JP4095402B2 - Fire receiver - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a fire receiver, and further to a fire receiver used in a fire alarm system in which a plurality of fire receivers are connected and one unit is used as a main panel and the other is used as a sub-panel.
[0002]
[Prior art]
Conventionally, as a fire alarm facility, a P-type receiver (hereinafter referred to as a sub-receiver) as a sub-panel is arranged for each floor, and a P-type receiver (hereinafter referred to as a main panel) that receives a transfer output from these sub-panels. , A main receiver) is installed to monitor the entire building. When a sub-receiver receives a fire signal from one of the fire detectors via a plurality of sensor lines provided for each fire area, the sub-receiver outputs the so-called representative message that outputs the fire signal reception. The main receiver, which has received this representative message, receives the representative message, performs necessary displays and alarms, and performs fire monitoring for the entire building.
[0003]
In constructing such a system, a fire receiver for a small-scale building with a small number of lines that can be monitored is utilized (for example, see Patent Document 1). Even so, it can be applied to large-scale buildings by aggregating the output from multiple fire receivers.
[0004]
[Patent Document 1]
JP-A-8-180270
[0005]
[Problems to be solved by the invention]
When using the above-mentioned fire alarm relocation output function, once the relocation output is output in accordance with the principle of fire alarm equipment, after confirming the site, the fire signal once cleared will be erased. The output is maintained, and the output is maintained until the fire is eliminated and a recovery operation input is performed.
[0006]
Similarly, once received from the sub receiver, the main receiver that receives the message output holds the fire information, and then holds it until there is a recovery operation input regardless of the actual reception. Because of this system configuration, when multiple fire alarms occur, there is a fire representative's message output from a sub-receiver, and the main receiver receives the message output and the fire alarm sounds. When the sound stop input is made to the main receiver, and the sub-receiver that outputs the fire representative's output signal after that has a second fire signal, the fire representative is again sent to the main receiver. Cannot be output, and sounding based on the fire signal of the second report cannot be performed from the main receiver.
[0007]
That is, in the sub-receiver, there is an acoustic ringing due to the reception of the first fire signal, and after the acoustic stop, the acoustic ringing due to the reception of the second fire signal from a different line, so-called subsequent re-ringing is possible. However, the main receiver cannot receive subsequent signals from the same sub-receiver as in the first report, and cannot perform subsequent re-ringing.
[0008]
Accordingly, an object of the present invention is to receive a fire representative's transfer output and the like for each fire report.
[0009]
[Means for Solving the Problems]
The present invention relates to a fire receiver that is a main panel used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel. After receiving the message output that lasted for the first time, cut the message output continuously for the second time To the message receiving unit, and to the message receiving unit The above-mentioned report output And a control unit that individually receives the representative message output.
[0011]
Further, the present invention provides a fire receiver which is a main panel used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel. A message receiving unit that receives the message output continuously for one time and then interrupts the message output for a second time; To the message receiving unit Report output Each when there are multiple Report output When the interval is less than the predetermined time interval, both are judged to have received one representative message output. A control unit, and To do.
[0012]
The present invention also provides: When the fire detector is in a low impedance state of a substantially short circuit due to switching operation when a fire is detected, Receive fire signal For P type system In the fire receiver, After receiving a fire signal lasting for a first time from the fire detector, the fire signal is interrupted for a second time. A receiver, and said receiver to the receiver Fire signal And a control unit that individually receives a fire signal.
[0014]
The present invention also provides: In the fire receiver for the P-type system that receives a fire signal from the fire detector, when the fire detector is in a low-impedance state of a substantially short circuit due to a switching operation when a fire is detected, a first time from the fire sensor After receiving a continuous fire signal, interrupt the fire signal for a second time continuously A receiving unit to The Said to the receiver Fire signal When there are multiple fire signals, when each fire signal is less than the predetermined time interval, both are judged to have received one fire signal And a control unit. Is.
[0015]
Still further, the present invention relates to a fire receiver used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel, or a fire signal from a plurality of fire detectors, or , Representative message output from the fire receiver as a sub-panel, a fire receiver that receives either, and when the fire signal is received as a sub-panel to the fire receiver, After executing the message output continuously for the first time, the message output is stopped for the second time continuously. To the fire output unit The above-mentioned report output And a control unit that individually receives the representative message output.
[0017]
Still further, the present invention relates to a fire receiver used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel, or a fire signal from a plurality of fire detectors, or , Representative message output from the fire receiver as a sub-panel, fire receiving unit that receives either, and when the fire signal is received as a sub-panel to the fire receiving unit, the message is continuously output for the first time A message output unit that continuously stops the message output for a second time after executing To the fire receiver Report output Each when there are multiple Report output And a control unit that determines that both receive one fire signal or representative message output when the interval is equal to or less than a predetermined time interval.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments using the present invention will be described with reference to the drawings. 1 is a system configuration diagram of the entire fire alarm system using the present invention, FIG. 2 is a schematic block configuration diagram of a fire receiver used in FIG. 1, and FIG. 3 is a display unit of the fire receiver of FIG. FIG. 4 is a flowchart showing the operation of the fire receiver of FIG. 2, and FIG. 5 is an explanatory diagram showing the timing of representative message transmission and acoustic ringing.
[0019]
Rm is a P-type fire receiver as a main panel (hereinafter referred to as a main receiver), R1 to Rn are P-type fire receivers as a sub-panel (hereinafter referred to as a sub-receiver), 11 is a fire detector, and 12 is a fire. Transmitter, 13 is the district acoustic device, 21-2n is the fire representative output line, 31-3n is the acoustic stop line, 41-4n and 4m are sensor lines, 51-5n and 5m are district acoustic control lines .
[0020]
The sub-receivers R1 to Rn are arranged for each floor as an example with respect to the building, and output lines 21 to 2n for transferring and outputting the fire representatives are drawn out and input to the main receiver Rm, as well as sound. Stop lines 31 to 3n are arranged between the main receiver Rm.
[0021]
Each of the sub-receivers R1 to Rn includes a plurality of sensor lines 41 to 4n, and a necessary number of fire detectors 11 and fire transmitters 12 corresponding to the room allocation of the floor are provided. Each of the sensor lines 41 to 4n is also provided with a necessary number of lines corresponding to the district allocation set for fire monitoring.
[0022]
Similarly, each of the sub-receivers R1 to Rn includes a plurality of district acoustic control lines 51 to 5n, and a necessary district acoustic device 13 is provided in the floor. An alarm can be sounded throughout the floor. It is also possible to divide the floor into districts and control the sound individually, just like fire monitoring.
[0023]
Further, since the main receiver Rm is a P-type fire receiver similar to the sub-receivers R1 to Rn as described above, similarly, a necessary detector line 4m is provided and the fire detector 11 and the fire transmitter are provided. 12 can be connected, and the control line 5m can be provided to connect the district sound device 13.
[0024]
Next, the configuration of the main receiver Rm and the sub receivers R1 to Rn will be described. In this embodiment, one P-type fire receiver casing is provided for the main receiver Rm and the sub receivers R1 to Rn. Shared. For this reason, there are parts that are used only in the main receiver Rm and parts that are used only in the sub-receivers R1 to Rn. FIG. 2 shows wiring and peripheral devices when used as a sub-receiver.
[0025]
In FIG. 2, 61 is a control unit, 62 is a fire receiving circuit, 63 is an operation unit, 64 is a display unit, 65 is an acoustic unit, 66 is a control output unit, 67 is a transfer output circuit, 68 is a reset output circuit, 69 Is a reset receiving circuit.
[0026]
The control unit 61 is configured by a microcomputer or a memory (not shown) and controls the operation of the fire receivers R1 to Rn and Rm. The control unit 61 detects an input to the fire receiving circuit 62 and the like, and sends it to the control output unit 66 and the like. Performs control output and performs necessary monitoring and control operations.
[0027]
The fire receiving circuit 62 is a circuit that detects the reception of a fire signal according to the state between the terminals to which the detector lines 41 to 4n and the like are connected, and the fire detector 11 performs a P-type fire signal sending operation when a fire is detected. It is possible to detect a low impedance state of a substantially short circuit due to a so-called switching operation, and to detect a fire signal for each of a plurality of lines provided. Although not described in detail, a disconnection detection circuit for detecting the occurrence of disconnection of each of the sensor lines 41 to 4n is provided in the fire receiving circuit 62.
[0028]
Further, when the fire receiving circuit 62 is used as the main receiver Rm, the fire representative output lines 21 to 2n are connected in addition to the sensor line 4m, and the fire is detected in the same manner as the fire signal from the fire detector 11. A representative message is also received.
[0029]
The operation unit 63 inputs operation to the fire receivers R <b> 1 to Rn and Rm by various switches provided on the board surface as shown in FIG. 3, and outputs the input to the control unit 61. In FIG. 2, only the acoustic stop switch SW1 and the recovery switch SW2 are shown.
[0030]
In addition to the district window display as shown in FIG. 3, the display unit 64 is connected to various indicator lights indicating the state and a notification display (7-segment) indicating the line of the fire alarm, etc., and based on the control from the control unit 61. The lighting is controlled.
[0031]
Although not described in detail, the sound unit 65 is a device such as a buzzer, and emits an alarm sound from the fire receivers R1 to Rn and Rm itself.
[0032]
The control output unit 66 performs control output to a terminal to which the district acoustic control lines 51 to 5n and the like are connected, and controls the alarm sounding of the district acoustic device 13. In addition, even if controlled devices such as smoke prevention devices other than the district sound device 13 or devices for evacuation guidance are connected, the interlock control can be performed similarly to the district sound.
[0033]
Based on the control output of the control unit 61, the output transfer circuit 67 performs a transfer output operation on the terminals to which the fire representative output lines 21 to 2n are connected. Therefore, since the connection state is the same as that of the sensor lines 41 to 4n, the monitoring current can be conducted through the resistor 82, which is the same as the terminal resistor (not shown) provided at the terminal portion of the sensor lines 41 to 4n. When the switching element 81 is actuated, an additional resistor 83 for providing the same addition as that of the fire detector 11 is provided so that the transmission output lines 21 to 2n are brought into a substantially short-circuited low impedance state in the same manner as the fire signal. .
[0034]
The reset output circuit 68 controls on / off of the photocoupler 85 as a switching element that controls between the terminals to which the acoustic control lines 31 to 3n are connected based on the control output of the control unit 61. The reset output circuit 68 is a necessary part when used as the sub receivers R1 to Rn, and is not necessary as the main receiver Rm.
[0035]
The reset input circuit 69 detects that the photocoupler 85 is turned on by the reset output circuit 68, and inputs the detection to the control unit 61. Contrary to the reset output circuit, the reset input circuit 69 is a necessary part only when used as the main receiver Rm, and is not necessary when used as the sub receivers R1 to Rn.
[0036]
Next, the operation of the embodiment configured as described above will be described with reference to FIG. In the following explanation of the operation, the main receiver Rm and the sub-receivers R1 to Rn will be distinguished from each other. However, since a fire receiver having a common configuration can be prepared, the main operation or sub-operation depends on the installation situation. It is also possible to have both operations so that
[0037]
As a fire occurrence, for example, if a fire has occurred from the first floor, the fire detector 11 provided there detects the fire and sends out a fire signal, and the fire signal is transmitted via the sensor line 41. The fire receiving circuit 62 that has been inputted to the fire receiving circuit 62 of the sub-receiver R1 and has received the fire signal distinguishes and detects a plurality of sensor lines 41 arranged for each district, and outputs corresponding outputs to the control unit 61. Do.
[0038]
As described above, the control unit 61 that has detected the signal input (S10) confirms that a stop flag F1 described later is off in the sensor lines 41 to 4n (S11), and performs a necessary fire display ( S12), sounding is performed (S13). Then, since it is necessary to perform a message output of the fire representative (S14), it is confirmed that the message flag F2 is off (S15), the message output circuit 67 is activated (S16), and the message is transferred. The flag F2 is turned on (S17), and the timer T2 is started (S18). Here, the transfer output circuit 67 closes the contact 81 and causes the output line 21 to perform transfer output. In this representative transfer, when a fire signal is detected from any of the plurality of sensor lines 41, an output indicating fire detection is performed as a sub-receiver R1 to the main receiver Rm. Here, the transfer flag F2 indicates that the representative message is being output, and the sub-receiver R1 detects the second signal by detecting a fire signal from the other sensor line 41 during the transfer of the representative signal. In case, the second report is suspended. The timer T2 is a timer (not shown) built in a microcomputer or the like for measuring a predetermined time for changing the output line 21 to a one-shot output. The predetermined time is set to about 30 seconds, for example. ing.
[0039]
The main receiver Rm that has received the transfer output is input to the fire receiving circuit 62 and receives the transfer output in the same manner as the sub-receiver R1 receives the fire signal from the fire detector 11. Distinguishes and detects the sensor line 41 and outputs the corresponding output to the control unit 61. The control unit 61 that has detected the transfer output (S10) confirms that a stop flag F1 described later is off (S11), performs a necessary fire display (S12), and performs an acoustic ringing (S13). And it is not necessary to perform a fire representative's transfer output from the main receiver Rm (S14).
[0040]
Thereafter, when a predetermined time, in this case, about 30 seconds elapses from the output of the message, the timer T2 of the sub receiver R1 is timed up. When there is a time-up input of the timer T2 (S20, S21), the output of the message output circuit 67 is stopped (S22), and the message flag F2 is turned off (S23). At this time, the transfer output circuit 67 opens the contact 81 and stops the transfer output of the output line 21.
[0041]
The main receiver Rm that has received the stop of the transmission output detects that the input has been stopped from the terminal where the input has been made by the fire receiving circuit 62, and outputs the corresponding output to the control unit 61, as in the case of reception. Do. The control unit 61 that has detected the signal stop (S30) turns on the stop flag F1 (S31) and starts the timer T1 (S32). Here, the stop flag F1 indicates that the reception of the representative message is being stopped, and the input immediately after the transfer of the representative message from the sub receiver R1 is stopped is cut off. As a representative transfer, there is a case where an instantaneous output stop due to noise occurs during one-shot output. When noise occurs, the representative output in the first report is not detected as the second report after the momentary interruption. To. The timer T1 is a timer (not shown) similar to the timer T2 for measuring a predetermined time for stopping reception, and the predetermined time is set to about 10 seconds, for example. Although not shown in detail, the stop flag F1 and the timer T1 are provided for each detector line and the transmission output line input to the fire receiving circuit 62.
[0042]
Thereafter, when a predetermined time, in this case, about 10 seconds elapses from the stop of reception, the timer T1 of the main receiver Rm is timed up. When there is a time-up input of the timer T1 (S20, S26), the stop flag F1 is turned off (S27).
[0043]
In the operation so far, the sub-receiver R1 that has received the fire signal and the main receiver Rm that has received the representative output have sounded the fire alarm. This acoustic ringing is performed by the acoustic unit 65 including a buzzer (not shown), a voice synthesis circuit (not shown) for performing ringing by voice, a speaker, and the like in each receiver R1 and Rm. The sound of the district sound is produced by the output from the control output unit 66 via the control lines 51 and 5m with respect to the acoustic device 13. Necessary district sounds may be provided for each fire monitoring area or each floor, or may be a separate ringing of the fire floor and the directly above floor or a simultaneous ringing of the entire building.
[0044]
Here, when the manager of the building (person who is responsible for similar management) operates the acoustic stop switch SW1 of the operation unit 63 to perform the acoustic stop operation on the main receiver Rm, the control of the main receiver Rm is performed. The unit 61 determines that the operation input is acoustic stop (S40, S41), and performs an acoustic stop operation that stops the acoustic unit 65 and also stops output from the control output unit 66 (S42). Similarly, when the acoustic stop switch SW1 of the sub receiver R1 is operated, the outputs of the acoustic unit 65 and the control output unit 66 of the sub receiver R1 are stopped.
[0045]
When the fire continues, the fire sensor 11 different from the fire sensor 11 that was activated first is activated, and a second fire signal is generated. When the second fire signal is input to the fire receiver circuit 62 of the sub-receiver R1 via the sensor line 41 different from the first report, the control unit 61 that detects the input (S10) again Necessary fire display and sounding are performed (S12, S13). After confirming that the transfer flag F2 is off (S15), the transfer output circuit 67 is activated (S16), and the transfer flag F2 is turned on (S16). S17), the timer T2 is started (S18). At this time, if the transfer flag F2 is turned on when the second report is output, it is not shown in detail, but the output of the second report is suspended and the input is stopped after the transfer flag F2 is turned off. After a predetermined period of time, here, about 10 seconds or more of waiting time, a message is output.
[0046]
The main receiver Rm that has received the second report transfer output is similarly input to the fire receiving circuit 62, and the control unit 61 that has detected the transfer output (S10) has a stop flag F1 to be described later off. This is confirmed (S11), and necessary fire display and sounding are performed again (S12, S13).
[0047]
By such an operation, when the second report is input after the sound of the first report is stopped, the first report and the second report are transmitted not only in the sub receiver R1 but also in the main receiver Rm. It is possible to discriminate and individually count as the number of notifications, and it is possible to perform an acoustic sound of a fire alarm, so-called subsequent re-sound, by inputting the second report.
[0048]
Here, the signal input to the fire receiving circuit 62, the sounding sound, and the timing of sound stopping will be described with reference to FIG. In the figure, FIG. 5 (a) shows a case where re-sounding is performed by the second report, and FIG. 5 (b) shows a case where it is not considered as the second report. The middle stage indicates whether or not sound is generated by the control of the acoustic unit 65 and the control output unit 66, and the bottom stage indicates stop input by the acoustic stop switch SW <b> 1 in the operation unit 63.
[0049]
In FIG. 5 (a), the sounding of the sound is started by receiving the fire representative transfer output from the sub-receivers R1 to Rn as a fire signal. Since this message output is a one-shot output for a predetermined time, the reception stops here after about 30 seconds. Also, the sounding of sound is stopped by the input of the sound stop switch SW1.
[0050]
After that, when receiving the second report transfer output from the same sub-receiver R1 to Rn, since the reception has passed for a predetermined time, about 10 seconds or more, from the stop of the first report, The news is counted again as a fire signal input, and an acoustic ringing is started again. Then, the sound is stopped in the same manner as in the first report by operating the sound stop switch SW1. Further, it is stored as the fire information that the fire signal has the second report as a successor in addition to the first report.
[0051]
On the other hand, in FIG. 5 (b), the first report is received as in FIG. 5 (a), and the acoustic ringing is started. When the fire signal of this first report is stopped once due to some influence and revives in about 6 or 7 seconds, the timing of this resumption is a predetermined time since the stop of the first report, about 10 seconds or more here. Therefore, it is determined here that the first report is continuing.
[0052]
In FIG. 5 (b), if there is no predetermined time for stopping the reception, there may be a large number of alarms such as one or two fire signals or output signals due to noise, which is wasted to the fire receiver. It will make you move.
[0053]
In this embodiment, for the purpose of holding the fire signal once received, the fire receiving circuit 62 is configured to take in the presence or absence of the input after receiving the fire signal from the conventional method that does not accept the subsequent signal. , Accepts the succession, and as a result, enables accurate reception of the number of notifications, subsequent re-ringing, and the like. In order to eliminate the influence of noise or the like, it is possible to set the period of reception stop and accurately count the number of reports.
[0054]
A similar fire signal detection operation may be performed in the sensor line. In the above description of the operation, with respect to the representative message transfer from the sub-receivers R1 to Rn to the main receiver Rm, since a plurality of sensor lines 41 to 4n are arranged in the sub-receivers R1 to Rn, a plurality of fire signal inputs are provided. This is a case where a message output is performed for each input. Since a plurality of fire detectors 11 are connected to each of the detector lines 41 to 4n, the fire signals of those fire detectors 11 are output as one-shot outputs, and the fire detectors 11 that have output the fire signals once stop operating. By doing so, it is possible to receive fire signals from different fire detectors 11 via the sensor lines 41 to 4n, and to receive a plurality of fire signals for one sensor line 41 to 4n. Become a receiver. At this time, it is preferable that the one-shot output as the fire signal from the fire detector 11 is longer than the case of the transfer output from the sub receivers R1 to Rn. It must be considered to make sure that it is received first.
[0056]
Thus, in order to restore the system after a fire has occurred, the sub-receiver R1 and the main receiver Rm that have received the fire signal must be restored. Here, when the administrator operates the recovery switch SW2 of the operation unit 63 of the sub-receiver R1 to perform the recovery operation, it is determined that the operation input is recovery (S40, S43), and the sound is stopped. If it has been stopped (S44), if it is stopped, the fire information is released as the reset operation, the fire display of the display unit 64 is stopped (S45), and the acoustic stop line 31 from the reset output circuit 68 is obtained. A stop output is performed (S46). Although the stop output from the reset output circuit 68 is not described in detail, it is a one-shot output, and it is sufficient if it is detected by the reset input circuit 69 of the main receiver Rm.
[0057]
The sound stop by the reset output circuit 68 is performed when the fire information of the sub receivers R1 to Rn as the transfer source is restored with respect to the sound of the main receiver Rm due to the transfer from the sub receivers R1 to Rn. Nevertheless, if the main receiver Rm is sounding, it is useless, so that the sound of the main receiver Rm can be stopped simultaneously with the restoration operation of the sub-receivers R1 to Rn. It goes without saying that there is no problem even if the sound is stopped by operating the sound stop switch SW1 of the main receiver Rm in advance.
[0058]
When there is an input to the operation unit 63 other than the sound stop switch SW1 and the recovery switch SW2 as described above (S40, S47), processing corresponding to the input is performed (S48).
[0059]
The fire signal and the transmission output to the main receiver Rm generated by the above operation are individually stored in a memory (not shown) of the control unit 61 as the number of fire information. Such fire information is displayed on the display section 64 of the board of the fire receiver Rm. As an example, as shown in FIG. 3, the area window display section 91 for each fire area and various indicator lights are displayed. A combination of a status display unit 92 and a notification display unit 93, which are combinations, is also shown in the same manner as various switches as the operation unit 63.
[0060]
The district window display unit 91 has 16 windows in total in two rows, and all may be assigned to the fire district. However, in the main receiver Rm, for example, from the 1st to the 8th on the left side, the sensor line 4m A plurality of district names are clearly specified and assigned to the output lines 21 to 2n from the sub-receivers R1 to Rn from the 9th to the 16th on the right side. And about each line 4m or the output lines 21-2n, the presence or absence of a fire, interruption | blocking, and abnormality can be displayed by lighting of an indicator lamp.
[0061]
The status display unit 92 is a representative display, and is displayed by lighting (or blinking) a fire indicator lamp 94, a power lamp 95, an abnormal lamp 96, and the like.
[0062]
The notification display unit 93 can perform number display by so-called 7-segments at two locations, and the numbers displayed respectively are displayed as numbers corresponding to the window numbers of the district window display unit 91. The first report, which is the first report, is displayed on the left side of the number display, and the second report and subsequent reports on subsequent reports are displayed on the right side. As long as there is 3rd report, 4th report ... and fire information by the operation of a certain subsequent switch 99, the subsequent is displayed. This subsequent display is only after the second report, and the first report is fixed on the left side.
[0063]
For example, when there is a representative transfer from the sub-receiver R1, a fire has occurred on the first floor, and a fire indicator lamp corresponding to the ninth window is turned on in the district window display unit 91, and at the same time, a notification display unit 93 “09” is displayed on the left side of the first report (FIRST). Next, when there is an input corresponding to the first window as a fire signal from the sensor line 4m of the main receiver Rm, the fire indicator lamp corresponding to the first window is turned on in the district window display section 91. At the same time, “01” is displayed on the right side of the notification display section 93 after that (LAST). As described above, the number used for the notification display corresponds to the number of the district window.
[0064]
As the third report, when there is a subsequent representative message output from the sub-receiver R1, there is no change in the district window display unit 91, but when the subsequent switch 99 is operated, the right side of the notification display unit 93 is “ It changes from “01” to “09”. For example, when the fourth report is “10”, “09” is changed to “10” by the subsequent operation of the subsequent switch 99, and there is an operation of the subsequent switch 99. It will return, and will change from “10” to “01”.
[0065]
Thus, since the main receiver Rm can also receive subsequent messages as representative messages of the sub-receivers R1 to Rn, the number of reports can be counted for each area. In the main receiver Rm itself, the reporting lines of the sub-receivers R1 to Rn are unknown, but the information on the number of reports can be acquired from the sub-receivers R1 to Rn, and the second and third reports are available. If it is found that a plurality of such inputs are input, the information may be confirmed by going to the sub-receivers R1 to Rn.
[0066]
A similar fire signal detection operation may be performed in the sensor line. In the above description of the operation, for the representative message transfer from the sub receivers R1 to Rn to the main receiver Rm, the sub receivers R1 to Rn are connected to the sensor line 41. Since there are a plurality of fire signal inputs, a plurality of fire detectors 11 are provided in each of the sensor lines 41 to 4n. Since the fire signals of those fire detectors 11 are output as one-shot outputs, and the fire detectors 11 that once output the fire signals are stopped, the sensor lines 41 to 41 from different fire detectors 11 are stopped. The fire signal can be received through 4n, and a fire receiver can receive a plurality of fire signals for one sensor line 41 to 4n.
[0067]
【The invention's effect】
As described above, the present invention relates to a fire receiver serving as a sub-panel in a fire receiver serving as a main panel used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub-panel. From the machine After receiving the message output that lasted for the first time, cut the message output continuously for the second time To the message receiving unit, and to the message receiving unit The above-mentioned report output And a control unit that individually receives a representative message output, and can accurately capture a fire alarm each time a representative message output is generated.
[0069]
Further, the present invention provides a fire receiver which is a main panel used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel. A message receiving unit that receives the message output continuously for one time and then interrupts the message output for a second time; To the message receiving unit Report output Each when there are multiple Report output When the interval is less than the predetermined time interval, both are judged to have received one representative message output. And a control unit Therefore, it is possible to prevent the reception recognition of an erroneous representative message output due to noise or the like.
[0070]
The present invention also provides: When the fire detector is in a low impedance state of a substantially short circuit due to switching operation when a fire is detected, Receive fire signal For P type system In the fire receiver, After receiving a fire signal lasting for a first time from the fire detector, the fire signal is interrupted for a second time. A receiver, and said receiver to the receiver Fire signal And a control unit that individually receives a fire signal, so that a fire report can be accurately captured for each occurrence of a fire signal.
[0072]
In addition, the present invention provides a fire detector for a P-type system that receives a fire signal from the fire detector when the fire detector is in a low-impedance state with a short circuit caused by a switching operation when a fire is detected. After receiving a fire signal that lasted for a first time from the vessel, the fire signal was cut off for a second time. A receiving unit to The Said to the receiver Fire signal When there are multiple fire signals, when each fire signal is less than the predetermined time interval, both are judged to have received one fire signal And a control unit. Therefore, it is possible to prevent the reception of erroneous fire signals due to noise or the like.
[0073]
Still further, the present invention relates to a fire receiver used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel, or a fire signal from a plurality of fire detectors, or , Representative message output from the fire receiver as a sub-panel, a fire receiver that receives either, and when the fire signal is received as a sub-panel to the fire receiver, After executing the message output continuously for the first time, the message output is stopped for the second time continuously. To the fire output unit The above-mentioned report output And a control unit that individually receives a representative message output, and can accurately capture a fire alarm each time a representative message output is generated.
[0075]
Still further, the present invention relates to a fire receiver used in a fire alarm system in which a plurality of fire receivers are connected and one is used as a main panel and the other as a sub panel, or a fire signal from a plurality of fire detectors, or , Representative message output from the fire receiver as a sub-panel, fire receiving unit that receives either, and when the fire signal is received as a sub-panel to the fire receiving unit, the message is continuously output for the first time A message output unit that continuously stops the message output for a second time after executing To the fire receiver Report output Each when there are multiple Report output And a control unit that judges that both receive a single fire signal or representative message output when the interval is less than or equal to a predetermined time interval, preventing erroneous recognition of the representative message output due to noise, etc. can do.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of an entire fire alarm system using the present invention.
FIG. 2 is a schematic block diagram of a fire receiver used in FIG.
3 is an external view showing a display unit of the fire receiver shown in FIG. 2;
4 is a flowchart showing the operation of the fire receiver of FIG. 2. FIG.
FIG. 5 is an explanatory diagram showing the timing of representative message transmission and sound ringing.
[Explanation of symbols]
11 Fire detector
21 to 2n output line
41-4n, 4m sensor line
61 Control unit
62 Fire receiving circuit
67 Transfer output circuit
R1-Rn Sub-receiver
Rm main receiver

Claims (6)

In a fire receiver that is a main panel used in a fire alarm system in which multiple fire receivers are connected and one unit is used as a main panel and the other as a sub panel.
After receiving the first time continued transfer paper output from the fire receiver as the sub-panel, and Utsuriho receiver to block the transfer paper output continues second time, the transfer to該移report receiving unit fire receiver, characterized in that it comprises a control unit to receive the broadcast output individually representative transfer paper output, a. In a fire receiver that is a main panel used in a fire alarm system in which multiple fire receivers are connected and one unit is used as a main panel and the other as a sub panel.
After receiving the first time continued transfer paper output from the fire receiver as the sub-panel, and Utsuriho receiver to block the transfer paper output continues second time, the transfer to the Utsuriho receiver when the multicast output is more fire receivers among the transfer paper output is characterized in that it comprises a control unit which determines that reception of one representative transfer paper output both when more than a predetermined time interval. In a fire receiver for a P-type system that receives a fire signal from the fire detector when the fire detector is in a low-impedance state of a substantially short circuit due to a switching operation when a fire is detected ,
After receiving a fire signal that has continued for a first time from the fire detector, a receiving unit that continuously blocks the fire signal for a second time , and receiving the fire signal individually to the receiving unit A fire receiver, comprising: a control unit; In a fire receiver for a P-type system that receives a fire signal from the fire detector when the fire detector is in a low-impedance state of a substantially short circuit due to a switching operation when a fire is detected,
After receiving a fire signal that has continued for a first time from the fire detector, a receiving unit that continuously blocks the fire signal for a second time , and when there are a plurality of fire signals to the receiving unit, A fire receiver comprising: a control unit that determines that both fire signals are received when a fire signal is equal to or less than a predetermined time interval. In a fire receiver used in a fire alarm system in which multiple fire receivers are connected and one unit is used as a main panel and the other as a sub panel,
When receiving a fire signal from a plurality of fire detectors or a representative message output from a fire receiver as a sub-panel, and a fire panel as a sub-panel to the fire receiver. , Representatively representing the message output to the fire receiving unit and the message output unit that continuously stops the message output for the second time after executing the message output continuously for the first time A fire receiver comprising: a control unit configured to receive a transfer output. In a fire receiver used in a fire alarm system in which multiple fire receivers are connected and one unit is used as a main panel and the other as a sub panel,
When receiving a fire signal from a plurality of fire detectors or a representative message output from a fire receiver as a sub-panel, and a fire panel as a sub-panel to the fire receiver. When there are a plurality of message output to the fire receiving unit and a message output unit that continuously stops the message output for a second time after executing the message output continuously for the first time And a control unit that determines that both are received as one fire signal or representative message output when each message output is equal to or less than a predetermined time interval.

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