JP2010102418A - Fire alarm - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire alarm for easily confirming that a battery is connected, and that the supply of power is normally started. <P>SOLUTION: In a fire alarm, power supply is started by connecting a connector (4a) wired to a battery (3) to a connector (4b) connected to an internal circuit. The fire alarm is provided with control means (15, 18) for emitting a voice message when the power supply to the internal circuit is started. The voice message is a greeting to a user. The voice message expresses appreciation for the purchase of the user. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a fire alarm device to which power is supplied from a battery.

  Some fire alarms start supplying power to an internal circuit by connecting a connector wired to a battery to a receiving connector provided in a housing (see, for example, Patent Document 1).

JP 2006-040212 A

However, as a result of receiving the connector wired to the battery and connecting it to the connector, it was not possible to confirm that the power supply was started normally.
In addition, once a fire alarm is installed on the ceiling, etc., the user is often forgotten to exist, and therefore, for example, periodic inspection operations are not performed and it is not used effectively. There is a problem.

  An object of the present invention is to provide a fire alarm capable of easily confirming that a battery is connected and power supply has started normally.

  The fire alarm device according to the present invention is a fire alarm device in which power supply is started by connecting a connector connected to a battery to a connector connected to an internal circuit. In the fire alarm device, power supply to the internal circuit is started. Control means for generating a voice message is sometimes provided.

  The effect of the fire alarm device according to the present invention is that since a voice message is produced when the connector connection is normally performed and the power supply to the internal circuit is started, the user can connect the connector normally and supply power. Can be easily recognized.

FIG. 1 is a block diagram showing the configuration of a fire alarm according to the best mode for carrying out the present invention. FIG. 2 is a flowchart showing the operation of this fire alarm.
The fire alarm according to the best mode for carrying out the present invention senses smoke. For example, a battery 3 is disposed on the back of the casing, and a connector 4a connected to the battery 3 is connected to It is a battery type in which power is supplied to the internal circuit by connecting to the connector 4b of the housing connected to the circuit.

As shown in FIG. 1, the fire alarm mainly includes an internal circuit including a booster / light emitting circuit 11, a light receiving / amplifying circuit 12, a constant voltage circuit 13, a battery voltage detecting circuit 14, and an alarm sounding circuit 15. , A fire / abnormality display circuit 16, an inspection circuit 17, and a control circuit 18 of a one-chip microcomputer. The battery 3 is connected to a booster / light emitting circuit 11, a light receiving / amplifying circuit 12, a constant voltage circuit 13, a battery voltage detecting circuit 14, an alarm sounding circuit 15 and a fire / abnormality display circuit 16 via connectors 4a and 4b. The constant voltage circuit 13 is connected to an inspection circuit 17 and a control circuit 18 having a timer 19 therein.
The step-up / light-emitting circuit 11 is composed of a light-emitting diode for smoke detection, which is a light-emitting element that emits light by a boosted light-emission pulse. The light receiving and amplifying circuit 12 includes a photodiode which is a light receiving element that receives scattered light caused by smoke particles of light emitted from the light emitting diode of the booster / light emitting circuit 11 and converts the light into a pulse electric signal, and amplifies the pulse electric signal. And output.
Therefore, in this embodiment, the boosting / light emitting circuit 11 and the light receiving amplification circuit 12 constitute a fire detection circuit as a smoke sensor unit. The fire detection circuit outputs a detection signal for detecting a fire.
Note that the light emitting diodes of the boosting / light emitting circuit 11 and the photodiodes of the light receiving amplification circuit 12 are provided in a labyrinth (smoke inflow chamber) below a housing (not shown).
The constant voltage circuit 13 supplies, for example, a voltage of about 2.3 V that does not vary from the voltage of the battery 3 to the inspection circuit 17 and the control circuit 18.

The battery voltage detection circuit 14 detects the voltage of the battery 3, and outputs an alarm signal and an abnormal signal for displaying an abnormality when the voltage is equal to or lower than a predetermined voltage.
The alarm sounding circuit 15 is connected to the speaker 8 and causes the speaker 8 to sound during operation.
The fire / abnormality display circuit 16 is connected to the indicator lamp 7, which turns on the indicator lamp 7 in the event of a fire, blinks the indicator lamp 7 in the event of an abnormality, and turns off the indicator lamp 7 in a normal state.
The inspection circuit 17 is connected to the inspection switch 5 and operates in response to an ON signal of the inspection switch 5 to monitor and inspect various internal circuit states such as the state of the fire detection circuit and the voltage state of the battery 3. The command is output to the control circuit 18.
The control circuit 18 comprises a one-chip microcomputer, and outputs control signals to the booster / light emitting circuit 11, the light receiving / amplifying circuit 12, the battery voltage detecting circuit 14, the alarm sounding circuit 15 and the fire / abnormality display circuit 16, respectively. And receiving various signals from the inspection circuit 17 and outputting various signals such as a fire signal.
In particular, the control circuit 18 outputs a fire signal to the alarm sounding circuit 15 and the fire / abnormality display circuit 16 when it is determined that there is a fire based on the detection signal of the fire detection circuit.
Furthermore, in the present embodiment, when power supply to the internal circuit is started by the control circuit 18 and the alarm sounding circuit 15, the control means for generating a voice message indicating that the power supply has been started to the internal circuit. Configure.
The control circuit 18 is activated when a battery is connected and power supply is started, and outputs a battery connection presence signal to the alarm sounding circuit 15.
Audible alarm sounding circuit 15, as a voice message from the speaker 8 when it receives a signal there battery connection, pronounced "Hello, Thank you for using the Nohmi Bosai product".

Next, the operation of the fire alarm device according to the present invention will be described.
The fire alarm is turned on by connecting the connector 4a of the battery 3 to the connector 4b of the housing (step S1).
When the battery 3 is connected, the control circuit 18 is activated when a predetermined voltage is supplied via the constant voltage circuit 13, and first the initial process is started (step S2). As the initial process, the control circuit 18 performs a process for operating each internal circuit normally.
When the initial process is finished, the control circuit 18 then outputs a battery connection presence signal to the alarm sounding circuit 15 (step S3).
The alarm sound ringing circuit 15, Could from the speaker 8 when it receives a signal there is a battery connected to the "Hello, Thank you for using the Nohmi Bosai Products" (step S4).
When the pronunciation of the voice message is completed, the fire monitoring operation is started (step S5). In this way, when the fire monitoring operation is started, the booster / light emitting circuit 11 performs light emission charging of the internal light emitting capacitor. When the light emission charging is completed, the light emitting diode for detecting smoke emits light with a predetermined current, and light emission control is performed. Is called. The light receiving amplifier circuit 12 that receives the scattered light of the light emitting diode light from the light emitting diode of the booster / light emitting circuit 11 converts the light into an electric signal pulse, amplifies it, and outputs it. The control circuit 18 captures and stores the electric signal pulse output from the light receiving amplification circuit 12.

Next, the control circuit 18 performs fire detection (step S6).
In this fire detection, the control circuit 18 determines whether or not the electric signal pulse from the light receiving and amplifying circuit 12 is equal to or greater than a predetermined specified value indicating the fire level. Judge as fire.
When the control circuit 18 determines that there is a fire, it outputs a fire signal to the alarm sounding circuit 15 and the fire / abnormality display circuit 16, and the alarm sounding circuit 15 receiving the fire signal operates to indicate that there is a fire. The loudspeaker 8 is sounded so as to notify, and the fire / abnormality display circuit 16 that has received the fire signal operates to turn on the indicator lamp 7 to display a fire (step S7).
Further, when the control circuit 18 determines that the electric signal pulse from the light receiving amplification circuit 12 is not more than a predetermined specified value and it is not a fire, the fire signal is not output to the alarm sounding circuit 15 and the fire / abnormality display circuit 16. The alarm sounding circuit 15 and the fire / abnormality display circuit 16 do not operate, the speaker 8 does not sound, and the indicator lamp 7 remains off (step S8).

Next, the control circuit 18 checks whether or not the inspection circuit 17 that has received the ON signal by pressing the inspection switch 5 has output an inspection command (step S9). If no inspection command is received, the process returns to the fire monitoring operation in step S5.
When the control circuit 18 receives an inspection command from the inspection circuit 17 based on the ON signal of the inspection switch 5, the control circuit 18 enters an inspection operation for each internal circuit (step S10).
This inspection operation is to detect the abnormality by monitoring the state of the fire detection circuit. For example, if there is no input to the light receiving amplifier circuit 12 when the infrared light emitting diode of the booster / light emitting circuit 11 emits light, an abnormality due to disconnection is detected. If the infrared light emitting diode emits light and the input to the light receiving amplifier circuit 12 is lower than normal, there is an abnormality due to deterioration of the booster / light emitting circuit 11 or the light receiving amplifier circuit 12 Judgment. Further, the voltage state of the battery 3 is also monitored to detect an abnormality, and when the voltage detected by the battery voltage detection circuit 14 falls below a predetermined voltage, it is determined that there is an abnormality (battery out) due to the battery 3.

Further, the control circuit 18 enters an inspection operation and detects an abnormality (step S11). When an abnormality is detected, an abnormality signal is output to the alarm sounding circuit 15 and the fire / abnormality display circuit 16, and the abnormality signal is received. The alarm sounding circuit 15 operates to sound the speaker 8 so as to notify that it is abnormal, and the fire / abnormality display circuit 16 that has received the abnormal signal operates to blink the indicator lamp 7 to display an abnormality ( Step S12).
When no abnormality is detected, the control circuit 18 outputs a normal signal to the alarm sounding circuit 15 and the fire / abnormality display circuit 16, and the alarm sounding circuit 15 that has received the normal signal operates to be normal. The fire / abnormality display circuit 16 that has received the normal signal turns on the indicator lamp 7 for a predetermined time and performs normal display (step S13).
It should be noted that, in the event of a fire, an abnormal time, and a normal time, the manner of sounding the speaker is changed so that the three states can be distinguished. In step S11, the control circuit 18 outputs a fire signal as a normal signal. You can also. In this case, the control circuit 18 outputs a fire signal to the alarm sounding circuit 15, and the alarm sounding circuit 15 receiving the fire signal operates to sound the speaker 8 so as to notify that the fire is normal. Can be made.

  In the fire alarm device according to the present invention, since the voice message is sounded when the connector connection is normally performed and the power supply to the internal circuit is started, the user can normally connect the connector and start the power supply. Can be easily recognized.

  In addition, since a message indicating a greeting to the user such as “Konchiwa” is pronounced, the user's feelings can be softened. For this reason, the fire alarm can be made familiar, and for example, a regular inspection operation can be performed to promote effective use. In addition, a message that expresses gratitude for the purchase of the user such as “Thank you for using Nomi Disaster Prevention Products” is pronounced. You can soften and appeal your company name.

  The above-described message is an example, and the message is not limited to this as long as it is a message that expresses a greeting to the user or appreciation for the purchase of the user.

It is a block diagram which shows the structure of the fire alarm device concerning the best form for implementing this invention. It is a flowchart which shows operation | movement of this fire alarm.

Explanation of symbols

  3 battery, 4a, 4b connector, 5 check switch, 7 indicator lamp, 8 buzzer, 9 speaker, 11 booster / light emission circuit, 12 light receiving amplification circuit, 13 constant voltage circuit, 14 battery voltage detection circuit, 15 alarm sounding circuit, 16 Fire / abnormality display circuit, 17 inspection circuit, 18 control circuit, 19 timer.

Claims (3)

In fire alarms where power supply is started by connecting the connector connected to the battery to the connector connected to the internal circuit,
A fire alarm device comprising control means for generating a voice message when power supply to the internal circuit is started.   The fire alarm according to claim 1, wherein the voice message is a message representing a greeting to a user.   The fire alarm according to claim 1 or 2, wherein the voice message is a message indicating appreciation for the purchase of the user.

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