confirmation of the fire source is transmitted to the mobile terminal 32 and the head office terminal 33 of the member in charge of the floor at the fire source. (Step Sa10).

  Upon receiving the sensor alert information from the support server 31, the mobile terminal 32 displays the received information on a display together with an alarm sound depending on the model (step Sa11). As a result, the user of the portable terminal 32 can know that the process has shifted to the detector alerting stage.

  Upon receiving the sensor alert information from the support server 31, the head office terminal 33 displays the received information on a display (step Sa12). As a result, the user of the headquarters terminal 33 can know that the process has shifted to the detector alerting stage.

  A certain period of time elapses after the alarm is issued, a detector alarm is generated for another smoke detector 21, a transmitter signal is received from the transmitter, or a fire determination operation is performed at the fire receiver 22. Is performed, the monitoring unit 2212 of the fire receiver 22 determines that the fire has occurred (Step Sa13). When it is determined that the fire has occurred, the alarm output unit 2213 of the fire receiver 22 displays a message notifying the transition to the fire occurrence stage and the source of the fire on the display unit 223, and outputs the main sound from the speaker ( Step Sa14). At the same time, control the sounding of the district sound for fire alarms throughout the building. As a result, the center personnel of the disaster prevention center can know that the process has shifted to the fire occurrence stage. Further, the signal transmission unit 2214 of the fire receiver 22 transmits a signal notifying the transition to the fire occurrence stage and the source of the fire to the support server 31 (Step Sa15). Note that the transition from the detector alarm stage to the fire occurrence stage and the transition from the district sound on the floor immediately above the fire floor to the whole building ringing may be controlled with different time settings. The transition from the district sound immediately above the fire floor to the ringing of the whole building may be performed only after a certain time has elapsed.

  When receiving the fire occurrence signal from the fire receiver 22, the support server 31 transmits the fire occurrence information requesting the start of the self-defense firefighting activity to all the portable terminals 32 and the headquarters terminal 33 by push notification or the like (step Sa16). ).

  Upon receiving the fire occurrence information from the support server 31, the mobile terminal 32 displays the received information on a display together with an alarm sound depending on the model (Step Sa17). As a result, the user of the portable terminal 32 can be informed that the stage has shifted to the fire occurrence stage, and can start self-defense firefighting activities.

Upon receiving the fire occurrence information from the support server 31, the headquarters terminal 33 displays the received information on a display (step Sa18). As a result, the user of the headquarters terminal 33 can know that it has shifted to the fire occurrence stage.
The above is the description of the operation of the disaster prevention system 1 when the caution / accumulation mode is valid.

  According to the above-described operation, the on-site confirmation can be performed at an earlier stage than the alerting of the detector, so that the early fire extinguishing activity and the notification to the public fire brigade can be performed earlier. As a result of the initial fire fighting activities, if the fire is successfully extinguished, there is no need to broadcast a fire to the general occupants or evacuate the general occupants.

1-2-2. When the caution / accumulation mode is invalid When the caution / accumulation mode is invalid, the monitoring unit 2212 of the fire receiver 22 does not judge the forecasting stage, but only judges the detector issuing stage and the fire occurrence stage. Therefore, when the caution / accumulation mode is invalid, the execution of steps Sa1 to Sa6 in the sequence diagram shown in FIG. 3 is omitted.

2. Modifications The above embodiment may be modified as follows. The following modifications may be combined with each other.

2-1. Modification 1
Instead of the analog smoke detector 21 and the R-type fire receiver 22, a non-analog smoke detector 21A and a P-type fire receiver 22A may be used. Here, the non-analog smoke detector 21A is a smoke detector that outputs a fire detection signal to the fire receiver 22A when detecting that the surrounding smoke density exceeds 10% / m. On the other hand, the fire receiver 22A is different from the fire receiver 22 and has a function of the monitoring unit 2212A. Upon receiving the fire detection signal from the smoke detector 21A, the monitoring unit 2212A determines, as the first threshold value, the prediction stage after the elapse of the accumulation time of 5 seconds. At the same time, the smoke detector 21A is restored, and when the fire detection signal is received again within the accumulation time of 60 seconds as a second threshold value from the reception of the previous fire detection signal, it is determined that the detector is in the alarming stage. The method of determining the fire occurrence stage is the same as that of the monitoring unit 2212. Hereinafter, the operation of the disaster prevention system 1A when the smoke detector 21A and the fire receiver 22A are used will be described with reference to the sequence diagram shown in FIG. First, the case where the caution / accumulation mode is valid will be described.

  Upon receiving the fire detection signal from the smoke detector 21A, the monitoring unit 2212A of the fire receiver 22A determines the prediction stage after the elapse of the accumulation time of 5 seconds (Step Sb1). At the same time, the smoke detector 21A is restored (step Sb2). If it is determined to be the forecast stage, the alarm output unit 2213 of the fire receiver 22A displays a message notifying the transition to the forecast stage and the source of the fire on the display unit 223, and outputs a caution sound from the speaker (step Sb3). ). In addition, the signal transmission unit 2214 of the fire receiver 22A transmits to the support server 31 a signal notifying the transition to the prediction stage and the source of the fire (Step Sa4). At this stage, the control of the area sounding in the fire prevention target is not performed.

  When the support server 31 receives the forecast signal from the fire receiver 22A, the support server 31 sends the forecast information requesting the site confirmation of the fire source to the portable terminal 32 and the headquarters terminal 33 of the member in charge of the floor of the fire source by push notification or the like. It transmits (step Sb5).

  Upon receiving the forecast information from the support server 31, the mobile terminal 32 starts the disaster prevention support program if it has not been started, and displays the forecast information together with an alarm sound on a display depending on the model (step Sb6). .

  Upon receiving the forecast information from the support server 31, the headquarters terminal 33 displays the forecast information on a display (step Sb7).

  After transmitting the forecast signal, when the monitoring unit 2212A of the fire receiver 22A receives the fire detection signal again within 60 seconds from the reception of the previous fire detection signal, the monitoring unit 2212A determines that the detector is in the warning stage (step Sb8). If it is determined that the detector is in the alerting stage, the alarm output unit 2213 of the fire receiver 22A displays a message notifying the transition to the detector alerting stage and the source of the fire on the display unit 223, and outputs the main sound and a speaker. (Step Sb9). At the same time, control the sound of the district sound to the floor immediately above the fire floor. In addition, the signal transmission unit 2214 of the fire receiver 22A transmits to the support server 31 a signal notifying the transition to the detector alert stage and the source of the fire (Step Sb10).

  When the support server 31 receives the detector alarm signal from the fire receiver 22A, the support server 31 transmits the sensor alarm information requesting confirmation of the site of the fire source to the portable terminal 32 and the headquarters terminal 33 of the member in charge of the floor of the fire source. (Step Sb11).

  When the mobile terminal 32 receives the sensor alert information from the support server 31, depending on the model, the mobile terminal 32 displays the received information together with an alarm sound on a display (step Sb12).

  Upon receiving the sensor alert information from the support server 31, the headquarters terminal 33 displays the received information on a display (step Sb13).

  A certain period of time elapses after the alarm is issued, a detector alarm is generated for another smoke detector 21A, a transmitter signal is received from the transmitter, or a fire confirmation operation is performed at the fire receiver 22A. Is performed, the monitoring unit 2212A of the fire receiver 22A determines that a fire has occurred (step Sb14). When it is determined that the fire has occurred, the alarm output unit 2213 of the fire receiver 22A displays a message notifying the transition to the fire occurrence stage and the source of the fire on the display unit 223, and outputs the main sound from the speaker ( Step Sb15). At the same time, control the sounding of the district sound for fire alarms throughout the building. In addition, the signal transmission unit 2214 of the fire receiver 22A transmits a signal notifying the transition to the fire occurrence stage and the source of the fire to the support server 31 (Step Sb16).

  When receiving the fire occurrence signal from the fire receiver 22A, the support server 31 transmits the fire occurrence information requesting the start of the self-defense firefighting activity to all the mobile terminals 32 and the headquarters terminal 33 by push notification or the like (step Sb17). ).

  Upon receiving the fire occurrence information from the support server 31, the mobile terminal 32 displays the received information on a display together with an alarm sound depending on the model (step Sb18).

Upon receiving the fire occurrence information from the support server 31, the headquarters terminal 33 displays the received information on a display (step Sb19).
The above is the description of the operation of the disaster prevention system 1A when the caution / accumulation mode is valid.

  According to the above-described operation, the on-site confirmation can be performed at an earlier stage than the alerting of the detector, so that the early fire extinguishing activity and the notification to the public fire brigade can be performed earlier.

  Next, regarding the operation when the caution / accumulation mode is invalid, in this case, the monitoring unit 2212A of the fire receiver 22A does not perform the determination of the forecasting stage, and determines the detector alerting stage and the fire occurrence stage. Do only. Therefore, when the caution / accumulation mode is invalid, the execution of steps Sb1, Sb3 to Sb7 in the sequence diagram shown in FIG. 4 is omitted.

2-2. Modification 2
In using the P-type fire receiver as in the first modification, a two-signal smoke detector 21B may be used. Here, the two-signal type smoke detector 21B outputs a fire detection signal via the first signal line when detecting that the surrounding smoke concentration exceeds 3% / m as the first threshold value. The smoke detector outputs a fire detection signal via the second signal line when detecting that the surrounding smoke density exceeds 10% / m as the second threshold value. When using this smoke detector 21B, the smoke detector is connected to the fire receiver 22B via two signal lines. Unlike the fire receiver 22, the fire receiver 22B has a function of a monitoring unit 2212B. When the monitoring unit 2212B receives the fire detection signal from the smoke detector 21B via the first signal line, the monitoring unit 2212B determines that it is a forecasting stage, and receives the fire detection signal from the smoke detector 21B via the second signal line. It is determined that the detector is in the warning stage. The method of determining the fire occurrence stage is the same as that of the monitoring unit 2212.

2-3. Modification 3
In the second modification, the smoke detector 21B may have a storage function. Specifically, the smoke detector 21B detects a fire detection signal via the first signal line when detecting that the period in which the surrounding smoke density exceeds 3% / m has continued for a period exceeding the accumulation time of 5 seconds. Output a fire detection signal via the second signal line when detecting that the period in which the surrounding smoke concentration exceeds 10% / m has continued for a period exceeding the accumulation time of 60 seconds. You may.

2-4. Modification 4
The destination of the event information transmitted by the support server 31 may be arbitrarily set by updating the destination table.

2-5. Modification 5
The criterion of the forecast stage and the sensor issuing stage is not limited to the above embodiment and the modified example. The threshold values of the smoke density and the accumulation time serving as the determination criteria may be appropriately set according to the installation status of the smoke detector 21. However, the threshold value in the forecast stage is smaller than the threshold value in the detector issuing stage.

2-6. Modification 6
The fire receiver 22 may not have the storage function. Specifically, when the monitoring unit 2212 of the fire receiver 22 determines that the smoke density measured by the smoke detector 21 exceeds 3% / m, the monitoring unit 2212 may immediately determine the prediction stage. When it is determined that the smoke density measured by the smoke detector 21 exceeds 10% / m, it may be immediately determined that the detector is in the alerting stage.

2-7. Modification 7
Instead of the smoke detector 21, another type of detector may be used. For example, a differential spot type (one type) sensor may be used as the heat sensor. In this case, when the monitoring unit 2212 of the fire receiver 22 determines that the temperature rise rate measured by the heat sensor exceeds 5 degrees / minute as the first threshold, the monitoring unit 2212 determines that the prediction is in the prediction stage, and If it is determined that the temperature rise rate measured by the above exceeds 10 degrees / minute as the second threshold value, it may be determined that the sensor is in the alerting stage. As another example, an infrared flame detector may be used as the flame detector. In that case, when the monitoring unit 2212 of the fire receiver 22 determines that the amount of infrared light measured by the flame detector is an amount of infrared light capable of detecting a flame having a height of 0.5 m at a distance of 20 m, When it is determined that it is the forecasting stage and the amount of infrared rays measured by the flame detector is such that it can detect a flame having a height of 1 m at a distance of 20 m, it is determined that the detector is in the emitting stage. It may be.

1, 1A: Disaster prevention system, 2: Automatic fire alarm system, 3: Disaster prevention support system, 21, 21A, 21B: Smoke detector, 22, 22A, 22B: Fire receiver, 31: Support server, 32: Portable terminal, 33 head office terminal, 34 communication line, 221 control unit, 222 storage unit, 223 display unit, 224 operation input unit, 225 first communication unit, 226 second communication unit, 2211 mode setting unit , 2212, 2212A, 2212B ... monitoring unit, 2213 ... alarm output unit, 2214 ... signal transmission unit

Claims (2)

An automatic fire alarm system, a terminal carried by disaster prevention personnel, and a disaster prevention system including a support server for supporting the activities of the disaster prevention personnel,
When the physical quantity detected by the sensor exceeds a first threshold, or when the time during which a predetermined physical quantity is detected by the sensor exceeds the first threshold, the automatic fire alarm is issued. Sending a signal to the support server while the physical quantity detected by the sensor is above a second threshold lower than the first threshold and below the first threshold, or Signal transmission means for transmitting a forecast signal to the support server when the time at which the predetermined physical quantity is detected by the device exceeds the second threshold value and is equal to or less than the first threshold value,
The support server, when receiving the sensor alarm signal from the automatic fire alarm equipment, notifies the terminal of a sensor alarm, while receiving the forecast signal from the automatic fire alarm equipment, A disaster prevention system comprising a notification unit for notifying a terminal.   The terminal according to claim 1, further comprising: a notification unit configured to, upon receiving the notification of the forecast, notify the disaster prevention personnel of a status of an installation location of the sensor to a predetermined notification destination. Disaster prevention system.

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