JP3871919B2 - Fire monitoring device, return processing release device, portable terminal device, and fire alarm system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fire monitoring device having a storage function for preventing non-fire information, a return processing cancellation device provided in the fire monitoring device, a portable terminal device, and a fire notification system including the fire monitoring device.
[0002]
[Prior art]
In recent years, a fire receiver that performs overall control of a fire alarm facility has been provided with a storage function for preventing non-fire alarms. Hereinafter, the operation by the accumulation function will be described.
In a fire receiver having a storage function, when a first activation signal is received from an activated sensor, the accumulation circuit is activated, and after a predetermined time, the sensor that has transmitted the activation signal (that is, the sensor is Send a recovery pulse to the connected line. The sensor that has received the recovery pulse returns from the operating state to the normal fire monitoring state.
[0003]
If the fire receiver receives the activation signal from the sensor again within the specified accumulation time after the first activation signal is received by the fire receiver, it is determined that a fire has actually occurred and the fire Fire treatment such as turning on the lights and ringing the district sound is performed.
On the other hand, if the fire receiver does not receive an activation signal from the sensor within the above accumulation time, it is determined that the first activation signal is a non-fire report, and the fire receiver performs the above-described fire processing. It returns to a normal monitoring state without performing.
[0004]
[Problems to be solved by the invention]
By the way, if there is a detector that frequently issues non-fire information in the fire alarm system provided with the above-mentioned fire receiver, the above accumulation processing will be performed frequently. There was a request to check the frequently used sensors to eliminate non-fire reports.
[0005]
Here, in general, the sensor lights the indicator lamp in the operating state and turns off the indicator lamp in the normal fire monitoring state, so that the operating state and the fire monitoring state can be distinguished. For this reason, the sensor that issued the non-fire report is in an operational state immediately after sending the first activation signal, so the indicator lamp is turned on and after receiving a recovery pulse from the fire receiver, Return to and turn off the indicator light.
[0006]
Based on the above, when the fire alarm system administrator checks the site after confirming that the first activation signal has been received from the non-fire alarm detector, the sensor that issued the non-fire alarm is detected. The instrument has already returned to the fire monitoring state and the indicator light has been turned off. Therefore, unless there is an obvious non-fire report cause, it is not possible to distinguish between a sensor that issued a non-fire report and another sensor that did not issue a non-fire report, and which sensor issued a non-fire report. There was a problem that it was not possible to identify whether or not.
An object of the present invention is to make it possible to identify a fire detector that issues a non-fire report.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems, the invention described in claim 1 is, for example, as shown in FIGS.
  Connected to multiple fire detectors (sensor 4),
  A return process (step S7) for returning the fire detector from the operating state to the fire monitoring state after a predetermined time from receiving the first operation signal from the fire detector in the operating state;
  After this return processing, the accumulated fire processing (steps S11 and S12) for generating a fire when the operation signal is received again from the fire detector within a predetermined accumulation time after receiving the first operation signal. A fire monitoring device (fire receiver 2) to perform,
  A return process canceling means (site confirmation switch of the operation unit 25, CPU 21) that can be set not to perform the return process is provided.,
Connected to multiple fire detectors via at least one line (L),
When the first activation signal is received from the fire detector a plurality of times via the same line, the activated fire sensor connected via the same line is returned to the fire monitoring state by the return process. Later, when the operation signal is not received from the fire detector again within a predetermined accumulation time, when the predetermined number of times has occurred within the predetermined period, the return processing release means (CPU 21) is connected via the same line. Set automatically for fire detectorsIt is characterized by that.
[0008]
Here, as the fire monitoring device, specifically, for example, in a fire receiver (2) that performs fire monitoring of the entire fireproof object such as a building, a so-called R-type system, etc., a predetermined in the fireproof object. Examples include a repeater that is connected to a plurality of fire detectors installed in the area and transmits / receives signals to / from these fire detectors.
Further, the return process canceling means is, for example, a device that is set so as not to perform the return process by manual operation (like the invention described in claim 2 described later) (on-site confirmation switch of the operation unit 25). Alternatively, as in the invention described in claim 5 to be described later, it may be one that is automatically set so as not to perform the return process (CPU 21). The means for canceling the process is not particularly limited.
[0009]
  According to the first aspect of the present invention, the fire monitoring device includes the return process canceling unit. Therefore, when the reset process canceling unit is set so as not to perform the reset process, the fire monitoring device first detects from the fire detector in the operating state. When the activation signal is received, the fire detector does not return to the fire monitoring state after a predetermined time and remains in the activated state.
  Therefore, after the first activation signal is received from the fire detector that issues a non-fire report by setting the recovery process release means not to perform the recovery process, Can be left. As a result, the fire detector that issues the non-fire report can be distinguished from the fire sensor in the fire monitoring state that does not issue the non-fire report, and thus the fire detector that issues the non-fire report can be identified.
Here, when the fire monitoring device receives the first activation signal from the fire detector multiple times through the same line, the fire monitor of the activated fire sensor connected through the same line by the recovery process is monitored. If the operation signal is not received again from the fire detector within the predetermined accumulation time after returning to the state, if the predetermined number of times occurs within the predetermined period, the fire detector connected to the same line is frequently It is thought that a non-fire report was issued.
According to the first aspect of the present invention, the return process canceling means automatically detects the fire detector connected via the same line, the fire monitoring device receiving the first activation signal a plurality of times. Therefore, the return process is not performed for the fire detector connected through the same line. Thus, fire detectors that are believed to issue non-fire reports frequently will be automatically left in operation.
Therefore, even if a user of a fire monitoring device (for example, a manager of a fire alarm system provided with a fire monitoring device) does not notice that a fire detector frequently issues a non-fire report, Fire detectors that appear to be reporting frequently can be reliably left in operation.
[0010]
  In order to solve the above problems, the invention described in claim 2 is, for example, as shown in FIG. 1 and FIG.
Connected to multiple fire detectors (sensor 4),
A return process (step S7) for returning the fire detector from the operating state to the fire monitoring state after a predetermined time from receiving the first operation signal from the fire detector in the operating state;
After this return processing, the accumulated fire processing (steps S11 and S12) for generating a fire when the operation signal is received again from the fire detector within a predetermined accumulation time after receiving the first operation signal. A fire monitoring device (fire receiver 2) to perform,
In order not to perform the return process, it is provided with a return process release means (on-site confirmation switch of the operation unit 25) that can be set by manual operation.
Connected to multiple fire detectors via at least one line (L),
The return processing release means fires the fire detector in the operating state connected through the same line by the return process when the first activation signal is received a plurality of times from the fire detector via the same line. After returning to the monitoring state, if the operation signal is not received again from the fire detector within a predetermined accumulation time, it occurs more than a predetermined number of times within a predetermined period, and when the manual operation is not performed, the same line is used. It is set automatically for fire detectors connected to each other.
According to the second aspect of the present invention, even when the return process release means (site confirmation switch) is not manually operated, the return process release means (CPU 21) indicates that the fire monitoring device outputs the first activation signal. It is automatically set for the fire detector connected through the same line that has been received multiple times. Therefore, the return process is not performed for the fire detector connected through the same line.
Therefore, even if the user of the fire monitoring device forgets to manually operate the return process release means or fails to manually operate the return process release means, fire detection is considered to be frequently issued non-fire reports. The fire detector (fire detector connected via the same line) can be reliably left in operation.
[0019]
  Claim3The invention described in claim 1Or 2In the fire monitoring device described in
  The return processing release means is detachably provided.
  Claim3According to the described invention, the return process release means is detachably provided, so that the return process release means can be attached and detached as necessary.
[0020]
  Claim4The invention described in claim 1~ 3In the fire monitoring device according to any one of
  A portable terminal device (remote control unit 30) that can be remotely operated to perform at least one of a fire process (steps S24 and S12) for generating a fire and an initialization process (step S10) for returning to a normal fire monitoring state. It is characterized by providing.
[0021]
  Claim4According to the described invention, since the fire monitoring device includes the portable terminal device, the fire monitoring device can be remotely operated using the portable terminal device. In particular, the user of the fire monitoring device is set not to perform the recovery process by the recovery process release means, and the fire detector that issues a non-fire report is set to the operating state, and this fire sensor is to be checked on site. It is effective when going.
  In other words, if a fire has actually occurred when a fire detector that issues a non-fire report is checked at the site, the fire monitoring device can be remotely operated using a mobile terminal device to handle the fire. Can be done instantly. In addition, when it is confirmed that the report is non-fire information, initialization processing can be performed using the portable terminal device, and the fire monitoring device can be immediately returned to the fire monitoring state.
[0022]
  Claim5The described invention is claimed.4In the fire monitoring device described,
  The portable terminal device includes a display unit (display unit 32) for displaying the fire monitoring status.
  Claim5According to the described invention, since the portable terminal device includes the display unit, the display of the portable terminal device can be performed even when the user of the fire monitoring device goes to the site to check the fire detector that issues a non-fire report. You can confirm the means and know the fire monitoring status by the fire monitoring device.
[0023]
  Claim6The invention described in claims 1 to5In the fire monitoring device according to any one of
  After the restoration process canceling means is set not to perform the restoration process, the district sound of the district where the fire detector that has transmitted the first activation signal is provided is prevented from ringing for a predetermined time. .
[0024]
  Claim6According to the described invention, when it is set not to perform the restoration process by the restoration process canceling means, the district sound of the district where the fire detector that transmitted the first activation signal is provided does not ring for a predetermined time. Become.
  Therefore, when the fire detector that issues a non-fire report is set to be in the active state by setting so that the return process is not performed by the return process canceling means, the on-site confirmation of the district where the fire sensor is installed is It can be performed reliably and promptly without being confused by the ringing.
[0025]
  Claim7The invention described in claims 1 to6In the fire monitoring device according to any one of
  The return process canceling means notifies that the fire detector that has transmitted the first activation signal is confirmed after setting so as not to perform the return process.
  Here, as the notification of “confirming the fire detector that transmitted the first activation signal”, specifically, for example, a display or alarm informing that the fire detector is being confirmed, the fire, There are indications and alarms that prompt you to check the sensor.
[0026]
  Claim7According to the described invention, when the return process canceling unit is set so as not to perform the return process, it is notified that the fire detector that transmitted the first activation signal is confirmed.
  Therefore, even if the return process canceling unit is automatically set not to perform the return process, or when it is mistakenly set not to perform the return process, the return process is not performed. It is possible to reliably notify the user of the fire monitoring device that the fire detector that has been left in the activated state by being set to be confirmed.
[0027]
  Claim8The described invention is connected to a plurality of fire detectors, and after a predetermined time after receiving the first activation signal from the activated fire detector, the fire detector is returned from the activated state to the fire monitoring state. Fire monitoring that performs processing and accumulated fire processing that fires when an operation signal is received from the fire detector again within a predetermined accumulation time after receiving the first activation signal after the return processing. The device is detachably provided,
  The return process can be set not to be performed by the fire monitoring device.The
Connected to multiple fire detectors via at least one line,
When the first activation signal is received from the fire detector multiple times via the same line, the fire detector in the activated state connected via the same line is restored to the fire monitoring state by the restoration process. Later, when the activation signal is not received again from the fire detector within a predetermined accumulation time, if it occurs more than a predetermined number of times within a predetermined period, the fire detector connected via the same line is automatically SetThis is a return processing cancellation device.
[0028]
  Claim8According to the described invention, since the return processing release device can be set so that the fire monitoring device does not perform the return processing, if the fire monitoring device is set not to perform the return processing by the return processing release device, When the first activation signal is received from the fire detector in the activated state, the fire sensor remains in the activated state without returning to the fire monitoring state after a predetermined time.
  Therefore, after the first activation signal is received from the fire detector that issues a non-fire report, the recovery process canceling device is set so that the recovery process is not performed, and then the fire sensor that issues this non-fire report is activated. Can be left. As a result, the fire detector that issues the non-fire report can be distinguished from the fire detector in the fire monitoring state that does not issue the non-fire report, and thus the fire detector that issues the non-fire report can be identified.
[0029]
  Further, since the return process release device is detachably provided to the fire monitoring device, even if it is a fire monitoring device that does not have a function that can be set not to perform the return processing in advance,8It is possible to provide a fire monitoring device that can be set so as not to perform the return process only by mounting the described return process release device.
Here, when the fire monitoring device receives the first activation signal from the fire detector multiple times through the same line, the fire monitor of the activated fire sensor connected through the same line by the recovery process is monitored. If the operation signal is not received again from the fire detector within the predetermined accumulation time after returning to the state, if the predetermined number of times occurs within the predetermined period, the fire detector connected to the same line is frequently It is thought that a non-fire report was issued.
According to the eighth aspect of the present invention, the return processing canceling means automatically detects the fire detector connected via the same line, the fire monitoring device receiving the first activation signal a plurality of times. Therefore, the return process is not performed for the fire detector connected through the same line. Thus, fire detectors that are believed to issue non-fire reports frequently will be automatically left in operation.
Therefore, even if a user of a fire monitoring device (for example, a manager of a fire alarm system provided with a fire monitoring device) does not notice that a fire detector frequently issues a non-fire report, Fire detectors that appear to be reporting frequently can be reliably left in operation.
[0030]
The invention according to claim 9 is connected to a plurality of fire detectors, and after a first operation signal is received from the fire detectors in the activated state, the fire detector is changed from the activated state to the fire monitoring state after a predetermined time. A return process for returning, and a stored fire process for generating a fire when an operation signal is received again from the fire detector within a predetermined storage time after receiving the first operation signal after the return process. The fire monitoring device to be installed is detachable,
The return processing can be set by manual operation so that the fire monitoring device does not perform,
Connected to multiple fire detectors via at least one line,
The return processing release means fires the fire detector in the operating state connected through the same line by the return process when the first activation signal is received a plurality of times from the fire detector via the same line. After returning to the monitoring state, if the operation signal is not received again from the fire detector within a predetermined accumulation time, it occurs more than a predetermined number of times within a predetermined period, and when the manual operation is not performed, the same line is used. This is a return processing canceling device that is automatically set for a fire detector connected in the same manner.
According to the ninth aspect of the invention, the same effect as that of the second aspect of the invention can be obtained.
  Claim10The described invention performs at least one of a fire process for generating a fire and an initialization process for returning to a normal fire monitoring state.7A portable terminal device capable of remotely operating the fire monitoring device according to any one of the above.
  Claim10According to the described invention, the claims4Effects similar to those of the described invention can be obtained.
[0031]
  Claim11The described invention is claimed.10In the mobile terminal device described,
  A display means for displaying a fire monitoring status by the fire monitoring device is provided.
  Claim11According to the described invention, the claims5Effects similar to those of the described invention can be obtained.
[0032]
  Claim12The invention described in claims 1 to7A fire monitoring device according to any one of
  A fire alarm system (fire alarm facility 1) comprising a plurality of fire detectors connected to the fire monitoring device.
  Claim12According to the described invention,7The same effects as those of any of the inventions described above can be obtained.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
The fire alarm system, which is an embodiment of the fire alarm system of the present invention, is installed in, for example, a building that is a fire prevention object, and performs fire monitoring of the entire building, fire alarm, and the like. As shown in FIG. 1, a fire alarm facility 1 includes a fire receiver 2 which is an embodiment of the fire monitoring device of the present invention, and a sensor provided for each district where fire monitoring is performed in a building. (Fire detector) 4 and various terminal devices such as a district sound (so-called district bell), a transmitter, and a smoke prevention device (not shown).
[0034]
Terminal devices such as the sensor 4 and the district sound are connected to the fire receiver 2 via the line L. In addition, a plurality of terminal devices in the same area are connected to one line L. In FIG. 1, for convenience, four sensors 4 and two lines L are shown, but the number of sensors 4 and the number of lines L are not particularly limited to this.
[0035]
The fire receiver 2 is installed, for example, in an administrator room of a building and controls and controls the entire fire alarm facility 1 and is called a so-called P-type receiver.
The fire receiver 2 includes a CPU (Central Processing Unit) 21, a storage unit 22, a sound output unit 23, a transmission control unit 24, an operation unit 25, a display unit 26, an interface (hereinafter referred to as I / F) provided in the main body unit 20. 27), a timer circuit 28, and a portable remote control unit 30 which is a wireless device.
[0036]
The storage unit 22 includes, for example, a RAM (Random Access Memory), a ROM (Read Only Memory), and the like, and stores various control programs, control data, and the like for operating the fire receiver 2, and the CPU 21. Stores data temporarily when executing various processes. Specifically, as the control data, for example, the line L connected to the terminal device such as the sensor 4 and the district sound, and the district where the terminal device connected to the line L is provided. For example, table data indicating the correspondence relationship.
[0037]
The CPU 21 controls each process / operation of the fire receiver 2 according to a control program and control data stored in the storage unit 22 while using the storage unit 22 as a work area.
Specifically, based on the control of the CPU 21, the fire receiver 2 monitors the operating status of the sensor 4 and the transmitter in the fire alarm facility 1. In addition, when the fire receiver 2 detects that a fire has occurred in the building by fire monitoring, the fire receiver 2 transfers / transfers to the other monitoring device (not shown) that the fire has occurred based on the control of the CPU 21. Process to report.
[0038]
In addition, the fire receiver 2 has a storage function for preventing non-fire information in the same manner as the conventional fire receiver described above. Specifically, the fire receiver 2 senses the operation state under the control of the CPU 21. A predetermined time after receiving the first activation signal from the detector 4, a recovery pulse is transmitted to the sensor 4 (that is, the line L to which the sensor 4 is connected), and the sensor 4 is moved from the operating state. Return processing for returning to the fire monitoring state (step S7 shown in FIG. 2);
After this return processing, when the first activation signal is received and the activation signal is received again from the sensor 4 (that is, the line L to which the sensor 4 is connected) within a predetermined accumulation time, a fire is generated. Accumulated fire processing (steps S11 and S12) is performed.
[0039]
The display unit 26 is for displaying the current fire monitoring / notification status of the fire alarm facility 1. Specifically, the display unit 26 is notified of a fire light that informs that a fire has occurred, a plurality of district lights that are provided corresponding to each district of the building, and being accumulated (during accumulation time). An accumulation confirmation light is provided.
Here, when the fire receiver 2 is receiving an operation signal indicating that a fire has been detected from the sensor 4, the district lamp corresponding to the district where the sensor 4 is provided is turned on. Yes.
[0040]
The operation unit 25 includes various switches for the user of the fire receiver 2 to instruct various operations in the fire alarm facility 1 and restoration of the terminal device. When the operation unit 25 confirms that a fire has occurred, a fire confirmation switch (fire alarm switch) for manually performing a fire alarm process or a fire when the fire extinguishing operation is completed after the fire alarm has been issued. A recovery switch for recovering the entire notification facility 1 to a normal fire monitoring state, a storage cancellation switch for setting whether or not to perform storage processing, and the like are provided.
[0041]
The operation unit 25 includes an on-site confirmation switch that is manually operated when the sensor 4 that has transmitted the operation signal is actually confirmed on the site. The site confirmation switch can be designated for each district and set whether or not to confirm the site.
When the site confirmation switch is manually operated, when the first activation signal is received from the sensor 4 in the area where the site confirmation switch is operated, the fire receiver 2 shifts to the site confirmation mode, and the above-described return processing is performed. It is set not to do. That is, the on-site confirmation switch is a return process canceling unit that can be set so as not to perform the return process.
[0042]
The sound output unit 23 includes, for example, a speaker and outputs various sounds based on the control of the CPU 21. Specifically, when the fire receiver 2 receives the operation signal from the sensor 4 and starts the accumulation process, the sound output unit 23 notifies that the accumulation is in progress. Also, the main sound is sounded during the fire alarm process. In the on-site confirmation mode, an alarm indicating that the on-site confirmation is instructed or on-site confirmation is output.
[0043]
The transmission control unit 24 is for transmitting and receiving signals to and from the remote control unit 30. The timer circuit 28 measures a predetermined time, and performs processing for starting a predetermined timer based on the control of the CPU 21.
[0044]
A remote control unit (hereinafter abbreviated as “remote control”) 30 is a portable terminal device capable of remotely operating the fire receiver 2, and includes a CPU 31, a display unit 32, an operation unit 33, a storage unit 34, and a transmission control unit. 35.
The storage unit 34 stores various control programs and control data for operating the remote controller 30, or temporarily stores data when the CPU 31 executes various processes. The CPU 31 controls each operation of the remote controller 30 in accordance with a control program and control data stored in the storage unit 34 while using the storage unit 34 as a work area.
[0045]
The transmission control unit 35 transmits and receives signals to and from the main body unit 20 via an antenna, a communication line, and the like (not shown) provided in each area of the fire alarm facility 1. When the signal amount increases, for example, a configuration for transmitting and receiving signals using a wireless LAN or the like may be used, and a configuration for transmitting and receiving signals between the remote controller 30 and the main unit 20 is particularly limited. Is not to be done.
[0046]
The operation unit 33 is for manually operating the fire receiver 2 by manual operation. Specifically, the operation unit 33 is a fire alarm switch (so-called fire confirmation switch, hereinafter referred to as a fire alarm switch) and a recovery switch. And. By operating the fire alarm switch, the fire receiver 2 can perform a fire treatment. When the recovery switch is operated, the fire receiver 2 returns to the normal monitoring state.
[0047]
The display unit 32 is composed of, for example, an LCD (Liquid Crystal Display) or the like, and based on the display control of the CPU 31, the current fire of the fire receiver 2 according to the signal received from the main body unit 20 via the transmission control unit 35. The monitoring status is displayed. Specifically, the display unit 32 confirms that the fire receiver 2 is in a normal fire monitoring state, has received an operation signal from the sensor 4 in the fire alarm facility 1, and is accumulating. Displays that the mode is active.
[0048]
The sensor 4 is, for example, a so-called on / off type sensor having a self-holding function, and specifically, a smoke sensor or a heat sensor. A constant voltage (for example, 24 V) is applied to the sensor 4 via the line L. When the sensor 4 detects a fire, it shifts from a normal fire monitoring state to an operating state, becomes a short circuit state, and drops to a low voltage (for example, 6V). As a result, the sensor 4 transmits the operation signal to the fire receiver 2.
In addition, the sensor 4 is provided with an indicator lamp that displays that it is in an operating state. The indicator light is turned on when the detector 4 is in an operating state upon detecting a fire, and is turned off when the detector 4 is in a normal fire monitoring state.
[0049]
Next, with reference to FIG. 2, the operation | movement at the time of performing fire monitoring and a fire alert | report with the above-mentioned fire receiver 2 is demonstrated.
When the power (not shown) of the fire receiver 2 is turned on, the fire receiver 2 starts fire monitoring of the entire building, and in step S1, the CPU 21 determines whether or not there is a fire detection. Specifically, the presence / absence of fire detection is determined based on whether or not the first activation signal is received from the sensor 4 via the I / F 27 / line L.
[0050]
By the way, in the fire monitoring performed by the fire receiver 2 so far, the operation confirmation signal from the detector 4 in the same district is received a plurality of times, and the accumulation confirmation lamp and the district lamp of the display unit 26 are lit many times. Despite this, fire treatment (for example, ringing of main sound and district sound) may not be performed easily. In this case, there is a possibility that the non-fire report is frequently issued due to a failure of the sensor 4 provided in this area.
In such a case, in step A1, the manager of the fire alarm facility 1 designates a district that is considered to have issued a non-fire alarm, and turns on the field confirmation switch of the operation unit 25 in advance. .
[0051]
If it is determined in step S1 that there is no fire detection, the process returns to the original and the determination in step S1 is repeated again. If it is determined that there is a fire detection, the process proceeds to step S2. At this time, since the sensor 4 that has transmitted the first activation signal is in an activated state, the indicator lamp is turned on.
[0052]
Next, in step S2, the CPU 21 determines whether or not the on-site confirmation switch is turned on in the above-described step A1.
Here, when the on-site confirmation switch is turned on, the CPU 21 determines whether or not the area of the sensor 4 that transmitted the first activation signal is the same as the area designated in the on-operation of the on-site confirmation switch. To do. If the districts are the same, the site confirmation mode is entered, and on-site confirmation processing (described later) in steps S20 to S23 is performed. If the district is different, or if the site confirmation switch is not turned on, the process proceeds to step S3.
[0053]
Next, in step S3, the CPU 21 determines whether or not the district where the sensor 4 that has transmitted the first operation signal is provided is set to be accumulated. Specifically, the determination is made based on whether or not the accumulation setting is canceled by the accumulation cancel switch of the operation unit 25.
[0054]
If the accumulation is not set, the process proceeds to step S11, and the main sound is caused to ring on the sound output unit 23 based on the control of the CPU 21. In addition, a signal is sent to the local sound provided in the same area as the sensor 4 that transmitted the first activation signal via the I / F 27 / line, and this local sound is sounded. In addition, processing to transfer and report that a fire has occurred.
[0055]
Next, fire processing is performed at step S12. Specifically, for example, interlocking equipment such as smoke prevention equipment (not shown) connected to the fire receiver 2 is driven. In addition, it sounds the district sound of all buildings. Further, the fire light of the display unit 26 is turned on. Moreover, the district lamp of the district where the sensor 4 which transmitted the first activation signal is provided is turned on.
[0056]
When the fire is restored after the extinguishing work, the manager of the fire alarm facility 1 operates the recovery switch of the operation unit 25 or the recovery switch provided in the operation unit 33 of the remote controller 30. When the recovery switch is operated, the entire fire alarm system 1 is restored by the control of the fire receiver 2 and returns to the normal fire monitoring state. Thereafter, the determination in step S1 is repeated again.
[0057]
If it is determined in the above-described step S3 that the area of the sensor 4 that has transmitted the first activation signal is set to be accumulated, the process proceeds to step S4, where the timer circuit 28 sets the timer (1) for 10 seconds. The timer (2) for 60 seconds is started.
Here, the timer (1) is a timer that measures the time from the start of accumulation until the restoration pulse is sent to the activated sensor 4. The timer (2) is a timer that measures the accumulation function operation time for generating a fire when the operation signal is received again.
[0058]
In step S4, the CPU 21 turns on the accumulation confirmation lamp of the display unit 26 to notify that the accumulation is in progress. Moreover, the district lamp of the district where the sensor 4 which transmitted the first activation signal is provided is turned on. Further, the sound output unit 23 is caused to output an alarm for notifying that the accumulation has started.
[0059]
Here, even though the operation signal has been received a plurality of times from the sensor 4 in the same area so far, the fire treatment ( For example, if the administrator notices that the district lights in the district where the main sound or the sound of the district sounds were not easily played), the district lights are on in step A2. The district (the district where the sensor 4 that transmitted the first activation signal is provided) is designated, and the on-site confirmation switch of the operation unit 25 is turned on.
[0060]
Next, in step S5, the CPU 21 determines whether or not the on-site confirmation switch is turned on in step A2 described above. If it is ON, it shifts to the on-site confirmation mode, performs on-site confirmation processing (described later) in steps S20 to S23, and if it is not ON, the process proceeds to step S6.
[0061]
Next, in step S6, it is determined whether or not the timer (1) has expired. If the time is not up, the determination in step S5 is repeated. If 10 seconds have elapsed since the timer (1) was started and the time has expired, the process proceeds to step S7, and the first activation signal is sent via the I / F 27 and line L based on the control of the CPU 21. A restoration pulse is sent to the transmitted sensor 4 in the operating state, and the illuminated district lamp is turned off.
[0062]
When the operation state detector 4 receives the recovery pulse transmitted from the fire receiver 2, the operation state is restored to the original fire monitoring state, and the transmission of the operation signal to the fire receiver 2 is stopped. Turn off the indicator light. That is, step S7 is a return process for returning the fire detector in the activated state from the activated state to the fire monitoring state.
[0063]
Next, in step S8, it is determined again whether there is a fire detection. When the operation signal is received again from the sensor 4 that has transmitted the first operation signal, or when the operation signal is received from another sensor 4 other than the sensor 4, the process proceeds to step S11, and the main sound is transmitted. Perform ringing, district sound, and transfer / report processing to indicate that a fire has occurred. Then, it transfers to step S12 and performs a fire process similarly to the above-mentioned.
In other words, the processing of steps S11 and S12 performed after step S8 is a cumulative fire processing that issues a fire when an operation signal is received again from the fire detector within a predetermined storage time after the return processing.
When the recovery switch is operated after the fire is restored, the entire fire alarm system 1 returns to the normal fire monitoring state. Thereafter, the determination in step S1 is repeated again.
[0064]
If it is determined in step S8 that there is no fire detection, the process proceeds to step S9 to determine whether or not the timer (2) has expired. If the time is not up, the determination in step S8 is repeated. If 60 seconds have elapsed since the start of the timer (2) and the time is up, the process proceeds to step S10.
[0065]
Next, accumulation / recovery processing is performed in step S10. Specifically, based on the control of the CPU 21, the accumulation confirmation lamp is turned off and the fire receiver 2 returns to the original fire monitoring state. Thereafter, the determination in step S1 is repeated again.
[0066]
In the above-described steps S2 and S5, when it is determined that the same area as the area of the sensor 4 that transmitted the first activation signal is designated and the on-site confirmation switch is turned on, the process proceeds to the on-site confirmation mode. The on-site confirmation process of steps S20 to S23 is executed.
[0067]
First, in step S20, based on the control of the CPU 21, the sound output unit 23 outputs an alarm notifying that “the site confirmation mode is in progress”. In addition, a signal is transmitted to the remote controller 30 via the transmission control unit 24, and the display unit 32 of the remote controller 30 displays "In-site confirmation mode".
Further, the CPU 21 controls the sound output unit 23 not to ring the main sound. This is because the site confirmation switch is manually turned on, so that the manager can determine that he / she intends to confirm the site, and there is no need to ring the main sound.
[0068]
Further, the control of the CPU 21 temporarily stops so that the district sound provided in the district of the sensor 4 that transmitted the first activation signal does not ring. In addition, it is temporarily stopped so as not to perform transfer / report processing to the effect that a fire has occurred.
The timer circuit 28 activates the district sound ringing delay timer (3) (hereinafter abbreviated as timer (3)). The timer (3) is a timer that times the time until the temporarily stopped district sound is sounded. The timer (3) is set in consideration of the time until the manager can actually go to the site and confirm the sensor 4 that has transmitted the first activation signal (specifically, for example, 10 ~ About 15 minutes).
[0069]
When the administrator confirms that the on-site confirmation mode has been established by the alarm by the sound output unit 23 or the display unit 32 of the remote controller 30, the administrator confirms which district lamp is lit and provides a non-fire report. In order to check the sensor 4 which is considered to be frequently emitted, the remote controller 30 is carried and the area where the district light is lit is actually checked. In this area, the detector 4 that is in the operating state with the indicator light lit is searched, and it is confirmed whether a fire has actually occurred in the area or not.
[0070]
Here, the fire receiver 2 is a sensor 4 provided in a region other than the region where the on-site confirmation switch is turned on (other than the line L to which the sensor 4 that transmitted the first activation signal is connected). For the sensor 4) connected to the line L, the fire monitoring is continued. Further, the fire receiver 2 always transmits a signal for notifying the fire monitoring status to the remote controller 30 via the transmission control unit 24, and the fire monitoring status of the fire receiver 2 is displayed on the display unit 32 of the remote controller 30. Is displayed in real time.
When the manager confirms that a fire has actually occurred, the fire alarm switch provided in the operation unit 33 of the remote controller 30 is turned on in step A3.
[0071]
Next, in step S21, the CPU 21 determines whether or not there is a fire alarm input, and determines whether or not there is a fire detection on another line L other than the line L that has received the first operation signal. . Specifically, it is determined whether or not the fire alarm switch of the remote controller 30 or the fire alarm switch provided in the main body 20 of the fire receiver 2 is turned on. Further, it is determined whether or not an operation signal is received from another line L other than the line L that has received the first operation signal.
[0072]
In at least one of the case where there is a fire alarm input and the case where a fire is detected on another line L, the process proceeds to step S24, and the CPU 21 is provided in the area of the line L where the fire is detected. Sounds the district sound. In addition, the suspension of the transfer / transfer process is canceled, and the transfer / transfer process is performed to indicate that a fire has occurred.
In addition, a signal is transmitted to the remote controller 30 to stop the display unit 32 from displaying “in-site confirmation mode” and to cause the display unit 32 to display that a fire has occurred. In addition, the sound output unit 23 cancels the alarm indicating “in-site confirmation mode”. Then, it transfers to step S12 and performs a fire process similarly to the above-mentioned.
That is, the process of steps S24 and S12 is a fire process for generating a fire.
When the recovery switch is operated after the fire is restored, the entire fire alarm system 1 returns to the normal fire monitoring state. Thereafter, the determination in step S1 is repeated again.
[0073]
If it is determined in step S21 that there is no fire alarm input and no fire is detected on the other line L, the process proceeds to step S22.
Here, the manager who went to the site confirms that it is a non-fire, and after finding the sensor 4 in the activated state, the manager is provided in the operation unit 33 of the remote controller 30 in step A4. Turn on the recovery switch.
[0074]
In step S22, the CPU 21 determines whether or not there is a recovery signal. Specifically, it is determined whether or not the recovery switch of the remote controller 30 or the recovery switch provided in the main body 20 of the fire receiver 2 is turned on. If the recovery switch has been turned ON, the process proceeds to step S10, and accumulation / recovery processing is performed.
Here, in step S10, by the control of the fire receiver 2, the entire fire alarm facility 1 is restored and returns to the normal fire monitoring state. At this time, the on-site confirmation mode ends, and the display unit 32 of the remote controller 30 stops the display indicating “in the on-site confirmation mode”. In addition, the sound output unit 23 cancels the alarm indicating “in-site confirmation mode”. Thereafter, the determination in step S1 is repeated again.
That is, step S10 is an initialization process for returning to the normal fire monitoring state.
[0075]
If it is determined in step S22 that there is no restoration signal, the process proceeds to step S23 to determine whether the timer (3) has timed up. If the time is not up, the determination in steps S21 to S23 is repeated.
If the timer (3) has timed up, the process proceeds to step S24, and in the same manner as described above, the district sound is sounded and the transfer / transfer process is performed. In addition, the display of “on-site confirmation mode” on the display unit 32 of the remote controller 30 is stopped, and the display unit 32 displays that a fire has occurred. In addition, the alarm that indicates “in-site confirmation mode” is stopped by the sound output unit 23. Then, it transfers to step S12 and performs a fire process similarly to the above-mentioned.
When the recovery switch is operated after the fire is restored, the entire fire alarm system 1 returns to the normal fire monitoring state. Thereafter, the determination in step S1 is repeated again.
[0076]
In the above-described operation processing, it is described in step S21 whether or not there is a fire alarm input, and when the fire alarm switch is turned on, the processing in steps S24 and S12 is performed. Regardless of this, whenever the fire alarm switch of the fire receiver 2 is turned on, the processes of steps S24 and S12 are immediately performed.
In step S22, it is determined whether or not there is a recovery signal, and when the recovery switch is turned ON, it is described that the process of step S10 is performed. Whenever the recovery switch is turned on, the process of step S10 is performed immediately.
[0077]
As described above, according to the fire alarm facility 1 and the fire receiver 2 of the present embodiment, when the on-site confirmation switch of the operation unit 25 is turned on, the CPU 21 detects the sensor 4 (that is, the operation signal transmitted) The process (step S7) of sending a recovery pulse to the line L) to which the sensor 4 is connected is not performed. That is, when the on-site confirmation switch is turned on, the sensor 4 that has transmitted the first activation signal does not return to the fire monitoring state and remains in the activated state.
[0078]
As a result, the manager can turn on the on-site confirmation switch so that the sensor 4 that is considered to frequently issue non-fire reports can be left in an activated state. Therefore, in this state, if the confirmation is made at the site, the indicator lamp of the sensor 4 that has issued the non-fire report is lit, so that it can be distinguished from the sensor 4 in which the indicator lamp is not lit. Therefore, it is possible to identify the sensor 4 that issues a non-fire report and to check the sensor 4.
[0079]
In addition, simply by turning the field confirmation switch ON by manual operation, it shifts to the field confirmation mode and operates the sensor 4 (that is, the line L to which the sensor 4 is connected) that transmitted the first activation signal. Since it can be left in a state, it is possible to easily check the sensor 4.
[0080]
In addition, if the field confirmation switch is operated in step A1 before the fire receiver 2 receives the first activation signal, the operation is started from the sensor 4 in the designated area by the ON operation of the field confirmation switch. When a signal is received, it automatically shifts to the on-site confirmation mode. Therefore, the site confirmation switch can be operated in advance with sufficient margin to shift to the site confirmation mode.
[0081]
In addition, the field confirmation switch is operated in step A2 for 10 seconds (timer (1)) from when the fire receiver 2 receives the first activation signal until the restoration pulse is transmitted. To the on-site confirmation mode. Therefore, even immediately before transmitting the recovery pulse, it is possible to immediately shift to the on-site confirmation mode.
[0082]
In addition, since the fire receiver 2 includes the remote control 30, a user (administrator, etc.) of the fire receiver 2 confirms the sensor 4 that gives a non-fire report when shifting to the on-site confirmation mode. Even when moving to a place away from the main body 20 of the fire receiver 2, the fire receiver 2 can be remotely operated.
In particular, since the operation unit 33 of the remote control 30 is provided with a fire alarm switch and a recovery switch, when an administrator goes to the site to check the sensor 4 that issues a non-fire report, a fire actually occurs. In the event that a fire has occurred, the fire alarm switch can immediately cause the fire receiver 2 to perform a fire process. When it is confirmed that the fire is not fired, the fire receiver 2 can be immediately returned to the normal fire monitoring state by the recovery switch.
[0083]
Further, since the remote control 30 is provided with a display unit 32 for displaying the fire monitoring status of the fire receiver 2, while the manager is going to the site to find the sensor 4 that gives a non-fire report, It can be confirmed that it is in the confirmation mode, a new operation signal has been received from another line L, and the like.
[0084]
In addition, when the site confirmation switch is turned on, the CPU 21 does not sound the district sound. Therefore, when the operation signal is received from the sensor 4 that is considered to have issued a non-fire report, The site confirmation of the district where the sensor 4 is provided can be performed reliably and promptly without being confused by the sound of the district sound.
[0085]
In addition, when the on-site confirmation switch is turned on, the sound output unit 23 issues an alarm indicating that it is a non-fire report or an on-site confirmation mode. Even if the manager has forgotten that he was operating, or if the site confirmation switch is accidentally operated, the manager ensures that the fire receiver 2 has entered the site confirmation mode. Can know.
[0086]
In addition, this invention is not limited to the above-mentioned embodiment, It can change suitably.
For example, although the operation unit 25 is provided with a site confirmation switch, the present invention is not limited to this, and the fire receiver 2 having no operation switch in the operation unit 25 has an on-site confirmation switch (return process release device). It is good also as a structure mounted | worn with an adapter etc. In this case, even a fire receiver that does not have a field confirmation switch in advance can perform the above-described field confirmation process simply by providing an accessory device.
[0087]
In addition, by manually operating the on-site confirmation switch, it is set so as to shift to the on-site confirmation mode and not perform the return process. However, the present invention is not limited to this, and the CPU 21 automatically performs the on-site operation under predetermined conditions. It is good also as a structure which controls the fire receiver 2 so that it may transfer to confirmation mode. In this case, the CPU 21 is a return process cancellation unit.
[0088]
An example of the above configuration will be specifically described. For example, when the first activation signal is received from the sensor 4 (that is, the line L to which the sensor 4 is connected) during the fire monitoring by the fire receiver 2. The CPU 21 stores the date / time data at the time of receiving the operation signal in the storage unit 22 at any time in association with the district from which the operation signal is transmitted. In addition, after receiving the first activation signal, if it does not receive the activation signal again during the specified accumulation time, it is judged as a non-fire report and it returns to the fire monitoring state without performing the fire alarm process, This is stored in the storage unit 22 as data.
And based on the data memorize | stored in the memory | storage part 22, when the CPU21 judges that it is a non-fire report multiple times (for example, twice) in the same district, it is a predetermined period (for example, three months) ) Within a predetermined number of times (for example, twice).
And when it is determined that it is a non-fire report, if it is determined that it has occurred more than a predetermined number of times within the predetermined period in the same area, the first activation signal is again sent from the sensor 4 in this area. When received, the CPU 21 proceeds from step S1 shown in FIG. 2 to step S20, and automatically sets to shift to the on-site confirmation mode.
As described above, if the CPU 21 is set so as to automatically shift to the on-site confirmation mode, even if the manager does not notice that non-fire reports are frequently occurring in a certain district, it is ensured. It is possible to shift to the on-site confirmation mode.
[0089]
Further, the CPU 21 may be configured to automatically shift to the on-site confirmation mode when the on-site confirmation switch is not manually operated. In this case, even if the manager forgets to operate the site confirmation switch or fails to operate the site confirmation switch, the mode confirmation mode can be surely shifted. Further, the present invention is not limited to this, and the fire receiver 2 may be configured to automatically shift to the site confirmation mode only by the control of the CPU 21 without providing the site confirmation switch.
[0090]
Further, the timer setting times of the timers (1) to (3) activated by the timer circuit 28 are not limited to the above-described examples (10 seconds, 60 seconds, etc.), and can be changed as appropriate.
Further, a display screen such as an LCD may be provided on the display unit 26 of the fire receiver 2 to display that the site confirmation mode is in progress.
In addition, the fire receiver 2 is a so-called P-type receiver. However, the fire receiver 2 is not limited to this. For example, in a so-called R-type system, the fire receiver 2 is connected to an on / off type sensor, and an operation signal from the on / off type sensor is received. The present invention can also be applied to a repeater that converts to a transmission system for an R-type system and transmits / receives various information.
[0091]
Further, the above-described remote controller 30 may be configured to include a sound output unit that performs an alarm for notifying that a fire has been reported, an alarm indicating that the site confirmation mode is being performed, and the like. In this case, while the manager goes to the site and looks for the sensor 4 in the operating state, the sound is used to know that the site confirmation mode is being used and that a fire has occurred in other areas. be able to.
[0092]
Further, the display unit 32 of the remote controller 30 may have a function as a sub display device to display a failure / breakage alarm of a line in the fire alarm facility 1, and the fire receiver 2 may be R In the case of the type receiver, the display unit 32 may display analog data of other sensors 4 in real time.
[0093]
【The invention's effect】
  Claim 1,12According to the described invention, the fire detection that outputs the non-fire information after receiving the first operation signal from the fire detector that outputs the non-fire information is set so that the return processing is not performed by the return processing release means. The vessel can be left in operation. Therefore, a fire detector that issues a non-fire report can be distinguished from a fire detector that is in a normal fire monitoring state that does not issue a non-fire report, and thus a fire detector that issues a non-fire report can be identified.
  In addition, even if a user of a fire monitoring device (for example, a manager of a fire alarm system provided with a fire monitoring device) is not aware that a certain fire detector frequently issues a non-fire report, Fire detectors that appear to be reporting frequently can be reliably left in operation.
[0094]
  Claim 2, 9, 12According to the described invention,Fire detectors that are considered to have frequently issued non-fire reports even if the user of the fire monitoring device forgets to manually operate the return process release means or fails to manually operate the return process release means ( Fire detectors connected via the same line can be reliably left in operation.
[0096]
  Claim3According to the described invention, it is possible to attach and detach the return process releasing means as necessary.
  Claim4,10According to the described invention, the fire monitoring device can be remotely operated using the mobile terminal device. In particular, when a user of a fire monitoring device goes to the site to check the fire detector in operation, if a fire actually occurs, the fire monitoring device is remotely operated to handle the fire. Can be done immediately. In addition, when it is confirmed that the report is non-fire information, initialization processing can be performed using the portable terminal device, and the fire monitoring device can be immediately returned to the fire monitoring state.
  Claim5,11According to the described invention, even when the user of the fire monitoring device moves to a place away from the fire monitoring device, the display means of the portable terminal device can be confirmed to know the fire monitoring status by the fire monitoring device. it can.
[0097]
  Claim6According to the described invention, when it is set so that the return processing is not performed by the return processing canceling means and the fire detector is in an operating state, the site confirmation of the district where the fire detector is provided is performed. It can be performed reliably and promptly without being confused by the ringing.
  Claim7According to the described invention, even when the return process canceling unit is set not to automatically perform the return process or when it is mistakenly set not to perform the return process, the return process is performed. It is possible to reliably notify the user of the fire monitoring device that the fire detector that has been left in the activated state due to the setting not to be performed is confirmed.
[0098]
  Claim8According to the described invention, the fire detection that outputs the non-fire information after receiving the first operation signal from the fire detector that outputs the non-fire information by setting the return processing to be not performed by the return processing release device. The vessel can be left in operation. Therefore, a fire sensor that issues a non-fire report can be distinguished from a fire sensor that is in a normal fire monitoring state that does not issue a non-fire report, and thus a fire sensor that issues a non-fire report can be identified.
  Moreover, it is possible to provide a fire monitoring device that can be set so as not to perform the recovery process by simply providing the fire monitoring device with a recovery process canceling device.
  Furthermore, even if a user of a fire monitoring device (for example, a manager of a fire alarm system provided with a fire monitoring device) does not notice that a fire detector frequently issues a non-fire report, a non-fire Fire detectors that appear to be reporting frequently can be reliably left in operation.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing a fire alarm facility according to an embodiment of the present invention.
FIG. 2 is a flowchart for explaining an operation when performing fire monitoring and fire notification by the fire receiver in FIG. 1;
[Explanation of symbols]
1 Fire alarm system (fire alarm system)
2 Fire receiver (fire monitoring device)
4 detectors (fire detectors)
21 CPU (return processing release means)
25 Operation unit (return processing release means)
30 Remote control unit (mobile terminal device)
32 Display section (display means)

Claims (12)

Connected to multiple fire detectors,
A return process for returning the fire detector from the operating state to the fire monitoring state after a predetermined time from receiving the first operation signal from the active fire detector;
After the return processing, the fire monitoring device performs the accumulated fire processing for generating a fire when the operation signal is received again from the fire detector within a predetermined accumulation time after the first activation signal is received. And
A reset process canceling means that can be set not to perform the return process ,
Connected to multiple fire detectors via at least one line,
When the first activation signal is received from the fire detector a plurality of times via the same line, the activated fire sensor connected via the same line is returned to the fire monitoring state by the return process. After that, when it does not receive the operation signal from the fire detector again within the predetermined accumulation time, the return processing release means is connected via the same line when the predetermined number of times has occurred within the predetermined period. fire monitoring apparatus characterized that you automatically set for. Connected to multiple fire detectors,
  A return process for returning the fire detector from the operating state to the fire monitoring state after a predetermined time from receiving the first operation signal from the active fire detector;
  After the return processing, the fire monitoring device performs the accumulated fire processing for generating a fire when the operation signal is received again from the fire detector within a predetermined accumulation time after the first activation signal is received. And
  In order not to perform the return processing, provided with a return processing release means that can be set by manual operation,
  Connected to multiple fire detectors via at least one line,
  The return processing release means fires the fire detector in the operating state connected through the same line by the return process when the first activation signal is received a plurality of times from the fire detector via the same line. After returning to the monitoring state, if the operation signal is not received again from the fire detector within a predetermined accumulation time, it occurs more than a predetermined number of times within a predetermined period, and when the manual operation is not performed, the same line is used. A fire monitoring device that is automatically set for a connected fire detector. The fire monitoring device according to claim 1 or 2 , wherein a return processing release means is detachably provided. And fire processing for fire alert, the initialization process and return to normal fire monitoring state, the to claim 1, characterized in that it comprises a remotely controllable mobile terminal device to perform at least one of The fire monitoring device described. The fire monitoring apparatus according to claim 4 , wherein the portable terminal device includes display means for displaying a fire monitoring status. After the restoration process canceling means is set not to perform the restoration process, the district sound of the district where the fire detector that sent the first activation signal is provided is prevented from ringing for a predetermined time. The fire monitoring device according to any one of claims 1 to 5 . Return processing releasing means, after setting so as not to perform recovery processing, according to any one of claims 1 to 6, characterized in that to notify the subject that confirm the fire detector which sent the first time of the actuation signals Fire monitoring equipment. A restoration process for returning the fire sensor from the operating state to the fire monitoring state after a predetermined time has elapsed after receiving the first operation signal from the fire detector in the active state, connected to a plurality of fire detectors, After processing, when the first activation signal is received, it can be attached to and removed from a fire monitoring device that performs accumulated fire processing that fires when the activation signal is received again from the fire detector within the specified accumulation time. Provided in
Wherein the return process is the fire monitoring device Ri settable der so as not,
Connected to multiple fire detectors via at least one line,
A case of receiving a plurality of times one time of actuation signals from the fire detector through the same line, is returned to the fire monitoring state fire detector operating state in which the connected via the same line by carriage return process After that, when the activation signal is not received again from the fire detector within a predetermined accumulation time, if it occurs more than a predetermined number of times within a predetermined period, the fire detector connected via the same line is automatically set to return processing release device according to claim Rukoto to. A restoration process for returning the fire sensor from the operating state to the fire monitoring state after a predetermined time has elapsed after receiving the first operation signal from the fire detector in the active state, connected to a plurality of fire detectors, After processing, when the first activation signal is received, it can be attached to and removed from a fire monitoring device that performs accumulated fire processing that fires when the activation signal is received again from the fire detector within the specified accumulation time. Provided in
  The return processing can be set by manual operation so that the fire monitoring device does not perform,
  Connected to multiple fire detectors via at least one line,
  The return processing release means fires the fire detector in the operating state connected through the same line by the return process when the first activation signal is received a plurality of times from the fire detector via the same line. After returning to the monitoring state, if the operation signal is not received again from the fire detector within a predetermined accumulation time, it occurs more than a predetermined number of times within a predetermined period, and when the manual operation is not performed, the same line is used. The recovery processing canceling device is characterized in that it is automatically set for the connected fire detector. The fire monitoring device according to any one of claims 1 to 7 , wherein the fire monitoring device according to any one of claims 1 to 7 can be remotely operated so as to perform at least one of a fire processing for generating a fire and an initialization processing for returning to a normal fire monitoring state. A portable terminal device. The portable terminal device according to claim 10, further comprising a display unit configured to display a fire monitoring status by the fire monitoring device. The fire monitoring device according to any one of claims 1 to 7 ,
A fire alarm system comprising a plurality of fire detectors connected to the fire monitoring device.

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