JP2008134676A - Linked warning type fire alarm - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a linked warning type fire alarm capable of confirming whether or not a normal linked warning has been issued in the event of an actual fire. <P>SOLUTION: The linked warning type fire alarm includes fire detecting parts 12, 22 for detecting the cause of a fire; linked control signal output parts 17, 27 for outputting linked control signals to other fire alarms 1, 2; warning parts 14, 24; a control part which causes the warning parts to output fire warnings when the fire detecting parts detect the cause of the fire, and which causes the warning parts to output linked warnings when it receives the linked control signal from another fire alarm; and storage parts 15, 25 for storing at least linked warning history information. The control part causes the storage parts to store the linked warning history information every time it receives the linked control signal and outputs the linked warning. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an improvement of a linked alarm type fire alarm that outputs a linked control signal to another fire alarm when a fire factor is detected, and more specifically, a linked alarm type fire alarm having a storage unit that stores linked alarm history information. Related to the vessel.

  Conventionally, fire alarms are configured to monitor fire factors such as smoke and heat, and output a warning when a fire factor is detected, but in recent years, one fire alarm has been provided for each room in a general house. When a fire alarm detects a fire factor, the fire alarm that has detected the fire factor performs the above alarm and also sends a fire signal to a fire alarm installed in another room. Fire alarms are linked alarm type fire alarms that output a linked alarm in conjunction with this.

The following Patent Document 1 describes a fire alarm system configured by connecting a plurality of fire alarms as described above in parallel. According to this, each of the child alarms is 2 to 2 from the parent alarm. Since it operates by receiving drive power from a line power supply circuit supplied to the linear signal line, it is not necessary to provide a circuit for generating drive power in the child alarm device, and the circuit configuration of the child alarm device can be simplified.
JP 2005-339032 A

However, in the fire alarm that performs the interlock alarm output as described above, when a fire actually occurs, there is a problem that there is no way to confirm later whether or not the interlock alarm has been properly performed by the fire alarm. It was.
For example, if a resident recognizes a fire from the alarm output of a fire alarm, it is clear that the fire alarm has sounded, so this is not a problem. When I knew what happened, I couldn't know if the fire alarm was properly interlocking, and I couldn't confirm it after the fire broke out.

  Therefore, the present invention is proposed in consideration of the above circumstances, and provides an interlocking alarm type fire alarm capable of confirming later whether or not a normal interlocking alarm has been made when an actual fire occurs. Objective.

In order to achieve the above object, the interlock alarm type fire alarm device according to the invention of claim 1 includes a fire detection unit for detecting a fire factor and an interlock control signal output unit for outputting an interlock control signal to another fire alarm device. When the alarm unit and the fire detection unit detect a fire factor, a fire alarm is output from the alarm unit, and when the interlock control signal is received from another fire alarm, an interlock alarm is output from the alarm unit. And a storage unit that stores at least linked alarm history information, and the control unit receives the linked control signal and outputs the linked alarm each time the linked alarm history information is stored in the storage unit. It is memorized.
Here, for the sake of explanation, a fire factor is detected, an alarm output from the alarm unit is a fire alarm, and an alarm output when an interlock control signal is received from another fire alarm is an interlock alarm.

  In the interlocked alarm type fire alarm according to the invention of claim 2, the control unit may delete the interlocking alarm history information stored in the storage unit when a predetermined time has elapsed. Further, in the interlocked alarm type fire alarm device according to the invention of claim 3, the control unit is constituted by a CPU, and the predetermined time is measured by counting clock pulses of the CPU. be able to.

According to the interlocking alarm type fire alarm device according to claim 1, the storage part stores at least interlocking alarm history information, and the control part receives the interlocking control signal and outputs the interlocking alarm. In addition, since the interlocking alarm history information is stored in the storage unit, it can be confirmed after the fire whether or not the interlocking alarm has been made.
So, for example, even if the fire alarm installed at the source is burned down in the event of an actual fire, the fire installed at the source can be confirmed by checking the memory of the fire alarm remaining in other rooms. The alarm device operates normally and an interlock control signal is sent out, and it can be confirmed whether the interlock alarm operates normally from the fire alarm device installed in another room.

  According to the interlocking alarm type fire alarm device described in claim 2, the control unit can delete the interlocking alarm history information stored in the storage unit when a predetermined time has elapsed. The memory capacity of the part can be made small, and the cost can be suppressed. In addition, it is possible to easily check the stored information without the fact that the memory capacity of the storage unit is full and writing could not be performed.

  According to the interlock alarm type fire alarm device described in claim 3, the control unit is constituted by a CPU, and the predetermined time is measured by counting clock pulses of the CPU. Therefore, it is not necessary to provide a timer circuit, and the cost of the fire alarm can be reduced.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram showing an example of a schematic configuration of a fire alarm system using the interlocked alarm type fire alarm device of the present invention, and FIG. 2 is a schematic diagram of a main configuration of the fire alarm system using the interlocked alarm type fire alarm device of the present invention. FIG. 3 is a block diagram showing an example, FIG. 3 is a diagram showing an example of a circuit configuration of an interlock control signal output unit provided in the interlocking alarm type fire alarm device of the present invention, and FIG. 4 is an interlocking of the interlocking alarm type fire alarm device of the present invention. FIG. 5 is a flowchart showing an example of the basic operation related to the alarm, FIG. 5 is a flowchart showing an example of the operation related to the interlocking alarm history information of the interlocking alarm type fire alarm of the present invention, and FIG. 6 is a storage unit provided in the fire alarm of the present invention. It is a figure which shows an example of a structure of.

  As shown in FIG. 1, reference numerals 1 and 2 denote interlocking fire alarms. Reference numeral 1 denotes a parent alarm device serving as a parent machine in the fire alarm system. Reference numeral 2 denotes a parent alarm device 1 and a two-wire signal line L. This is a child alarm device connected in parallel. The parent alarm device 1 supplies power from a commercial power supply (100 V), and the child alarm device 2 supplies power from the parent alarm device 1 through a signal line L.

As shown in FIG. 2, the parent alarm device 1 includes at least a power supply circuit 10 that supplies power, an operation unit 11 that includes various operation buttons, a fire detection unit 12 that detects a fire factor such as smoke and heat, a CPU, and the like. A control unit 13 configured to control the fire alarm 1 for a house, an alarm unit 14 that outputs an alarm by sound, light, etc., a storage unit 15 that stores interlocking alarm history information, and an interlocking control signal that monitors the interlocking control signal The monitoring part 16 and the interlocking control signal output part 17 which outputs an interlocking control signal are provided.
The child alarm device 2 is not provided with the power supply circuit 10 because the power is supplied from the parent alarm device 1, but the other configuration and operation are the same as those of the parent alarm device 1, and at least the operation unit 21, A fire detection unit 22, a control unit 23, an alarm unit 24, a storage unit 25, an interlock control signal monitoring unit 26, and an interlock control signal output unit 27 are provided.

  Although only one block diagram of the child alarm device 2 is shown in FIG. 2, it goes without saying that a plurality of child alarm devices 2 can be configured in parallel as shown in FIG. 1 to provide a fire alarm system. In the following description, a case where a real fire occurs in a room where the parent alarm device 1 is installed and a slave alarm device 2 installed in another room performs an interlocking alarm will be described. Needless to say, linked alarm control is performed from 2 to the parent alarm device 1 and from the child alarm device 2 to the other child alarm devices 2.

The linked alarm control from the parent alarm device 1 to the child alarm device 2 is as follows.
The fire detection unit 12 of the parent alarm device 1 measures the amount of smoke particles, the amount of heat, etc., and sends a fire detection signal to the control unit 13 when the value exceeds a preset threshold value. Upon receiving the fire detection signal, the alarm unit 14 outputs a fire alarm.
The control unit 13 that has received the fire detection signal from the fire detection unit 12 sends the interlock control signal to the child alarm device 2 connected by the signal line L via the interlock control signal output unit 17, and the interlock control signal is transmitted. The received child alarm device 2 outputs a linked alarm from the alarm unit 24. Specifically, the interlock control signal is first received by the interlock control signal monitoring unit 26, sent to the control unit 23, and an interlocking alarm is output from the alarm unit 24. At this time, if the interlock control signal monitoring unit 26 has a circuit configuration, a predetermined alarm such as an actual fire alarm or a test alarm can be generated.

  Each time the control unit 23 of the child alarm device 2 that has performed the interlocking alarm receives the interlocking control signal and outputs the interlocking alarm, it stores the fact that the interlocking alarm is output in the storage unit 25 as interlocking alarm history information. . In addition, the storage unit 25 may be configured to record not only that the interlock alarm is output but also that the fire alarm is output. This will be described later.

  As the storage unit 15, a nonvolatile memory (such as an EEPROM) that can retain recorded contents even when the power is turned off and can electrically erase written information can be used.

The interlocking alarm history information stored in the storage unit 15 can be deleted when a predetermined time has elapsed. According to this, the memory capacity of the storage unit 15 can be reduced.
As a configuration for measuring the predetermined time, a timer circuit may be provided, but it may be performed by counting clock pulses by a CPU provided in the control unit 13. According to this, compared with what provides a timer circuit, cost can be held down.

FIG. 3 is a diagram showing an example of a circuit configuration of the interlock control signal output unit provided in the parent alarm device and the child alarm device of the present invention.
Here, the description will be given of a case where a real fire occurs in the room where the parent alarm device 1 is installed, and a linked alarm is performed in the child alarm device 2 installed in another room. It goes without saying that the same interlocking alarm control is performed from the child alarm device 2 to the parent alarm device 1 and from the child alarm device 2 to the other child alarm devices 2.

When the interlock control signal output unit 17 receives a fire detection signal of an actual fire, the transistor Tr2 is turned on, and the voltage between the interlock signal output terminals T becomes a Zener voltage of ZD1 + ZD2.
And this signal is sent to the connected child alarm device 2 as an interlock control signal for notifying the fire detection state.
On the other hand, when the interlock control signal output unit 17 receives the test signal or the failure signal, the transistor Tr1 is turned on, and the voltage between the interlock signal output terminals T becomes the Zener voltage of ZD1.
And this signal is sent to the connected child alarm device 2 as an interlocking control signal notifying that it is in a test or failure state.

  According to this, at the time of the interlock alarm, the child alarm device 2 that has received the interlock control signal can discriminate whether an actual fire has occurred or a test or failure has occurred in another place based on the voltage level. An interlocking alarm with different alarm sounds from the unit 24 can be made.

FIG. 4 is a flowchart for explaining the basic operation of the interlocking fire alarm of the present invention (100 to 104). Although the basic operation of the parent alarm device 1 will be described here, the child alarm device 2 performs the same operation.
When the parent alarm device 1 detects a fire, it performs a fire alarm (100, 101). On the other hand, when it receives an interlock control signal sent from the child alarm device 2, it performs an interlock alarm (103, 104) and fire alarm or interlock The fact that the alarm has been activated is stored in the storage unit 15 (memory write, 102).

FIG. 5 is a flowchart showing an example of the operation related to the interlocking alarm history information of the interlocking alarm type fire alarm of the present invention (200 to 204). Although the basic operation of the parent alarm device 1 will be described here, the child alarm device 2 performs the same operation.
The control unit 13 reads the memory stored in the storage unit 15 (200 to 202) at a read timing (for example, approximately every 1 sec) with reference to the clock, and data after a predetermined time has elapsed since the storage. If there is data that has passed a predetermined time, the data is deleted (203 to 204).

The predetermined time may be set in advance, such as being deleted every 24 hours or every 168 hours (one week), or may be configured as appropriate.
As described above, if the interlocking alarm history information stored in the storage unit 15 is to be deleted when a predetermined time has elapsed, the memory capacity of the storage unit 15 can be reduced. The cost of 1 and 2 can be suppressed.

FIG. 6 is a diagram illustrating an example of the configuration of the storage unit. Although the storage unit 15 in the parent alarm device 1 is illustrated and described here, the configuration of the storage unit 25 in the child alarm device 2 is the same.
The memory of the storage unit 15 includes a fire alarm history area 15a that records a history of detecting and reporting a fire, and a linked alarm history area 15b that receives the interlock control signal and records the reported history. .
In the figure, as the fire alarm history information, “1” is recorded, which indicates that the fire alarm was issued due to the actual date of fire (January 11), time (12:08), and actual fire. . In addition to this, it is also possible to record so as to record a test or failure report as “0”.
On the other hand, in the linked alarm history area 15b, which is configured in the lower part of the fire alarm history area 15a, the date (January 11) and time (12:03) when the linked alarm was issued, and the linked alarm were performed. “1” is recorded. In addition to this, it is possible to record a test or failure report as “0” in the same manner as described above.

According to this, it is understood that it was 12:03 on January 11 that the interlock control signal sent from the child alarm device 2 installed in another room was first received and the interlock alarm was performed. Five minutes later, it can be easily confirmed that an actual fire has occurred in the room where the parent alarm device 1 is installed and the fire alarm was given at 12:08.
Moreover, the structure of the memory | storage part 15 is not limited to the thing of an example of a figure, It is good also as what recorded only the fire alarm or the interlocking alarm was made. Further, if the data in the storage unit 15 is deleted every 24 hours, the date / time history may not be recorded, and only whether or not an interlocking alarm is given during the day may be recorded. According to this, the memory of the storage unit 15 can be set to a minimum of 1 bit (“1” is recorded if an interlocking alarm is issued).

  The circuit configurations of the parent alarm device 1 and the child alarm device 2 and the circuit configurations of the interlock control signal output units 17 and 27 are not limited to those shown in the figure, and the configurations of the storage units 15 and 25 are also shown in the example. It goes without saying that it is not limited to those.

It is a figure which shows an example of schematic structure of the fire alarm system using the interlocking alarm type fire alarm device of this invention. It is a block diagram which shows an example of a principal part structure of the fire alarm system using the interlocking alarm type fire alarm device of this invention. It is a figure which shows an example of the circuit structure of the interlocking control signal output part with which the interlocking alarm type fire alarm of this invention was equipped. It is a flowchart which shows an example of the basic operation regarding the interlocking alarm of the interlocking alarm type fire alarm device of the present invention. It is a flowchart which shows an example of the operation | movement regarding the interlocking alarm log | history information of the interlocking alarm type fire alarm of this invention. It is a figure which shows an example of a structure of the memory | storage part with which the fire alarm of this invention was equipped.

Explanation of symbols

1 Fire alarm (parent alarm)
2 Fire alarm (child alarm)
12, 22 Fire detection unit 13, 23 Control unit (CPU)
14, 24 Alarm unit 15, 25 Storage unit 17, 27 Interlocking control signal output unit

Claims (3)

A fire detection unit that detects a fire factor, an interlock control signal output unit that outputs an interlock control signal to another fire alarm, an alarm unit, and a fire from the alarm unit when the fire detection unit detects a fire factor A linked alarm type fire comprising a control unit that outputs an alarm and outputs a linked alarm from the alarm unit when receiving the linked control signal from another fire alarm, and a storage unit that stores at least linked alarm history information An alarm device,
Each time the control unit receives the interlock control signal and outputs the interlock alarm, the interlock alarm history fire information is stored in the storage unit. In claim 1,
The interlocking alarm type fire alarm device, wherein the controller erases the interlocking alarm history information stored in the storage part when a predetermined time has elapsed. In claim 2,
The control unit is constituted by a CPU, and the predetermined time is measured by counting clock pulses of the CPU.

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