JP2011028518A - Fire alarm - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire alarm which can significantly reduce periodic check work performed manually by a user. <P>SOLUTION: A fire alarm outputting a voice alarm from a speaker 42 when detecting a fire includes a timer 30 measuring a predetermined time period (for example, 30 days) from power-on to a date for the periodic check of the fire alarm. After the timer 30 has completed the time measurement of 30 days, and when the fire alarm operates normally, the fire alarm causes an alarm sound output section (4, 41, 42) for outputting a fire alarm sound and causes a voice input section 7 to collect the fire alarm sound, thereby determining whether or not the fire alarm sound is output with a sound pressure whose level is equal to or greater than a predetermined sound pressure level. Accordingly, the fire alarm automatically performs a periodic check thereof. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a fire alarm having a function of performing periodic inspection of alarm sound output.

  Conventionally, a residential fire alarm device having a speaker and an alarm stop switch as shown in Patent Document 1 is known, and this fire alarm device includes a self-diagnosis of a sensor unit that detects smoke or heat. Abnormality monitoring is performed, and when the abnormality monitoring is abnormal, a voice indicating that it is abnormal (sound alarm) is output from the speaker.

  In addition, there are two types of fire alarms: battery-powered and AC-powered. Battery-powered fire alarms are equipped with battery voltage drop detection and battery voltage drop alarm (battery low alarm) functions. (Patent Document 2).

JP 2009-48590 A JP 2005-44317 A

  As described above, the fire alarm is equipped with various inspection functions and alarm functions, and alarm means that allows the user to recognize these monitoring result information when a fire is detected or when a failure occurs. Is used for notification. However, conventionally, the fire alarm is configured not to notify the user at all during normal monitoring.

  By the way, in the configuration of the fire alarm as described above, in the unlikely event that the fire alarm completely fails for some reason, or when the fire alarm is in the absence of the user, the battery voltage drop alarm (battery If the battery runs out and the function stops completely without being able to recognize the alarm, the fire alarm cannot detect the alarm even if a fire occurs. .

  Therefore, in order to avoid such a situation, in the instruction manual of the fire alarm device or the product description at the time of sale, the fire alarm device can normally output a warning to the user by the user's own manual operation. It is recommended to check regularly whether or not.

  In addition, as an example of checking whether the fire alarm can normally output an alarm by the user's own manual operation, "when the fire alarm is installed for the first time", "when the battery is replaced" , “When dirt is cleaned”, “when the installation location is changed”, “when failure or battery is suspected”, “when there is a long absence (3 days or more)”, and the like.

In general, tests are also performed on the fire detection part of the fire alarm, power supply voltage, etc. by operating the inspection switch during regular inspections (or notification of normality or abnormality by referring to the history of automatic test results) ).
In general, the periodic inspection switch is configured to be switch-operable by a button pressing operation and / or a drawstring operation, and also has an alarm stop function.

However, the fire alarm and this periodic inspection are not related to daily life for many users and are unfamiliar, so the user may forget the periodic inspection.
Moreover, since the fire alarm is installed at a high place, the inspection act is troublesome or difficult to work, and may be avoided.

  Therefore, an object of this invention is to provide the fire alarm which can reduce the regular inspection work which a user performs significantly.

  In order to achieve the above object, the invention described in claim 1 includes a power supply unit, a timer unit that measures a predetermined time, a fire detection unit that detects a fire, an alarm sound output unit that emits an alarm sound, and the fire In the fire alarm including a control unit that activates the alarm sound output unit according to a detection signal of the detection unit and a sound receiving unit that picks up sound around the fire alarm device, the timer unit has a periodic inspection time from power-on. Measures a predetermined time until arrival, and outputs a warning sound by operating the warning sound output unit after the predetermined time is measured and in a normal monitoring state, and the sound receiving unit has a sound pressure level equal to or higher than a predetermined level. When the ambient sound is input, the timer starts measuring a predetermined time.

  In order to achieve the above object, according to a second aspect of the present invention, in the fire alarm device according to the first aspect, the ambient sound input from the sound receiving unit is extracted, and the ambient sound is alarmed. An alarm sound analysis unit for analyzing whether or not the sound has a characteristic, and after the predetermined time counting by the timer is completed and in a normal monitoring state, the alarm sound output unit is operated to output an alarm sound, and the sound reception When the alarm sound analysis unit analyzes that the ambient sound is a sound having information characteristic of the alarm sound, and the ambient sound having a volume of a predetermined level or higher is input. It is characterized by starting.

  In order to achieve the above object, a third aspect of the present invention is the fire alarm device according to the first or second aspect, further comprising an inspection switch, wherein the inspection is performed while the timer is measuring and in a normal monitoring state. When the switch input is received, the alarm sound output unit is activated, and then the timer is reset to start measuring a predetermined time.

  In order to achieve the above object, the invention according to claim 4 is the fire alarm device according to claim 1 or 2, further comprising an operation display unit or / and a transfer output unit, wherein the timer unit includes: Timed for a predetermined time from power-on to the arrival of the periodic inspection time, and after the completion of the predetermined time and in the normal monitoring state, the alarm sound output unit is operated to output an alarm sound, and the sound receiving unit is When an ambient sound having a sound pressure level lower than the predetermined level is input, the operation display unit and / or the transfer output unit are operated to notify an alarm sound output abnormality.

  In order to achieve the above object, the invention according to claim 5 is the fire alarm according to claims 1 to 4, further comprising an automatic periodic inspection function ON / OFF setting section. .

Even if the user neglects the periodic inspection by the fire alarm having the periodic inspection function of the present invention, the fire alarm itself can perform the periodic inspection.
Further, in other cases except “when the user is away for a long time (3 days or more)”, the user hardly needs to perform periodic inspections.

FIG. 1 is a diagram showing an example of the appearance of a fire alarm device according to the present invention. FIG. 2 is a diagram showing a configuration example of a fire alarm device according to the present invention. FIG. 3 is a flowchart showing a periodic inspection operation of the fire alarm according to the present invention.

  Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings. In the embodiment of the present invention, normal monitoring (normal monitoring state) is a state in which each function of the fire alarm is operating normally, and includes a fire detection alarm, a power supply voltage drop alarm (battery low alarm) ), A state where no failure alarm is given, or a state where there is no history information such as a fire detection, a power supply voltage drop detection (battery detection), or a failure detection in the storage unit of the fire alarm.

  FIG. 1 is a diagram showing an example of the appearance of a fire alarm device 1 according to the present invention. Moreover, FIG. 2 is a figure which shows the example of 1 structure of the fire alarm device based on this invention. FIG. 3 is a flowchart showing a periodic inspection operation of the fire alarm according to the present invention.

  First, referring to FIG. 2, a fire alarm device 1 of the present invention includes a power supply unit (for example, a 6V battery) 100, a microcomputer 2 (hereinafter referred to as a microcomputer 2) for controlling the whole, and a fire detection unit (sensor). Part) 3, a voice alarm part (speech synthesizer) 4 for performing a warning by voice, a setting input part 5 for inputting ON / OFF selection setting to the microcomputer 2, an inspection input part 8, and a display part 6 (operation display) A lamp 6), a voice input unit 7, and a message output unit 11.

The voice alarm unit (voice synthesis unit) 4 is connected to a speaker 41 that outputs a voice alarm and an alarm stop switch 42 for stopping the voice alarm. Therefore, the alarm sound output unit of the present invention is the voice alarm unit (voice synthesis unit) 4, the speaker 41, and the alarm stop switch 42.
Further, the setting input unit 5 is connected to an ON / OFF selection setting switch 52 for selecting ON / OFF the periodic inspection function by the fire alarm device of the present invention.
An inspection switch 82 is connected to the inspection input unit 8.

Referring to FIG. 1, an operation indicator lamp 6 (display unit 6) is provided at the top of the fire alarm 1, and an acoustic stop button is provided at a position where a user (user) of the fire alarm 1 can easily operate. 9 is provided. An acoustic hole 43 for outputting sound is provided on the opposite side across the acoustic stop button 9 and the operation indicator lamp 6.
That is, the alarm stop switch 42 is turned on by a pressing operation of the alarm stop button 9 or a drawstring operation (not shown).
In addition, the sound stop button 9 and the sound hole 43 on which the sound stop button 9 and the sound hole 43 are arranged are arranged in the middle of the sound stop button 9 and the sound hole 43 to receive ambient sounds around the fire alarm 1. A sound hole 73 is provided.

  In general, the alarm stop button 9 also serves as the alarm stop switch 42 and the inspection switch 82. Depending on the mode of the push operation, the control mode of the microcomputer 2, etc. It is identified whether the input is an input of the alarm stop switch 42 or an input of the inspection switch 82.

  Here, the microcomputer 2 described above is provided with a control unit 10, a storage unit 20, and a timer unit 30, and the control unit 10 monitors a voltage of a power supply unit (for example, a 6V battery) 100. 13, an input determination unit 15 that determines what is input from the test control unit 14, the setting input unit 5, or what is input from the inspection input unit 8, and an operation indicator lamp 6 (display unit 6). ) And a warning sound analyzer 18 that compares the sound pressure level of the received ambient sound with a reference value and analyzes the ambient sound. The storage unit 20 also includes a fire detection flag 21, a failure flag 22 that detects a circuit failure such as a disconnection, and the voltage of the battery (power supply unit 100) having become a predetermined voltage value or less, for example, 5 V or less. A voltage drop detection flag 23 that is set when it is detected, a periodic inspection notification flag 24, a pattern memory PM25 that stores a characteristic frequency spectrum pattern and a waveform pattern of a fire alarm sound emitted by a fire alarm, and the like. Information regarding various control processes is stored.

  Further, the ON / OFF selection setting switch 52 preferably also serves as the alarm stop button 9 and has a different operation mode (for example, an operation mode in which the length of time for pressing the alarm stop button 9 is different), It is preferable to select between the case where it functions as the alarm stop switch 42 and the case where it functions as the ON / OFF selection setting switch 52 of the automatic periodic inspection function by the fire alarm. It should be noted that the ON / OFF selection setting switch 52 makes it possible to easily perform ON / OFF selection setting for whether or not to give an alarm by voice, and the user of the fire alarm 1 can select and use various functions. It is like that. As the ON / OFF selection setting switch 52, a toggle switch, a slide switch, a dip switch, or the like may be used.

  Moreover, the timer part 30 time-measures the period (for example, 30 days) of the regular inspection mentioned later. In addition, according to setting, it can also be set as the structure further equipped with the 2nd timer etc. which time the alarm sound output time (for example, 10 minutes) at the time of an automatic periodic inspection.

  Further, the microcomputer 2 outputs a voice output command signal including information on phrases related to various alarms to the voice synthesis circuit 4 based on the result of each monitoring process. For example, when the fire detection flag is set, a fire voice alarm output command signal is output to the voice synthesis circuit 4, and the voice synthesis circuit 4 "Hugh, Hugh, Hugh, Fire. Fire." Is synthesized and output via the speaker 41. Also, when the thermistor is disconnected or when the battery voltage drops, an abnormal voice alarm output command signal is sent every hour, and the alarm sound “Alarm is abnormal. Please replace.” Is output to the voice synthesis circuit 4. .

  In addition, in the present invention, before outputting the fire alarm sound due to the automatic periodic inspection, the automatic periodic inspection is started with a sound smaller than that of the fire alarm sound, for example, “I will perform automatic alarm sound inspection from now on”. A notification sound (automatic check start notification sound) is output. That is, in order to shift to the periodic inspection processing mode, the periodic inspection notification flag 24 is set, and an automatic inspection notification sound output command signal is output to the speech synthesis circuit 4. A notification sound indicating that automatic periodic inspection is to be started is synthesized and output via the speaker 41.

  In addition, about the sound pressure level suitable when the fire alarm 1 detects a fire and outputs a fire alarm sound, the sound pressure level of the alarm sound according to the standard is a fire alarm device mounted on a wood board with a thickness of 20 mm. It is specified that it is 70 dB (≈63, 260 μPa (micropascal)) or more when measured at a position 1 m away, and the sound alarm unit 4 of the fire alarm device 1 of this embodiment satisfies this condition. It is designed and manufactured, and a fire alarm sound having a sound pressure level or higher that satisfies the above conditions is output from the speaker 41 (sound emission hole 43) of the fire alarm device 1 of this embodiment.

  Next, the fire alarm of the present invention receives sound (sound collection) when the sound alarm unit (speech synthesizer) 4 is activated and a fire alarm sound as described above is emitted from the speaker 42 during periodic inspection. The configuration (the voice input unit 7 and the alarm sound analysis unit 18) to be analyzed will be specifically described.

The sound input unit 7 of the fire alarm 1 converts a microphone that picks up sound generated around the fire alarm 1, an amplification circuit that amplifies the sound reception signal of the microphone, and converts the amplified analog signal into a digital signal. It consists of an A / D conversion circuit. Note that a microphone is mounted on the circuit board of the fire alarm device 1 and is disposed in the vicinity of the sound collection hole 73 in FIG. 1 (not shown).
Therefore, the sound receiving unit of the present invention is the voice input unit 7 including a microphone, an amplifier circuit, and an A / D conversion circuit.

  The alarm sound analysis unit 18 of the fire alarm 1 receives the above-described digital signal and compares it with a reference voltage corresponding to a reference sound pressure level, and a fast Fourier transform that performs a fast Fourier transform on the digital signal. A conversion unit FFT18a, a frequency analysis processing unit FAP18b that performs frequency spectrum analysis of ambient sound from the output signal of the fast Fourier transform unit FFT18a, and a waveform analysis processing unit WAP18c that performs waveform analysis of the ambient sound from the digital signal are provided. .

  Here, it is known that the sound pressure level (sound intensity) attenuates rapidly in inverse proportion to the square of the distance, and a method for converting the sound pressure level according to the distance is also known. Therefore, the microphone (sound collecting hole 73) of the fire alarm device 1 in this embodiment is located approximately 5 cm away from the speaker 41 (sound emitting hole 43) (FIG. 1). ) Picks up the fire alarm sound emitted from the speaker 41 (sound emission hole 43) at a sound pressure level of about 96 dB or more. Therefore, in the present embodiment, the reference voltage V is defined as a reference value obtained by converting the received sound signal of the above sound pressure level into a digital signal by the microphone, the amplifier circuit and the A / D conversion circuit of the sound input unit 7. That is, the comparison unit 18d of the alarm sound analysis unit 18 amplifies the received sound signal from the ambient sound received during the periodic inspection, and compares the A / D converted digital signal with the reference voltage V.

(Description of operation)
Next, the periodic inspection operation of the present invention will be described with reference to the operation flowchart of FIG.
First, when the battery is inserted and the power is turned on, the microcomputer 2 determines / confirms the ON / OFF of the periodic inspection function setting set by the setting input unit 5 by the input determination unit 15. In the present embodiment, description will be made assuming that the automatic periodic inspection function by the fire alarm is set to ON at the time of manufacture.

  If the user does not need this function, for example, after determining the setting input related to the automatic periodic inspection function, “If you press and hold the alarm stop button within 5 seconds, the automatic periodic inspection will not be performed. ”Is output and the user is allowed to select the function. If the automatic periodic inspection function is set to OFF, the message “Do not perform periodic inspection automatically. Be sure to inspect the fire alarm regularly.” Good.

Example 1
When the power is turned on, the microcomputer 2 determines that the automatic periodic inspection function of the setting input unit 5 is ON by the input determination unit 15 and starts measuring a predetermined time (30 days) by the timer 30 (S1).
In addition, while the timer 30 counts 30 days, it is confirmed whether or not the inspection switch 82 is input (S2). And when there is no input of the inspection switch 82 (the alarm stop button 9 is not pushed or operated), and the timer 30 finishes counting time on the 30th, it is confirmed whether or not it is in a normal monitoring state. (S4).

In the normal monitoring state, that is, when the fire flag 21, the failure flag 22, and the power supply voltage drop flag 23 are not set, the fire alarm 1 shifts to the periodic inspection processing mode. The notification flag 24 and the fire detection flag 21 are set, and the automatic inspection notification output command signal and the fire voice alarm output command signal are output to the voice synthesis circuit 4. A sound alarm consisting of a combination of a notification sound to start automatic periodic inspection and "Fire, Hugh, Hugh, Fire. Fire is sound." Is output through the speaker 41 (S6).
In addition, the fire alarm sound of the periodic inspection alarm sound output here is confirmed at the time of manufacture by design, "The value measured at a point 1 meter away from the center of the alarm part in the anechoic chamber, It may be anything that can output a sound volume equivalent to or higher than the sound volume satisfying the condition “70 dB or more and continuously output for 1 minute or more”.

  Next, the microphone of the voice input unit 7 picks up the automatic inspection start notification sound and the fire alarm sound through the sound collection hole 73, and amplifies the signal to convert it into a digital signal. Then, the comparison unit CMP18d of the alarm sound analysis unit 18 compares the received digital signal with the reference voltage V (S7). At the time of the sound reception, the control unit 10 may control the alarm sound output timing and the sound reception timing so that the alarm sound analysis unit 18 analyzes the sound picked up after the automatic inspection start notification sound is output. . When the received digital signal is equal to or higher than the reference voltage V, the periodic inspection notification flag 24 is reset and the periodic inspection process is performed on the assumption that the fire alarm sound is normally output with the sound pressure equal to or higher than the specified sound pressure level. The (periodic inspection mode) is terminated, and the timer is further reset (S8, S9, S10). In addition, the timer 30 starts measuring 30 days until the next periodic inspection time comes (S1).

  Here, during the periodic inspection process, the automatic inspection start notification sound and the fire alarm sound of the above-mentioned message are output. Of these, whether the fire alarm sound is output a plurality of times or is continued for a predetermined time. Can be set as appropriate. In this case, the control unit 10 performs control to stop the output of the fire alarm sound (S9).

Further, when the digital signal received by the comparison unit CMP18d of the alarm sound analysis unit 18 of the microcomputer 2 is smaller than the reference voltage V, the control unit 10 has a normal sound pressure that satisfies the specified sound pressure level condition. Alarm sound output abnormality processing is performed (S8, S18).
In this case, since it is necessary to notify the user (user) that the fire alarm device 1 has an alarm sound output abnormality, the control unit 10 is a display unit 6 that is an alarm output unit having a different output form from the alarm sound. The blinking / lighting control of the (operation indicator lamp 6) is performed (S18). In addition, by performing the transfer output control for the transfer output unit 11 and outputting the transfer to other fire alarms and other equipment, the fire alarm 1 outputs a warning sound as a result of periodic inspection to the user. Notify that there is an abnormality (S18).

  In Step 2 of the above operation (S2 in FIG. 3), if there is an input from the inspection switch 82 while the timer 30 is measuring 30 days, the user voluntarily operates the alarm stop button 9 or pulls it. Since the string operation has been performed, a so-called regular periodic inspection is performed. Therefore, if the fire alarm 1 is in the normal monitoring state at this time, the fire alarm sound “Hugh, Hugh, Hugh, Fire. Fire is fired” (2 times / 10 seconds) is output when a fire is detected. (S13, S14, S15 in FIG. 3). And a fire alarm sound output is stopped and the timer part 30 is reset (S15 of FIG. 3, S10).

  In step 4 or step 13 (S4 or S13 in FIG. 3) of the above operation, when the fire alarm device 1 is not in a normal monitoring state, that is, when a fire detection or failure detection or power supply voltage drop detection is performed. The microcomputer 2 outputs an alarm sound “The alarm is abnormal. Replace it” to the voice synthesis circuit 4 (S19 in FIG. 3).

(Example 2)
Next, a second embodiment will be described.
In the second embodiment, the fire alarm device 1 of the present invention controls the sound reception processing (steps after S7 in FIG. 3) when receiving the fire alarm sound at the time of periodic inspection in the first embodiment. The alarm sound analysis unit 18 of the unit 10 checks whether or not the fire alarm sound output content is normally output in more detail.

  In the second embodiment, the alarm sound of “Hugh, Hugh, Hugh, Fire. Fire”, which is a fire alarm sound, is a sweep sound (AL) that increases the pitch of “Hugh” every second. This is an alarm sound pattern that repeats the message three times and repeats the message “fire” twice at one second intervals. The highest sound pressure point in this alarm sound pattern is the end of the sweep sound (AL) called “Hugh” As a result of frequency analysis at that time point, it is understood that two harmonics (v1, v2) having a fundamental frequency around 2700 Hz have a frequency spectrum pattern characteristic of the alarm sound of the fire alarm device 1. .

  Therefore, the characteristic frequency spectrum pattern and waveform pattern of the fire alarm sound based on these analysis results are stored in the pattern memory PM25 of the storage unit 20. Specifically, the frequency spectrum of two overtones v1 and v2 having a fundamental frequency around 2700 Hz is stored as a characteristic frequency spectrum pattern of the fire alarm 1, and the highest sound pressure exhibiting this frequency spectrum pattern is stored. A pattern in which the alarm sound is repeated three times at 1 second intervals is stored as a characteristic waveform pattern of the fire alarm device 1.

  First, the fire alarm 1 fires when the timer 30 finishes counting 30 days and is in a normal monitoring state, that is, when the fire flag 21, the failure flag 22, and the power supply voltage drop flag 23 are not set. In order to shift to the periodic inspection processing mode, the alarm device 1 sets the periodic inspection notification flag 24 and also sets the fire detection flag 21, and sends the automatic inspection notification output command signal and the fire voice alarm output command signal to the voice synthesis circuit 4. The voice synthesis circuit 4 outputs a notification sound (automatic inspection start notification sound) to start an automatic periodic inspection saying “We will perform automatic inspection of alarm sound from now on” and “Hugh, Hugh, Hugh, Fire. A voice alarm composed of a combination of fire alarm sounds is synthesized and output through the speaker 41 in this order (S1 to S6 in FIG. 3).

  Next, the microphone of the voice input unit 7 picks up the fire alarm sound through the sound collection hole 73, amplifies the signal, and converts it into a digital signal. Then, the comparison unit CMP18d of the alarm sound analysis unit 18 compares the received digital signal with the reference voltage V (S7). At the time of the sound reception, the control unit 10 controls the alarm sound output timing and the sound reception timing so that the alarm sound analysis unit 18 analyzes the sound picked up after the automatic inspection start notification sound is output.

  When the digital signal is equal to or higher than the reference voltage V, the waveform analysis processing unit WAP18c obtains the appearance pattern of the highest sound pressure point having a slight allowable range from the digital signal waveform. Further, the fast Fourier transform unit FFT18a of the alarm sound analysis unit 18 performs fast Fourier transform on the digital signal and outputs a signal to the frequency analysis processing unit FAP18b. Further, the frequency analysis processing unit FAP18c displays this signal and the highest sound pressure. A frequency spectrum pattern at each maximum sound pressure point is obtained from the pattern.

  Next, the frequency spectrum pattern at each maximum sound pressure point obtained by the frequency analysis processing unit FAP18b is the same as the characteristic frequency spectrum pattern of the fire alarm sound of the fire alarm device 1 stored in the pattern memory PM25. It is determined whether or not.

  As a result of this determination, if it is determined that they are the same, then the appearance pattern of the sound with the highest sound pressure obtained by the waveform analysis processing unit WAP18c is stored in the pattern memory PM25. It is determined whether or not the characteristic waveform pattern of the sound is the same.

  As a result of this determination, if it is determined that they are the same, the control unit 10 of the microcomputer 2 determines that the fire alarm sound is normally output from the speaker at a sound pressure equal to or higher than a predetermined sound pressure level by automatic periodic inspection. Then, the periodic inspection notification flag 24 is reset, the periodic inspection process (periodic inspection mode) is terminated, and the timer is reset (S8, S9, S10 in FIG. 3). In addition, the timer 30 starts measuring 30 days until the next periodic inspection time comes (S1).

  When the digital signal received by the comparator CMP18d of the alarm sound analysis unit 18 is lower than the reference voltage V, the alarm sound output abnormality process (S8, S18), or when the inspection switch 82 is input during the timer timing This process is the same as in the first embodiment.

Note that, regarding the function confirmation of the voice input unit 7, the microcomputer 2 can check the presence or absence of a failure due to daily life noise or the like.
In addition, as a result of the periodic inspection of the present invention, it is preferable to avoid alarm output at night when alarm sound output abnormality is reported. Therefore, combining with the technique of Patent Document 2 is suitable for operation.

  The periodic inspection assistance notification function of the present invention can also be applied to a gas alarm device and a gas alarm system.

1 Fire alarm 2 Microcomputer
3 Fire detection unit 4 Voice alarm (speech synthesis unit)
5 ON / OFF selection setting input section 6 Display section (second alarm output means)
7 Voice input section 8 Inspection input section 9 Alarm stop button 11 Transfer output section 18 Alarm sound analysis section 20 Storage section 41 Speaker (alarm sound output means)
42 Alarm stop switch 52 ON / OFF selection setting switch 73 Sound collecting hole 82 Inspection switch 100 Power supply (battery or AC power supply)

Claims (5)

A power supply unit, a timer unit that measures a predetermined time, a fire detection unit that detects a fire, an alarm sound output unit that emits an alarm sound, and a control unit that operates the alarm sound output unit according to a detection signal of the fire detection unit And a fire alarm with a sound receiving part that picks up the sound around the fire alarm,
The timer unit measures a predetermined time from when the power is turned on until the periodic inspection time comes,
After completion of timing of the predetermined time and in a normal monitoring state,
The alarm sound output unit is operated to output an alarm sound, and when the sound receiving unit inputs an ambient sound having a sound pressure level equal to or higher than a predetermined level, the timer starts measuring a predetermined time. Fire alarm. The fire alarm device according to claim 1, further comprising an alarm sound analysis unit that extracts ambient sounds input from the sound receiving unit and analyzes whether the ambient sounds have characteristics of alarm sounds,
After a predetermined time measurement by the timer and in a normal monitoring state,
The alarm sound output unit is operated to output an alarm sound, the sound receiving unit inputs an ambient sound having a volume level equal to or higher than a predetermined level, and the ambient sound is a sound having information characteristic of the alarm sound. A fire alarm device which starts counting a predetermined time by the timer when the alarm sound analysis unit analyzes. The fire alarm according to claim 1 or 2, further comprising an inspection switch,
During timing of the timer and normal monitoring state,
When receiving the input of the inspection switch, after the alarm sound output unit is activated, the timer is reset to start measuring a predetermined time. The fire alarm according to claim 1 or 2, further comprising an operation display unit or / and a transfer output unit,
The timer unit measures a predetermined time from when the power is turned on until the periodic inspection time comes,
After completion of timing of the predetermined time and in a normal monitoring state,
The alarm sound output unit is operated to output an alarm sound, and when the sound receiving unit inputs an ambient sound having a sound pressure level lower than the predetermined level, the operation display unit and / or the transfer output unit is operated. A fire alarm characterized by alarming alarm sound output.   The fire alarm device according to any one of claims 1 to 4, further comprising an automatic periodic inspection function ON / OFF setting unit.

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