JP5548415B2 - Fire alarm - Google Patents

Description

  The present invention relates to a fire alarm device that detects a fire and issues an alarm when a physical quantity that causes a fire exceeds an allowable range.

  Conventionally, fire alarms that measure physical quantities that cause fire, such as heat, smoke, gas, etc., detect fires and issue alarms when the measured physical quantities exceed the permissible range, have been built, underground, or Widely used in general houses. Such a fire alarm may be triggered by false detection of a fire. In such a case, an administrator or the like confirms that there is no fire and performs a recovery operation to stop the alarm. .

  In addition, there is a fire alarm that automatically recovers by determining that the physical quantity that causes a fire has declined because there is a case where an error report is issued when there is no housekeeper in an ordinary general house without a manager. Proposed. In this way, as a fire alarm that automatically recovers, it is equipped with an up / down counter that counts up or down based on smoke density data measured at regular intervals, and when the count value by the up / down counter reaches the maximum value A smoke detector that issues an alarm and recovers from the alarm operation when the count value of the up / down counter reaches a minimum value after the alarm alarm operation has been proposed (see Patent Document 1).

JP 2004-062299 A

  The smoke detector of the cited document 1 is configured to be able to variably set the count width when counting up by an up / down counter in order to prevent erroneous detection of fire. However, the fire judgment level value to be compared with the smoke density data is always the same value from the start of counting up by the up / down counter until the fire is determined. Therefore, if the fire judgment level value is too low, there is a possibility of misdetection even if smoke other than fire occurs. Conversely, if the fire judgment level value is too high, Even if a fire occurs, it may not detect the fire. Therefore, since it is required to set the fire determination level value strictly, the setting of the optimum value of the fire determination level becomes complicated.

  In view of such a problem, an object of the present invention is to provide a fire alarm that can detect an actual fire more reliably and accurately determine the fire.

In order to achieve the above object, the fire alarm of the present invention is a fire alarm caused by a detection unit that measures a physical quantity that causes a fire, a notification unit that issues an alarm to the outside, and a physical quantity measured by the detection unit. And a control unit that causes the notification unit to issue an alarm when an alarm is detected, and when the physical quantity measured by the detection unit exceeds a notification threshold, the notification by the notification unit A first determination unit that notifies the control unit to start an operation, and a physical quantity measured by the detection unit has exceeded a determination threshold that is higher than the notification threshold after starting the notification operation by the notification unit A second determination unit for notifying the control unit of fire confirmation, wherein the second determination unit is configured to increase the elapsed time from the start of the notification operation by the notification unit. To determine the fire confirmation And line, after a fire confirmation, the when the amount is measured by the detection unit physical falls below the lower recovery threshold than alarm threshold, the alarm duration based on the elapsed time from the start of the alarm operation by the notification unit If the physical quantity measured by the detection unit does not exceed the recovery threshold until the alarm duration time elapses after that , the alarming operation by the notification unit is stopped and recovered. It is characterized by that.

At this time, the detection unit may measure the smoke amount, the gas amount, and the heat as the physical quantity .

According to the present invention, since the determination of fire is determined in the second determination unit after notifying the alarm by the first determination unit, it is ensured whether or not it is a real fire after the determination by the first determination unit. Can be judged. That is, the determination by the second determination unit can be made accurate by setting the fixed threshold value in the second determination unit to a value higher than the alert threshold value in the first determination unit.

These are block diagrams which show the internal structure of the fire alarm in the 1st Embodiment of this invention. These are the figures for demonstrating operation | movement of the fire alarm device in 1st Embodiment, and are figures which show the example of the time change of the amount of smoke when it becomes fire restoration after fire confirmation. These are block diagrams which show the internal structure of the fire alarm in the 2nd Embodiment of this invention. These are the figures for demonstrating the operation | movement of the fire alarm device in 2nd Embodiment, and are the figures which show the example of the time change of the amount of smoke when it becomes a fire restoration after a fire decision. These are the figures for demonstrating the operation | movement of the fire alarm device in 3rd Embodiment, and are the figures which show the example of the time change of the amount of smoke when it becomes fire restoration after a fire is decided. These are block diagrams which show the internal structure of the fire alarm in the 4th Embodiment of this invention. These are the figures for demonstrating operation | movement of the fire alarm device in 4th Embodiment, and are the figures which show the example of the time change of the amount of smoke when it becomes fire restoration after fire confirmation. These are the figures for demonstrating operation | movement of the fire alarm device in 5th Embodiment, and are the figures which show the relationship between a fixed threshold value and fire alerting | reporting time. These are the figures for demonstrating the operation | movement of the fire alarm device in 5th Embodiment, and the time change of the smoke amount when the determination of a fire decision is made, and the smoke amount when the decision of a fire decision is not made It is a figure which shows the time change of. These are the figures for demonstrating operation | movement of the fire alarm device in 6th Embodiment, and are the figures which show the example of the temporal change of the amount of smoke when it becomes fire confirmation.

<First Embodiment>
The fire alarm which becomes the 1st Embodiment of this invention is demonstrated below with reference to drawings. FIG. 1 is a block diagram showing the internal configuration of the fire alarm device of the present embodiment.

  As shown in FIG. 1, the fire alarm device 1 of the present embodiment includes a smoke amount detection unit 11 that measures the amount of smoke that becomes a fire factor, and an alarm notification based on the smoke amount measured by the smoke amount detection unit 11. A first determination unit 12 that determines whether or not the second smoke is necessary, a second determination unit 13 that determines fire confirmation after the alarm is triggered based on the smoke amount measured by the smoke amount detection unit 11, and the smoke amount detection unit 11 A third determination unit 14 that determines whether or not restoration is necessary after the fire is determined based on the measured smoke amount, and a control unit that controls the operation of the sounding body 17 according to the determination results of the first to third determination units 12 to 14. 15, a timer unit 16 that measures time, a sounding body 17 that issues an alarm, and an operation unit 18 that receives an operation from the outside.

1. Basic Operation In the fire alarm device 1 configured as described above, the smoke amount detection unit 11 is configured by a light receiving element and a light emitting element installed in a smoke chamber into which smoke flows from the outside. The smoke amount detector 11 emits light from the light emitting element to the smoke flowing into the smoke, and the received light amount when the light receiving element receives the scattered light generated by the smoke is defined as the smoke amount. The amount of received light corresponding to the amount of smoke is converted into an electrical signal and output to each of the first to third determination units 12 to 14. Further, the operation unit 18 allows the control unit 15 to stop the alarm issuing operation by the sounding body 17 by accepting an operation from the outside when the sounding body 17 is issuing the alarm. Give instructions to perform the recovery action.

  When an electric signal corresponding to the smoke amount measured by the smoke amount detection unit 11 is given, the first determination unit 12 compares the smoke output (smoke amount) based on this electric signal with the alarm threshold Th1, and generates an alarm. Determine whether the information is necessary. When the first determination unit 12 determines that the amount of smoke exceeds the notification threshold value Th1 and the warning is to be executed, the first determination unit 12 notifies the control unit 15 of the determination result, and the sound generator 17 generates a fire. A preliminary warning indicating the possibility of this is issued. When a preliminary warning is issued from the sounding body 17 based on the determination result of the first determination unit 12, the second determination unit 13 detects the smoke amount based on the electric signal from the smoke amount detection unit 11 and the notification threshold Th1. It is compared with a fixed threshold value Th2 that is a higher value, and it is determined whether or not a fire has actually occurred.

  When the second determination unit 13 confirms that the smoke amount exceeds the determination threshold Th <b> 2 by the electrical signal from the smoke amount detection unit 11, the second determination unit 13 determines to determine the occurrence of a fire, and determines the fire determination to the control unit 15. Notice. When the control unit 15 receives the notification of the fire determination from the second determination unit 13, the control unit 15 operates the sounding body 17 to issue the main notification indicating the fire determination. Further, after the fire is confirmed, the third determination unit 14 compares the smoke amount based on the electric signal from the smoke amount detection unit 11 with the recovery threshold Th3 that is lower than the notification threshold Th1, and issues an alarm notification of the sounding body 17. Determine whether to restore operation. When the third determination unit 14 confirms that the smoke amount has fallen below the recovery threshold Th <b> 3 based on the electrical signal from the smoke amount detection unit 11, the third determination unit 14 notifies the control unit 15 that the recovery operation is started.

  When the control unit 15 receives the notification of the start of the recovery operation from the third determination unit 14, the control unit 15 starts the time measuring operation by the timer unit 16. The control unit 15 determines that the determination result by the third determination unit 14 indicates that the smoke amount is equal to the recovery threshold Th3 until the fire alarm duration Ty1 has elapsed from the time measured by the timer unit 16. Check to see if it is below. If the amount of smoke exceeds the recovery threshold Th3 before the fire alarm duration time Ty1 elapses, the control unit 15 determines that the fire is in a confirmed state, resets the timer unit 16, and outputs the sounding body 17 This alarm recovery by is not executed. On the other hand, if the amount of smoke does not exceed the recovery threshold Th3 before the fire alarm duration time Ty1 elapses, the control unit 15 determines that there is no fire, resets the timer unit 16, and outputs the sounding body 17 Perform recovery of this alarm by. At this time, the sounding body 17 is controlled by the control unit 15 to stop the alarm issuing operation.

2. Setting of fire alarm duration time As described above, based on the determination result by each of the first to third determination units 12 to 14, alarm notification, fire confirmation, and fire recovery are notified to the control unit 15. Then, when the operation of the sound generator 17 is controlled, the length of the fire alarm continuation time is set based on the notification time of the determination result from each of the first to third determination units 12 to 14. The setting of the length of the fire alarm duration will be described below with reference to FIG. In addition, FIG. 2 is a figure which shows the example of the time change of the amount of smoke when it becomes fire restoration after fire confirmation.

  As shown in FIG. 2, when the amount of smoke exceeds the notification threshold Th1 at time T1, the first determination unit 12 notifies the control unit 15 of a fire alarm, and the sounding body 17 issues a preliminary alarm. I will inform you. At this time, the control unit 15 starts the time measuring operation by the timer unit 16 in order to measure the time since the preliminary alarm was issued. Thereafter, when the amount of smoke further increases and exceeds the determination threshold Th2 at time T2, the sound determination body 17 issues this warning because the second determination unit 13 notifies the control unit 15 of the fire determination. . After the fire is determined in this way, the third determination unit 14 compares the smoke amount with the recovery threshold Th3 to determine whether or not the fire needs to be recovered.

  Then, as shown in FIG. 2, at time T3 (= T1 + Tx1) when time Tx1 (fire notification time) has elapsed from time T1, the third determination unit 14 controls the control unit 15 when the smoke amount falls below the recovery threshold Th3. Will be notified of the start of fire recovery. At this time, the control unit 15 sets the length of the fire alarm continuation time Ty1 based on the fire reporting time Tx1 timed by the timer unit 16. Further, the control unit 15 resets the timer unit 16 and based on the determination result of the third determination unit 14 until the fire alarm duration time Ty1 elapses based on the time counted by the timer unit 16. Then, it is confirmed whether or not the smoke amount exceeds the recovery threshold Th3. At this time, if the smoke amount remains below the recovery threshold Th3 until the fire alarm duration time Ty1 elapses, the alarming by the sound generator 17 is stopped at time T4 (= T3 + Ty1). And fire recovery is carried out.

  The control unit 15 may set the fire alarm duration time Ty1 to, for example, a time K1 × Tx1 obtained by multiplying the fire alarm time Tx1 by a constant K1. That is, since the length of the fire alarm duration time Ty1 changes in proportion to the length of the fire alarm time Tx1, the fire alarm duration time Ty1 for determining the fire recovery as the fire alarm time Tx1 becomes longer. Becomes longer.

  As another method for setting the fire alarm duration time Ty1, for example, the control unit 15 may change the fire alarm duration time Ty1 stepwise in accordance with the length of the fire alarm time Tx1. That is, as an example, when the length of the fire reporting time Tx1 is 0 minute or more and less than 5 minutes, the length of the fire duration time Ty1 is set to 0 minutes, and the length of the fire reporting time Tx1 is If it is 5 minutes or more and less than 10 minutes, the length of the fire duration time Ty1 is set to 5 minutes. If the length of the fire alarm time Tx1 is 10 minutes or more, the length of the fire duration time Ty1 Is set to 20 minutes so that the length of the fire alarm continuation time Ty1 is increased stepwise according to the length of the fire alarm time Tx1. The number of stages for changing the length of the fire alarm duration time Ty1 and the length of time set by the fire alarm time Tx1 are not limited to this example.

  The fire alarm duration Ty1 is set according to the time from the notification time T1 of the fire notification by the first determination unit 12 to the notification time T3 of the start of the fire recovery by the third determination unit 14. It is good also as what is set by the time from notification time T2 of the fire confirmation by the determination part 13 to notification time T3 of the fire recovery start by the 3rd determination part 14. FIG.

<Second Embodiment>
The fire alarm which becomes the 2nd Embodiment of this invention is demonstrated below with reference to drawings. FIG. 3 is a block diagram showing an internal configuration of the fire alarm according to the present embodiment. In the configuration of the fire alarm shown in FIG. 3, parts used for the same purpose as those in the configuration of FIG.

  As shown in FIG. 3, the fire alarm device 1 of the present embodiment, in addition to the configuration of the first embodiment (see FIG. 1), the amount of smoke after the fire determination from the second determination unit 13 is notified. The maximum value detecting unit 19 for detecting the maximum value of is provided. Unlike the first embodiment, the fire alarm device 1 configured as described above uses an electrical signal from the smoke amount detection unit 11 after the fire is determined by the determination result of the second determination unit 13 in the maximum value detection unit 19. Based on this, the maximum smoke amount is detected. And the control part 15 sets the length of the fire alarm continuation time Ty1 after the recovery operation start by the determination result of the 3rd determination part 14 based on the maximum value of the smoke amount detected by the maximum value detection part 19 . Since other configurations and operations are the same as those of the fire alarm device of the first embodiment, the maximum smoke amount detection operation by the maximum value detection unit 19 and the maximum smoke amount value by the control unit 15 are used. The setting operation of the fire alarm duration time Ty1 will be described in detail below.

1. Detection of Maximum Value As in the first embodiment, when the smoke amount measured by the smoke amount detection unit 11 exceeds the notification threshold Th1, the control unit 15 receives a notification from the first determination unit 12, and the sounding body 17 Issues a preliminary warning, and thereafter, when the smoke amount further exceeds the fixed threshold Th2, the control unit 15 receives a notification from the second determination unit 13, and the sounding body 17 issues this warning. At this time, the control unit 15 instructs the maximum value detection unit 19 to execute detection of the maximum value, and the maximum value detection unit 19 determines the maximum smoke amount measured by the smoke amount detection unit 11. Detect value.

  The maximum value detection unit 19 receives the measurement result of the smoke amount detection unit 11 at a predetermined interval (sampling timing), and stores the smoke amount stored as the maximum value and the newly notified smoke amount from the smoke amount detection unit 11 Compare the amount. Then, when the newly notified smoke amount is large according to the comparison result, the maximum value detecting unit 19 updates and stores the maximum smoke amount to the newly notified smoke amount. When the maximum value detection unit 19 operates in this way, the maximum value detection unit 19 always stores the smoke amount that is the maximum value every time the measurement result is notified from the smoke amount detection unit 11 after the fire is determined. To do.

  Thereafter, when the smoke amount measured by the smoke amount detection unit 11 decreases and the smoke amount falls below the recovery threshold Th3, the third determination unit 14 notifies the control unit 15. Thereby, the control unit 15 obtains a notification of the maximum value of the smoke amount detected and stored by the maximum value detection unit 19 from the maximum value detection unit 19 in order to recognize the start of the recovery operation. That is, when the third determination unit 14 notifies the control unit 15 that the smoke amount has fallen below the recovery threshold Th3, the maximum value detection unit 19 notifies the control unit 15 of the maximum value of the stored smoke amount. Thereby, the maximum value of the smoke amount in the period from when the smoke amount exceeds the fixed threshold value Th2 to below the recovery threshold value Th3 is detected by the maximum value detection unit 19 and notified to the control unit 15. .

2. Setting of fire alarm duration time In the same manner as in the first embodiment, based on the determination results by the first to third determination units 12 to 14, each of alarm notification, fire confirmation, and fire recovery is controlled by the control unit. 15, when the operation of the sound generator 17 is controlled, the length of the fire alarm duration Ty <b> 1 is set based on the maximum value of the smoke amount detected by the maximum value detection unit 19. The setting of the length of the fire alarm duration time Ty1 will be described below with reference to FIG. In addition, FIG. 4 is a figure which shows the example of the temporal change of the amount of smoke when it becomes a fire restoration after a fire is decided.

  As shown in FIG. 4, at time T <b> 1, when the amount of smoke exceeds the notification threshold Th <b> 1, the sounding body 17 issues a preliminary alarm by the notification of the first determination unit 12. Thereafter, when the amount of smoke further increases and exceeds the fixed threshold Th2 at time T2, the sounding body 17 issues this warning by the notification of the second determination unit 13, and the maximum value detection unit 19 detects the amount of smoke. Start detecting the maximum value of. Then, as shown in FIG. 4, when the smoke amount falls below the recovery threshold Th3 at time T3, the third determination unit 14 notifies the control unit 15 of the start of fire recovery. The control unit 15 is notified of the detected maximum smoke amount value Dmax.

  At this time, the control unit 15 sets the length of the fire alarm continuation time Ty1 based on the maximum smoke amount value Dmax detected by the maximum value detection unit 19. Further, the control unit 15 starts the time counting operation by the timer unit 16 and, as in the first embodiment, smoke is generated based on the determination result of the third determination unit 14 until the fire alarm duration time Ty1 elapses. It is confirmed whether or not the amount exceeds the recovery threshold Th3. If the smoke amount remains below the recovery threshold Th3 until the fire alarm duration time Ty1 elapses, the alarm 17 by the sounding body 17 is stopped at time T4 (= T3 + Ty1). Fire recovery.

  The controller 15 may set the fire alarm duration time Ty1 as, for example, a time K2 × Dmax obtained by multiplying the maximum smoke amount value Dmax by a constant K2. That is, since the length of the fire alarm duration Ty1 changes in proportion to the value of the maximum smoke amount Dmax, the fire alarm duration for determining the fire recovery as the maximum smoke amount Dmax increases. Ty1 becomes longer.

  As another setting method of the fire alarm duration time Ty1, for example, the control unit 15 may change the fire alarm duration time Ty1 stepwise in accordance with the value of the maximum smoke amount Dmax. That is, as an example, when the maximum value Dmax of the smoke amount is equal to or greater than Th2 and less than D1 (D1> Th2), the length of the fire duration time Ty1 is set to 0 minutes, and the maximum smoke amount value Dmax is set. When the value is greater than or equal to D1 and less than D2, the length of the fire duration Ty1 is set to 5 minutes, and when the maximum smoke amount value Dmax is greater than or equal to D2, the length of the fire duration Ty1 Is set to 20 minutes so that the length of the fire alarm duration Ty1 is increased stepwise in accordance with the value of the maximum smoke amount Dmax. The number of stages for changing the length of the fire alarm duration Ty1 and the length of time set by the value of the maximum smoke amount Dmax are not limited to this example.

  In the first and second embodiments, each of the fire alarm time Tx1 and the fire alarm continuation time Ty1 is measured by the timer unit 16, but instead of the timer unit 16, the amount of smoke is measured. The timing of measuring the smoke amount in the detection unit 11 may be counted, and each of the fire alarm time Tx1 and the fire alarm duration time Ty1 may be timed. That is, each of the fire alarm time Tx1 and the fire alarm duration time Ty1 may be measured by the number of counts (count number) of the measurement timing.

<Third Embodiment>
The fire alarm which becomes the 3rd Embodiment of this invention is demonstrated below with reference to drawings. In addition, the fire alarm device of this embodiment becomes a structure shown in FIG. 3 similarly to the fire alarm device in 2nd Embodiment.

  Unlike the fire alarm device of the second embodiment, the fire alarm device 1 of this embodiment is based on the maximum smoke amount detected by the maximum value detector 19 and the smoke amount detected by the smoke detector 11. By changing the recovery threshold Th3 in the third determination unit 14 to be compared with, the fire alarm duration Ty2 (see FIG. 5) from when the smoke is attenuated after the fire is confirmed to fall below the alarm threshold Th1 until recovery is made variable It can be done with a long time. Other configurations and operations of the fire alarm device 1 are the same as those of the fire alarm device of the second embodiment.

  That is, the fire alarm device 1 according to the present embodiment, when the smoke amount exceeds the determination threshold Th2 and the second determination unit 13 notifies the control unit 15 of the fire determination, similarly to the second embodiment, the maximum value detection unit. The detection of the maximum smoke amount by 19 is started. Thereafter, when the smoke amount falls below the reporting threshold value Th1, the first determination unit 12 notifies the control unit 15 that the smoke amount has fallen below the reporting threshold value Th1. Thereby, the control unit 15 confirms the maximum value of the detected smoke amount with respect to the maximum value detection unit 19, and based on the maximum value of the smoke amount, the recovery threshold Th3 used by the third determination unit 14 Set. Therefore, hereinafter, the setting operation of the restoration threshold Th3 by the fire alarm device 1 of this embodiment will be described in detail. In addition, FIG. 5 is a figure which shows the example of the time change of the amount of smoke when it becomes a fire restoration after a fire decision.

1. Recovery threshold setting At each of the times T1 and T2, based on the determination results by the first and second determination units 12 and 13, respectively, the alarm notification and the fire confirmation are notified to the control unit 15 and the sounding body. 17 issuance operations are controlled. Then, the maximum value of the smoke amount is detected by the maximum value detection unit 19 until the first determination unit 12 notifies that the smoke amount has fallen below the alarm threshold Th1 after the second determination unit 13 notifies the fire confirmation. Is detected. As a result, when the control unit 15 receives a notification that the smoke amount has fallen below the alarm threshold Th1 from the first determination unit 12 at time T5, the maximum smoke amount value Dmax detected by the maximum value detection unit 19 is detected. Based on the above, the value of the recovery threshold Th3 is set. Then, the third determination unit 14 compares the smoke amount measured by the smoke amount detection unit 11 with the recovery threshold value Th3 set by the control unit 15, and confirms at time T6 that the value is below the recovery threshold value Th3. The control unit 15 is notified that the amount of smoke has fallen below the recovery threshold Th3. Therefore, the control unit 15 stops alarming by the sound generator 17 and performs fire recovery.

The controller 15 may set the restoration threshold Th3 to a value that continuously changes with respect to the maximum smoke amount Dmax, for example. At this time, the control unit 15 sets the recovery threshold Th3 so that the recovery threshold Th3 for performing the fire recovery determination becomes smaller as the maximum smoke amount Dmax increases. For example, when the output of the smoke amount detection unit 11 in the smokeless state becomes Th0, the restoration threshold Th3 may be set by the following equation (1). In the following equation (1), K3 is a constant.
Th3 = K3 × (Th1-Th0) / Dmax + Th0 (1)

  As another method for setting the recovery threshold Th3, for example, the control unit 15 may change the recovery threshold Th3 stepwise in accordance with the maximum smoke amount value Dmax. That is, as an example, when the maximum smoke amount value Dmax is equal to or greater than Th2 and less than D1 (D1> Th2), the recovery threshold value Th3 is set to Th3a (Th3a <Th1), and the maximum smoke amount is set. When the value of Dmax is greater than or equal to D1 and less than D2, the value of the restoration threshold Th3 is set to Th3b (Th3b <Th3a), and when the value of the maximum smoke amount Dmax is greater than or equal to D2, the restoration threshold Th3 Is set to Th3c (Th3c <Th3b), the value of the recovery threshold Th3 is set so as to decrease stepwise according to the value of the maximum smoke amount Dmax. The number of steps for changing the restoration threshold Th3 and the magnitude of the value set by the maximum smoke amount value Dmax are not limited to this example.

<Fourth Embodiment>
A fire alarm device according to a fourth embodiment of the present invention will be described below with reference to the drawings. FIG. 6 is a block diagram showing the internal configuration of the fire alarm device of the present embodiment. In the configuration of the fire alarm shown in FIG. 6, parts used for the same purpose as those in the configuration of FIG.

  The fire alarm device 1 of the present embodiment includes a thermistor or a thermocouple that measures heat (temperature), which is one of the fire factors, in addition to the configuration of the first embodiment (see FIG. 1). 20 is provided. Unlike the first embodiment, the fire alarm device 1 configured as described above receives an electric signal representing heat detected by the heat detection unit 20 in the second determination unit 13 and compares it with a fixed threshold Th4. The fire is determined. The third determination unit 14 has a recovery threshold Th5 that is compared with the heat measured by the heat detection unit 20, in addition to the recovery threshold Th3 that is compared with the smoke amount measured by the smoke amount detection unit 11. The third determination unit 14 then performs a recovery operation to stop the sounding operation of the sounding body 17 when the measured smoke amount is below the recovery threshold Th3 and the measured heat is below the recovery threshold Th5. Notify the controller 15 to do so.

  Details of the operation of the fire alarm 1 having such a configuration will be described in detail below. In addition, FIG. 7 is a figure which shows the example of a temporal change of the smoke amount and heat | fever when a fire is restored after a fire is confirmed, the solid line in a figure represents the change of smoke amount, and the dotted line in a figure is heat. Represents change.

  As shown in FIG. 7, as in the first embodiment, when the smoke amount detected by the smoke amount detection unit 11 exceeds the notification threshold Th1 at time T1, the sounding body is notified by the notification of the first determination unit 12. 17 issues a preliminary alarm. Thereafter, the temperature of the room rises behind the generation of smoke, and at time T7, when the heat detected by the heat detection unit 20 exceeds the fixed threshold Th4, the second determination unit 13 actually caused a fire. It determines with a thing and notifies a fire decision with respect to the control part 15. FIG. The control unit 15 that has received the notification of the fire determination from the second determination unit 13 controls the sounding body 17 to issue this alarm.

  In this way, after the smoke amount exceeds the notification threshold Th1, the heat exceeds the determination threshold Th4 and the fire is determined, and then the generated smoke amount attenuates as shown in FIG. In T3, when it falls below the recovery threshold Th3, the third determination unit 14 recognizes that the smoke amount has fallen below the recovery threshold Th3. At this time, since the room temperature is high, the third determination unit 14 does not notify the control unit 15 of the fire recovery because the heat measured by the heat detection unit 20 is higher than the recovery threshold Th5. After that, when the room temperature decreased and at time T8, the third determination unit 14 confirmed that the heat measured by the heat detection unit 20 was below the recovery threshold Th5, the measurement was performed by the smoke amount detection unit 11. Since the smoke amount is also below the recovery threshold Th3, the third determination unit 14 notifies the control unit 15 of the fire recovery. Therefore, the control unit 15 stops alarming by the sound generator 17 and performs fire recovery.

  In the present embodiment, when both the smoke amount and the heat are below the respective restoration thresholds, the third determination unit 14 notifies the control unit 15 of the fire restoration and causes the fire restoration to be executed. However, for example, as in the first embodiment, the fire recovery may be performed when the fire duration time Ty1 elapses after the smoke amount falls below the recovery threshold. At this time, the fire duration time Ty1 may be set by the fire reporting time Tx1 as in the first embodiment, and the maximum value detection unit 19 is provided as in the second embodiment, and the maximum It may be set by the maximum smoke amount Dmax detected by the value detector 19. Alternatively, the maximum value detection unit 19 may detect the maximum value of heat detected by the heat detection unit 20, and the fire duration time Ty1 may be set based on the maximum value of heat.

  Further, when the maximum value detection unit 19 is configured, the smoke amount recovery threshold is set by the maximum smoke amount value Dmax detected by the maximum value detection unit 19 as in the third embodiment. At the same time, when the amount of smoke falls below the recovery threshold, fire recovery may be performed. In the present embodiment, the maximum value detection unit 19 detects the maximum value of heat detected by the heat detection unit 20, and the heat recovery threshold is set by the maximum value of heat. Fire recovery in may be performed.

<Fifth Embodiment>
A fire alarm device according to a fifth embodiment of the present invention will be described below with reference to the drawings. In addition, the fire alarm device of this embodiment becomes a structure shown in FIG. 1 similarly to the fire alarm device in 1st Embodiment.

  Unlike the fire alarm device of the first embodiment, the fire alarm device 1 of the present embodiment has been confirmed that the second determination unit 13 has detected that the smoke amount has exceeded the notification threshold Th1 by the first determination unit 12. The final threshold Th2 to be compared with the amount of smoke is lowered stepwise or continuously in accordance with the elapsed time later. Since other configurations and operations are the same as those in the first embodiment, detailed description thereof will be omitted. In the present embodiment, an example in which the fixed threshold Th2 is lowered stepwise according to the elapsed time will be described below with reference to FIG. FIG. 8 shows a fire alarm time Tx1 that is an elapsed time after the first determination unit 12 notifies the fire alarm, and a value of the determination threshold Th2 for determining the fire determination in the second determination unit 13 It is a figure which shows the relationship.

  Each time the fire alarm time Tx1 becomes longer, the final threshold Th2 becomes lower stepwise as Th2a, Th2b, Th2c (Th2a> Th2b> Th2c> Th1). Note that the number of steps for changing the fixed threshold Th2 and the magnitude of the value set by the length of the fire alarm time Tx1 are not limited to the example of FIG. Further, as the fire reporting time Tx1 elapses, the fixed threshold value Th2 may be changed so as to continuously decrease from the value Th2a to the value Th2c.

  In the example of FIG. 8, when the determination unit 12 confirms that the first smoke amount has exceeded the notification threshold Th1 and the sounding body 17 issues a preliminary alarm, the second determination unit 13 sets the value of the confirmation threshold Th2. Is set to Th2a and compared with the smoke amount measured by the smoke amount detection unit 11 to determine fire confirmation. If the smoke amount does not exceed the set value Th2a of the fixed threshold Th2 during the time Tx1a after the first determination unit 12 notifies the fire report, the second determination unit 13 The value of Th2 is switched to Th2b, and the smoke amounts are compared. Furthermore, when the smoke amount does not exceed the set value Th2b of the fixed threshold Th2 during the time Tx1b after the set value of the fixed threshold Th2 is switched from Th2a to Th2b, the second determination unit 13 The value of Th2 is switched to Th2c, and the smoke amounts are compared.

  In the case of a fire in which black smoke is generated in a short time, as shown by the solid line in FIG. 9, even if the smoke amount exceeds the reporting threshold Th1 by the first determination unit 12, the initial value Th2a of the determination threshold Th2 is not reached. Sometimes. Therefore, as shown in the example of FIG. 9, the second determination unit 13 determines the fixed threshold Th <b> 2 by reducing the fixed threshold Th <b> 2 according to the length of the fire reporting time Tx <b> 1 as in the present embodiment. After switching the value of the threshold Th2 to Th2b, it is possible to notify the fire confirmation in order to confirm that the smoke amount has exceeded the value Th2b. Furthermore, when the amount of smoke becomes a value between the value Th1 and the value Th2c, such as a situation in which tobacco smoke is prevalent in the room (the state indicated by the dotted line in FIG. 9), the second determination unit 13 Since there is no determination of fire confirmation, false detection of fire is prevented.

<Sixth Embodiment>
A fire alarm device according to a sixth embodiment of the present invention will be described below with reference to the drawings. In addition, the fire alarm device of this embodiment becomes a structure shown in FIG. 1 similarly to the fire alarm device in 1st Embodiment.

  Unlike the fire alarm device of the first embodiment, the fire alarm device 1 of the present embodiment has been confirmed that the second determination unit 13 has detected that the smoke amount has exceeded the notification threshold Th1 by the first determination unit 12. An integrated value (hereinafter referred to as “smoke amount integrated value”) obtained by integrating the smoke amount measured by the smoke detector 11 on the time axis is compared with a definite threshold value Th6, and the smoke amount integrated value is determined as the definite threshold value Th6. Is exceeded, a fire decision is made and notified to the control unit 15. Since other configurations and operations are the same as those in the first embodiment, detailed description thereof will be omitted. With reference to FIG. 10, the determination operation of the fire determination by the second determination unit 13 in the present embodiment will be described below. FIG. 10 is a diagram illustrating an example of temporal changes in smoke amount and heat when a fire is determined.

  As shown in FIG. 10, as in the first embodiment, when the smoke amount detected by the smoke amount detection unit 11 exceeds the notification threshold Th1 at time T1, the sounding body is notified by the notification of the first determination unit 12. 17 issues a preliminary alarm. As described above, when the first determination unit 12 notifies the fire alert, the second determination unit 13 detects the smoke amount detected by the smoke amount detection unit 11 based on the electrical signal given from the smoke amount detection unit 11 at each measurement timing. Is integrated on the time axis to calculate the integrated smoke amount. At this time, each time an electrical signal is sent from the smoke amount detection unit 11 to the second determination unit 13, the smoke amount based on the electrical signal may be added to calculate the integrated smoke amount. Then, the second determination unit 13 compares the calculated smoke amount integrated value with the determination threshold Th6, and when the smoke amount integrated value exceeds the determination threshold Th6, determines the fire determination and notifies the control unit 15 To do.

  The second determination unit 13 determines the fire determination when the smoke amount integrated value does not exceed the determination threshold Th6 before the predetermined time elapses from the notification by the first determination unit 12. It may not be. Moreover, the 2nd determination part 13 is good also as a thing which does not determine fire determination, when the smoke amount measured by the smoke amount detection part 11 is less than the alerting threshold value Th1. By doing in this way, the misdetection of the fire by the 2nd determination part 13 is prevented. Further, the second determination unit 13 may calculate the smoke amount integrated value by a value obtained by subtracting the notification threshold value Th1 from the smoke amount detected by the smoke amount detection unit 11. Thereby, since the 2nd determination part 13 integrates the smoke amount which exceeded alerting threshold value Th1, and determines determination of fire, it can determine a real fire reliably.

  In the fifth and sixth embodiments, as in the fourth embodiment, the fire alarm device 1 includes the heat detection unit 20, and in the second determination unit 13, the heat detected by the heat detection unit 20, It is good also as what determines fire confirmation. At this time, in 5th Embodiment, in the 2nd determination part 13, the value of the decision threshold value compared with the heat detection part 20 is reduced whenever the fire alerting time Tx1 becomes long. In the sixth embodiment, the second determination unit 13 integrates the heat detected by the heat detection unit 20 with time, and compares it with a determination threshold value to determine the fire determination. Furthermore, in the fifth and sixth embodiments, the fire recovery determination operation in the third determination unit 15 may be the same as the recovery operation in the second to fourth embodiments.

  In the first to third embodiments described above, each of the first to third determination units 12 to 14 performs a determination operation based on the smoke amount measured by the smoke amount detection unit 11. However, instead of the smoke amount detection unit 11, a gas amount detection unit that measures the amount of gas generated by a fire is provided, and based on the gas amount measured by the gas amount detection unit, the first to first Each of the 3rd determination parts 12-14 is good also as what performs determination operation | movement. Also in the fourth embodiment, instead of the smoke amount detection unit 11, a gas amount detection unit that measures the amount of gas generated by a fire is provided, and based on the gas amount measured by this gas amount detection unit, Each of the first and third determination units 12 and 14 may execute a determination operation. Furthermore, in 1st-3rd embodiment, it is set as the structure which provided the heat detection part 20 in 4th Embodiment instead of the smoke detection part 11, and based on the heat measured with the heat detection part 20, 1st -Each of the 3rd determination parts 12-14 is good also as what performs determination operation | movement.

DESCRIPTION OF SYMBOLS 1 Fire alarm 11 Smoke amount detection part 12 1st determination part 13 2nd determination part 14 3rd determination part 15 Control part 16 Timer part 17 Sounding body 18 Operation part 19 Maximum value detection part 20 Heat detection part

Claims (2)

A detection unit that measures a physical quantity that causes a fire, a notification unit that issues an alarm to the outside, and a control unit that causes the notification unit to issue an alarm when a fire occurrence is detected by the physical quantity measured by the detection unit In a fire alarm equipped with
A first determination unit that notifies the control unit to start a reporting operation when the physical quantity measured by the detection unit exceeds a reporting threshold;
A second determination unit for notifying the control unit of fire confirmation when a physical quantity measured by the detection unit exceeds a determination threshold value higher than the notification threshold value after starting the notification operation by the notification unit;
Further comprising
The second determination unit performs a determination of fire determination by lowering the determination threshold for an elapsed time from the start of a notification operation by the notification unit,
After the fire is confirmed, when the physical quantity measured by the detection unit falls below a recovery threshold that is lower than the notification threshold , an alarm duration is set based on the passage of time from the start of the notification operation by the notification unit. When the physical quantity measured by the detection unit does not exceed the recovery threshold until the alarm continuation time elapses thereafter , the alarming operation by the notification unit is stopped and recovered. Fire alarm. In claim 1,
The said detection part measures any of smoke amount, gas amount, and heat as said physical quantity, The fire alarm device characterized by the above-mentioned.

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