JP5289549B2 - Residential fire alarm system - Google Patents

Description

  The present invention relates to a residential fire alarm system.

  In recent years, in order to enable early detection of residential fires, residential fire alarms have been popularized. A residential fire alarm can detect smoke and heat, which are the cause of a fire, and sound an alarm sound (alarm output) (see, for example, Patent Document 1).

  In addition, by connecting individual fire alarms installed at multiple locations in the dwelling unit with signal lines, when any fire alarm detects a fire, it sends an interlocking signal to the other fire alarms. There is a residential fire alarm system that works by linking all fire alarms.

JP 2006-338495 A

  In the above-mentioned residential fire alarm system, a dedicated line for sending the interlocking signal is shared with the power supply line so that it can be used as a power supply and interlocking signal line, reducing the number of lines and wiring work. Some are designed to be reduced.

  However, in the system where the power supply line and the interlocking signal line are shared and used as the power supply and interlocking signal line, if a short circuit accident occurs in the power supply and interlocking signal line, it is connected to the power supply and interlocking signal line. Not only will the power supply to each house fire alarm be cut off and the function of each house fire alarm will be lost, but it will no longer be possible to send an interlock signal. There is a problem that the function of the entire system is lost.

According to the first aspect of the present invention, power is supplied from the fire alarm of the master unit to the fire alarm of the slave unit via the power supply and interlocking signal line, and each of the fire alarms of the master unit and the slave unit detects fire. A mounting base installed at a location, and a main body storing fire alarm means that can be attached to and detached from the mounting base, detects a fire by a detection unit, and performs a notification operation by a sound / display unit. and in residential fire alarm system, the Ichisu base fire alarm mounted master unit, and a power supply unit for supplying power to the fire alarm's power supply and the interlocking signal lines and master unit, the power supply and the interlocking signal A short-circuit monitoring unit that monitors the short-circuit that occurs in the wire, and a short-circuit signal transmission unit that informs the main fire alarm device by a short-circuit signal when the short-circuit monitoring unit detects that a short circuit has occurred in the power supply and interlocking signal line provided with, fire alarm master unit and slave unit The body, a short-circuit signal receiving unit that receives a short signal from the short-circuit signal transmitter provided, a short circuit signal receiving unit receives a short circuit signal, sound and display unit of the fire alarm body master unit power supply and interlocked A configuration is adopted in which a signal line is informed that a short circuit has occurred.

In the present invention, when a short circuit accident occurs in the power supply / interlocking signal line with the above-described configuration, the sound / display unit provided in the main body of the master unit notifies that the short circuit has occurred in the power supply / interlocking signal line. So you can immediately deal with the accident.
And since the sound / display unit that performs the notification operation of the occurrence of the short circuit originally uses the sound / display unit of the main body used for the notification operation at the time of fire detection, it is also necessary to provide a new sound / display unit. Therefore, the system can be provided at a low cost with a simple configuration.
In addition, since the configuration is simple, if all the main units are equipped with the configuration of the present invention as a standard, the main unit to be attached to the base of the main unit can be attached to any main unit, and the system can be used without making a mistake. Can be provided.

It is the schematic which shows the fire alarm system of the state installed in the house. It is a block diagram of a fire alarm system. It is a flow chart showing the control in the fire alarm to which a fire detection or test operation instruction is input, It is a flowchart which shows the control in a fire alarm device when an interlocking signal is received. It is a flowchart which shows the control in the power supply part which monitors a short circuit. It is a flowchart which shows the control in a fire alarm device when a short circuit signal is received. FIGS. 7A and 7B are diagrams illustrating a transmission method used in the present invention, in which FIG. 7A shows a state of an interlocking signal transmitted from the interlocking signal transmitting unit, and FIG. 7B is transmitted from a short circuit signal transmitting unit. The state of a short circuit signal is shown.

(Overall configuration of fire alarm system)
A fire alarm system 100 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5. FIG. 1 is a schematic diagram showing a fire alarm system 100 installed in a house, and FIG. 2 is a configuration diagram of the fire alarm system 100.
The fire alarm system 100 is mainly installed on a ceiling or a wall surface in every place of a house (for example, each room), and includes a parent device and a child device that provide alarm notification by detecting smoke and heat generated by a fire. A plurality of fire alarms 1, 2 and a power supply / interlocking signal line L1 for connecting these fire alarms 1, 2.
The fire alarm device 1 as the parent device receives power supply from a household 100 [V] AC power supply via the power supply wiring L2 to be changed to a DC power supply, and the child alarm device via the power supply and interlocking signal line L1. DC power is supplied to the fire alarm device 2 serving as a device.
Hereinafter, each configuration will be described in detail.

(Fire alarm as parent device)
The fire alarm device 1 as a master unit is roughly divided into a fire alarm means 10 for detecting and notifying a fire, a power supply unit 20 for outputting an AC power source that is input from an external source, A mounting base 30 that holds the power supply unit 20 and is installed at a fire detection location such as an indoor ceiling or wall surface, and stores the fire alarm means 10 and is attached to and detached from the mounting base 30 by a predetermined mounting structure. And a main body 40 that can be used.

(Fire alarm means for fire alarms)
The fire alarm means 10 includes a detection unit 11 that detects smoke and heat generated by a fire, an acoustic device such as an alarm buzzer that generates an alarm sound in the surroundings, and an indicator lamp that displays various states of the fire alarm device by lighting. The sound / display unit 12 and the fire alarm device are instructed to perform an operation test, and the switch unit 14 for stopping the operation of the sound / display unit 12 is transmitted to the other fire alarm devices. The interlocking signal transmission unit 15 and the interlocking (short circuit) signal receiving unit 16 that receives the interlocking signal from other fire alarms or receives the short circuit signal from the power supply unit 20, the detection unit 11, the sound / display A control unit 17 that performs signal transmission and reception with the unit 12, the switch unit 14, the interlocking signal transmission unit 15 and the interlocking (short circuit) signal receiving unit 16, and a power supply unit 18 that supplies predetermined power to these units. ing.

The detection unit 11 is a type in which the detection unit 11 detects smoke. A light emitting element such as a light emitting diode and a light receiving element such as a phototransistor are provided in a dark box having a labyrinth structure, and smoke enters the dark box. Then, the scattered light of the irradiation light from the light emitting element is detected by the light receiving element to detect smoke. The detection signal of the scattered light by the light receiving element is connected so as to be output to the control unit 17. In the case where the detection unit 11 is a type that detects heat, the detection unit 11 includes a thermal sensor and a bimetal element, and is connected so that a detection signal is output to the control unit 17 when the detection unit 11 reaches a predetermined temperature or higher.
The detection unit 11 is disposed inside the main body 40 and detects smoke and heat entering from an opening provided on the front side of the main body 40.

The sound / display unit 12 is provided with a piezoelectric element in close contact with the piezoelectric vibration plate, and vibrates when the piezoelectric element is energized from the control unit 17 to generate a buzzer sound. The sound / display unit 12 emits a buzzer sound from a sound emitting opening provided on the front side of the main body 40.
The sound / display unit 12 is a light emitting element such as an LED connected to the control unit 17, and is provided on the front side of the main body 40. The sound / display unit 12 is turned on, turned off, blinks, or the like according to the content to be displayed. It is like that.

  The switch unit 14 is a push-type switch provided on the front side of the main body 40, and outputs an execution signal for an operation test of the fire alarm means 10 to the control unit 17 when a press operation is received. It also serves as a warning sound stop switch.

  The interlocking signal transmission unit 15 is a signal transmission circuit that transmits an interlocking signal to other fire alarms. The control unit 17 controls the power supply and interlocking signal when a fire is detected and the test is performed by the switch unit 14. An interlock signal is transmitted to the other fire alarms via the line L1.

  In addition, the interlock (short circuit) signal receiving unit 16 receives the interlock signal from another fire alarm transmitted from the power supply / interlocking signal line L1 or the short circuit signal from the power supply unit 20, and performs control. To the unit 17.

(Control part of fire alarm means)
The control part 17 is comprised, for example from a microcomputer, and performs control as a detection control part, a test control part, an interlocking control part, and a short circuit alarm control part.
The contents of control by the control unit 17 as the detection control unit will be described.
The control unit 17 monitors the presence or absence of a fire detection by the detection unit 11 in normal times, and when the detection unit 11 detects a fire, the sound / display unit 12 sounds an alarm sound and performs a blinking display. The interlock signal is sent from 15 to other fire alarms. Further, while the alarm sound is sounding, the presence or absence of pressing of the switch unit 14 is monitored. When the alarm sound is pressed, the alarm sound is stopped and the display lamp is turned off. Stop sending. That is, the switch unit 14 also functions as a fire alarm operation stop switch.

Next, the control content as the test control unit by the control unit 17 will be described.
The trial alarm operation is performed by causing the sound / display unit 12 to sound an alarm sound with the same sounding pattern as when a fire is detected, and to cause a flashing display with the same blinking pattern. Further, together with these notification operations, an interlock signal is sent from the interlock signal transmitter 15 to another fire alarm. Such a test alarm operation is continued until the pressing state of the switch unit 14 is completed. That is, when the pressing of the switch unit 14 stops, the control unit 17 terminates all of the alarm sound, blinking display, and interlocking signal output.

Next, the contents of control by the control unit 17 as the interlock control unit will be described.
Control of the interlock control unit is executed when a interlock signal is received from another fire alarm. The interlocking signal is transmitted to the outside regardless of whether a fire is detected or when the switch unit 14 is pressed. Regardless of which of these signals is received, the control as the interlocking control unit is executed.
The control unit 17 monitors the reception of the interlocking signal from the outside during normal times, and when the interlocking signal is received, the sound / display unit 12 sounds an alarm sound in the same pattern as when a fire is detected, and blinks in the same pattern. Make it.
The notification control executed in the interlock control unit ends when the switch unit 14 is pressed or the reception of the interlock signal is stopped.

Next, the control content as a short circuit alarm control part by the control part 17 is demonstrated.
The control of the short-circuit alarm control unit is executed when the control unit 17 of the fire detection unit 10 serving as a parent device receives a short-circuit signal from the power supply unit 20. The short circuit signal is transmitted from the short circuit signal transmission unit 25 when the short circuit monitoring unit 22 of the power supply unit 20 detects that a short circuit has occurred in the power supply and interlocking signal line L1, and short circuit alarm control is performed when the short circuit signal is received. Control as a unit is executed.
The control unit 17 monitors the reception of a short-circuit signal from the outside in normal times, and when receiving the short-circuit signal, causes the sound / display unit 12 to sound an alarm sound and perform blinking display in a pattern different from that at the time of fire detection.
The notification control executed in the short circuit alarm control unit is terminated when the reception of the short circuit signal is stopped.

(Fire alarm power supply)
The power supply unit 20 receives power supply from the household AC power supply 100V via the power supply wiring L2 and converts it into a DC power supply, and supplies power to the fire alarm device 2 as a slave unit via the power supply and interlocking signal line L1. And a fire alarm means 10 as a master unit and a power supply unit 21 for supplying predetermined power to the following units. Further, the power supply unit 20 monitors a short circuit occurring on the power supply / interlocking signal line L1 side, and sends a signal to the control unit 24 described below, and the power supply unit 21 to the power supply / interlocking signal line L1. A power supply switching unit 23 for switching the power supply path, a short-circuit signal transmission unit 25 for sending a short-circuit signal notifying that a short-circuit has occurred on the power supply / interlocking signal line L1 side to the fire alarm means 10 serving as a parent device, and short-circuit monitoring The control part 24 which receives the signal from the part 22 and makes the power supply switching part 23 switch a power supply path and outputs a short circuit signal to the short circuit signal transmission part 25 is provided.

Each part of these power supply parts 20 is arrange | positioned inside the attachment base 30, and this attachment base 30 is attached to the ceiling surface or wall surface of a house.
In the power supply unit 20, two internal power supply terminals 32, 32 provided on the mating surface 31 side of the mounting base 30 with respect to the main body 40 are provided on the mating surface 41 side of the main body 40 with respect to the mounting base 30. By connecting to the two internal power supply terminals 42, 42, power is supplied to the fire alarm means 10.

  The short-circuit monitoring unit 22 detects a short circuit occurring on the power supply / interlocking signal line L1 side from a sudden increase in the current value flowing through the power supply / interlocking signal line L1, and sends a signal to the control unit 24 when detected. It has become.

  The short-circuit signal transmission unit 25 is controlled by the control unit 24 and sends a short-circuit signal to the fire alarm means 10 as a master connected to the internal power supply terminals 32 and 32 via the power supply line.

  The power supply unit 21 supplies a power supply path L3 that supplies power with a large current value to the power supply / interlocking signal line L1 in a normal state and a power supply that is current-limited for monitoring recovery from a short-circuit state in the case of a short circuit. Two power supply paths of the power supply path L4 to be performed are provided.

  The power supply switching unit 23 is controlled by the control unit 24, and can normally supply power with a large current value from the power supply unit 21. In the case of a short circuit, the power supply unit L3 can supply power with a current limit for recovery monitoring. The power supply path L4 for performing the switching and the power supply path of the two systems are switched.

(Control unit of power supply unit)
The control part 24 is comprised, for example from a microcomputer, and performs control as a short circuit detection control part. The control content as the short-circuit detection control unit will be described. The control unit 24 controls the power supply switching unit 23 because there is no signal from the short-circuit monitoring unit 22 in normal times when the power supply and interlocking signal line L1 side is not short-circuited. Is switched to the power supply path L3 which can supply power with a large current value.
When a short circuit occurs on the power supply / interlocking signal line L1 side, the short circuit monitoring unit 22 detects a short circuit state by the large short circuit current and sends a signal to the control unit 24. Upon receiving this signal, the control unit 24 switches the power supply to the power supply / interlocking signal line L1 by the power supply switching unit 23 to the power supply path L4 on which the current limit for recovery monitoring is applied, and the short circuit signal transmission unit 25. To send a short circuit signal to the fire alarm means 10 as a parent device.
In addition, when the short circuit on the power supply / interlocking signal line L1 side is restored, the control unit 24 loses the signal from the short circuit monitoring unit 22, so that the power supply unit can supply power to the power switching unit 23 with a large current value. Switch to the L3 side.

(Fire alarm body)
The main body 40 and the mounting base 30 each have a substantially disk shape and are not shown, but have a coupling structure for coupling the circular mating surfaces 41 and 31 in close contact with each other. ing.
On the mating surface 41 side of the main body 40, internal power supply terminals 42 and 42 are provided in a protruding state.
On the other hand, the mounting surface 31 of the mounting base 30 is formed with slits through which the internal power supply terminals 42 and 42 can be inserted, and when the terminals 42 and 42 are inserted into the slits, The internal power supply terminals 32 and 32 are arranged to be connected to each other.

(Fire alarm mounting base)
The mounting base 30 is mounted by a known method such as screwing or bonding while the mounting surface 33 is in close contact with the wall surface or ceiling surface.
The external power input terminals 34 and 34 provided on the mounting surface 33 of the mounting base 30 are connected to a wiring L2 for supplying household AC power passed through the wall surface or the ceiling.
Further, the external power supply / interlocking signal terminals 35, 35 provided on the mounting surface 33 are connected to a power supply / interlocking signal line L1 that passes through the wall surface or the ceiling. Each power supply / interlocking signal line L1 is connected in parallel to each of the external power source / interlocking signal terminals 35A and 35A of the fire alarm device 2 as a plurality of slave units. In addition to supplying direct current power to the fire alarm device 2 which is a slave unit, the interlocking signal is transmitted and received.

(Fire alarm as a child unit)
As shown in FIG. 2, the fire alarm device 2 as a slave unit is a fire alarm using a fire alarm means 10 equal to the fire alarm device 1 that is a parent device and a DC power source that is supplied from the fire alarm device 1 that is a parent device. The power supply / interlocking signal transmission unit 20A for transmitting the interlocking signal as well as the power supply / interlocking signal transmission unit 20A and holding the power supply / interlocking signal transmission unit 20A are installed and installed at a fire detection location such as a ceiling or a wall surface. 30A and a main body 40 equal to the fire alarm 1 which is a parent device.

About the fire alarm 2 as a subunit | mobile_unit, only the structure different from the fire alarm 1 which is a main | base station is demonstrated.
The mounting base 30A is substantially the same in shape and structure as the mounting base 30 described above, and a slit for inserting the internal power supply terminals 42, 42 of the main body 40 is formed on the mating surface 31A. The same.
The mounting base 30 </ b> A is different from the mounting base 30 in that a power transmission unit 20 </ b> A is provided instead of the power source unit 20. The power transmission unit 20A is provided on the mounting surface 33A of the mounting base 30A, receives external power supply and transmits / receives interlocking signals, and the power supply / interlocking signal terminals 35A and 35A and the mounting base. The internal power supply terminals 32A, 32A connected to the internal power supply terminals 42, 42 and the external power / interlocking signal terminals 35A, 35A individually connected to the internal power supply terminals 42, 42 when the 30A and the main body 40 are connected are provided. ing.

(Various alarm operations of the fire alarm system)
With the above configuration, the fire alarm device 1 which is a parent device is supplied with AC power for household use from the outside via the external power input terminals 34 and 34 to the power supply unit 21, and the power supply unit 21 is used for AC power supply for home use. The power supply is changed from 100 V to a DC power supply, and power is supplied to the fire alarm device 2 as a slave unit via the power supply / interlocking signal line L1, and the fire alarm means 10 as the master unit and each part in the power supply unit 20 are predetermined. Supply power.
Therefore, the DC power is supplied to the fire alarm means 10 of the master unit and the slave unit to enter the fire monitoring state, and the DC power source is also supplied to the power supply unit 20 to enter the short circuit monitoring state. .
About a fire monitoring operation | movement, an interlocking | linkage operation | movement, and a test operation, the completely same operation | movement is performed, without distinguishing with the fire alarm device 1 which is a main | base station, and the fire alarm device 2 which is a sub_unit.

FIG. 3 is a flowchart showing control in the fire alarms 1 and 2 to which a fire detection or test operation instruction is input, and FIG. 4 is a flowchart showing control in the fire alarms 1 and 2 when receiving an interlock signal.
First, control of the fire alarms 1 and 2 to which a fire detection or test operation instruction has been input will be described. Here, for the sake of convenience of explanation, it is assumed that the fire alarm device 1 that is a parent device is inputted with a fire detection or test operation instruction, and a plurality of fire alarm devices 2 that are child devices are linked to this. And The following processing is executed by the microcomputer of the control unit 17 included in the fire alarms 1 and 2.

As shown in FIG. 3, the detection unit 11 of the fire alarms 1 and 2 constantly performs fire monitoring, and when a fire is detected (step S <b> 1: YES), a notification operation by the sound / display unit 12 (alarm sound and blinking) Display) and an interlock signal is sent from the interlock signal transmitter 15 to the fire alarms 1 and 2 (step S2).
During the execution of the notification operation, whether or not the switch unit 14 is pressed to stop it is monitored (step S3). When the pressing of the switch unit 14 is detected (step S3 = YES), the notification operation is stopped. At the same time, the transmission of the interlocking signal is stopped (step S4).

When no fire is detected by the detection unit 11 of the fire alarm device 1 (step S1: NO), it is determined whether or not a test operation instruction has been input based on whether or not the switch unit 14 is pressed, and the switch unit 14 is also pressed. If not, the process is terminated (step S5: NO).
On the other hand, when a test operation instruction is input by pressing the switch unit 14 (step S5: YES), the control unit 17 performs the same notification operation as that at the time of fire detection and from each interlocking signal transmission unit 15 to each fire alarm 1 , 2 are sent to the interlocking signal (step S6).
The notification operation and the interlocking signal output are continuously executed as long as the pressing operation of the switch unit 14 is continued. Accordingly, the control unit 17 monitors whether or not the pressing of the switch unit 14 is stopped (switch off) (step S7). When the pressing is stopped (step S7: YES), the process proceeds to step S4 and a notification operation is performed. Stops transmission of the interlocking signal at the same time.

Next, the control of the fire alarms 1 and 2 when monitoring and receiving the interlock signal will be described.
As shown in FIG. 4, the control unit 17 of the fire alarms 1 and 2 constantly monitors whether or not the interlocking signal is received. If the interlocking signal is not received, the control unit 17 ends the processing ( Step S21: NO). When the interlock signal is received (step S21: YES), the control unit 17 executes a notification operation (alarm sound and blinking display) by the sound / display unit 12 (step S22).
During the execution of the notification operation, whether or not the switch unit 14 is pressed to stop the operation is monitored (step S23). When the switch unit 14 is detected to be pressed (step S23: YES), the notification operation is stopped. (Step S25).

When pressing of the switch unit 14 is not detected during the execution of the notification operation (step S23: NO), the control unit 17 monitors whether or not the interlocking signal from the fire alarms 1 and 2 continues and continues. If yes (step S24 = NO), the process returns to step S23.
When reception of the interlocking signal is interrupted (step S24: YES), the control unit 17 ends the notification operation (step S25).

Next, the control of the power supply unit 20 that monitors the short circuit generated on the power supply / interlocking signal line L1 side by the short circuit monitoring unit 22 will be described.
As shown in FIG. 5, the control unit 24 of the power supply unit 20 always monitors the presence or absence of the detection signal of the short-circuit monitoring unit 22, and when the detection signal is not received (step S <b> 31: NO), the control unit 17 The power supply switching unit 23 switches the power supply to the power supply / interlocking signal line L1 to the power supply path L3 side where a large current value can be supplied (step S32). Moreover, the short circuit signal to the fire alarm means 10 as a parent device by the short circuit signal transmission unit 25 is stopped (step S33).
However, when the detection signal is received (step S31: YES), the control unit 17 immediately limits the power supply to the power supply / interlocking signal line L1 by the power supply switching unit 23 and the current limit for recovery monitoring. Switch to the power supply path L4 (step S34). Moreover, the short circuit signal transmission unit 25 generates a short circuit signal to the fire alarm means 10 as a parent device (step S35).
Then, the control unit 24 of the power supply unit 20 constantly repeats the above control.

Next, the control of the fire alarm device 1 when the reception of the short circuit signal is monitored and received will be described.
As shown in FIG. 6, the control unit 17 of the fire alarm means 10 in the fire alarm 1 constantly monitors the presence or absence of a short circuit signal received by the interlock (short circuit) signal receiving unit 16 and does not receive the short circuit signal ( In step S41: NO, the control unit 17 performs a short circuit notification stop process and ends (step S42). Moreover, if a short circuit signal is received (step S41: YES), the control part 17 will perform the alerting | reporting operation (alarm sound and blinking display) by the sound and the display part 12, and will be complete | finished (step S43). In this case, it is desirable from the standpoint of system operation that the notification operation is different from the notification operation when the fire is detected or the interlock signal is received.
As described above, when the short circuit signal is not received, the control unit 17 performs a short circuit notification stop process. Therefore, when the short circuit signal from the power supply unit 20 stops, the notification operation is immediately stopped.

(Transmission of various signals by power supply line)
Conventionally, several methods have been proposed for transmitting various signals such as interlocking signals and short-circuit signals via a power supply line. Since a DC voltage is supplied to the power supply line, the supply voltage value is changed to a voltage value according to the signal to be transmitted, or an AC signal having a different frequency according to the signal to be transmitted is superimposed on the DC voltage. The method of making it take is taken.
However, the method of changing the supply voltage value must be a system that takes into account the stable supply of power, and the method of superimposing the AC signal has a problem of malfunctioning due to noise.
Therefore, in the present invention, a predetermined number of continuous pulses are periodically superimposed on the DC voltage, and the predetermined number of the continuous pulses is varied according to the content of the transmission information for transmission.
Since this method is used, the residential fire alarm system according to the present invention can stably supply power and be resistant to noise.

Next, the transmission method used in the present invention will be described in detail with reference to FIG.
First, when the interlock signal is transmitted from the fire alarm means 10, the pulse signal TM shown in FIG. In the embodiment, the pulse is a sine wave pulse, but it may be a rectangular wave pulse. This pulse train TM is composed of a predetermined number m of continuous pulses having a peak value Vb (for example, 1 V) and a pulse width T3 (for example, several hundred microseconds), and a period T2 (for example, several milliseconds) with an interval T4 (for example, several milliseconds) interposed therebetween. For example, several hundred milliseconds). This repetition is superimposed on the power supply line of the DC voltage Va (for example, several V) every period T1 (for example, several seconds).

This pulse train TM is sent to the fire alarm means 10 of another fire alarm device via the power supply / interlocking signal line L1, and detected by the interlock (short circuit) signal receiving unit 16 of the fire alarm means 10. The interlocking (short circuit) signal receiving unit 16 extracts a sine wave pulse from the DC voltage on the power supply / interlocking signal line L1, converts it into a rectangular wave pulse, and inputs it to the control unit 17.
The control unit 17 counts the number of continuous pulses of the input pulses, and if the number is a predetermined number m and the pulse train TM is detected a predetermined number of times, the transmitted signal is used as the interlocking signal. Can be determined.
In response to this determination, the control unit 17 executes control as the interlock control unit.

When the short circuit signal is sent from the power supply unit 20, the pulse train TN shown in FIG. 7B is repeatedly output from the short circuit signal transmission unit 25.
This pulse train TN is different from the pulse train TM of the interlocking signal output from the interlocking signal transmitter 15 only by a predetermined number n of consecutive pulses, and the other pulse height value Vb, pulse width T3, interval T4, The period T2 and the repetition period T1 are the same, and are sent to the fire alarm means 10 serving as a parent device superimposed on the power supply path.

This pulse train TN is sent to the fire alarm means 10 of the fire alarm device 1 as a parent device via the power supply path, and is detected by the interlock (short circuit) signal receiving unit 16 of the fire alarm means 10. The interlocking (short circuit) signal receiving unit 16 extracts a sine wave pulse from a DC voltage on the power supply path, converts it into a rectangular wave pulse, and inputs it to the control unit 17.
The control unit 17 counts the number of continuous pulses of the input pulses, and if the number is a predetermined number n and the pulse train TN is detected a predetermined number of times, the control unit 17 determines the received signal as the interlocking signal. It can be determined that it is a short circuit signal in distinction from the signal.
In response to this determination, the control unit 17 performs control as the short-circuit detection control unit.

1 Fire alarm (parent device)
2 Fire alarm (child unit)
DESCRIPTION OF SYMBOLS 10 Fire alarm means 11 Detection part 12 Sound / display part 14 Switch part 15 Interlocking signal transmission part 16 Interlocking (short circuit) signal receiving part 17 Control part 18 Power supply part 20 Power supply part 21 Power supply part 22 Short circuit monitoring part 23 Power supply switching part 24 Control unit 25 Short-circuit signal transmission unit 30 Mounting base 40 Body 100 Fire alarm system L1 Power supply and interlocking signal line

Claims (1)

Power is supplied from the fire alarm of the master unit to the fire alarm of the slave unit via the power supply and interlocking signal line, and each of the fire alarms of the master unit and the slave unit must be installed at the fire detection location. Fire alarm system including a main body for storing a fire alarm means that can be attached to and detached from the mounting base, detects a fire by the detection unit, and performs a notification operation by the sound / display unit In
The fire alarm mounting base Ichisu of the parent unit, and a power supply unit for supplying power to the fire alarm body of the power supply and the interlocking signal line and the master set, generated in the power supply and the interlocking signal line a fault detection unit for monitoring a short circuit, and the short-circuit monitoring unit before Symbol power supply and the interlocking signal line by a short-circuit signal to detect that the short circuit occurs inform the fire alarm body of the parent-shorting signal transmission unit provided with, wherein the fire alarm body master unit and slave unit is provided with a short-circuit signal receiving unit that receives a short signal from the short-circuit signal transmission unit,
When the short-circuit signal receiving unit receives a short circuit signal, sound and display unit of the fire alarm body of the parent unit is residential, characterized in that the notification operation for a short circuit to the power supply and the interlocking signal line is generated Fire alarm system.

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