JPS6339820Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a circuit for detecting a fault in a bell wire installed in a fire alarm area.

In the event of a fire outbreak, if the bell wire installed in the relevant alarm area is disconnected or short-circuited to ring the bell, the bell will not be able to ring in the event of a fire outbreak. Therefore, conventionally, a first diode is connected in series to the bell wire, and a voltage with a polarity that does not make the first diode conductive is normally applied to the bell wire, and the terminal of the bell wire is connected to this polarity. A method has been adopted in which a constant monitoring current is passed through the bell wire by connecting a resistor to a second diode having a polarity that allows the current to pass through, and a disconnection of the bell wire is monitored by detecting the monitoring current. There is. However, the conventional monitoring method described above has the disadvantage that short-circuit faults in the bell wire cannot be detected. In addition, when a fire occurs and the polarity of the voltage supplied to the bell wire is reversed to ring the bell, the second diode is turned off and the aforementioned monitoring current no longer flows, so it may be mistakenly assumed that the bell wire is disconnected. There is a drawback that it makes a judgment and generates a disconnection alarm, etc.

SUMMARY OF THE INVENTION An object of the present invention is to provide a fault detection circuit for fire alarm district bell wires that can detect not only disconnections but also short circuits in the bell wires.

Another object of the present invention is to provide a fault detection circuit that will not erroneously issue a bell wire fault alarm in the event of a fire.

The fault detection circuit of the present invention includes a first and a second fire alarm district bell wire connecting a pair of fire alarm district bell wires each having a bell having diodes connected in series and a terminal resistor having a terminal resistor having a diode of opposite polarity connected in series.
a first switch connected in series between the first terminal and the positive power source and turned on by a fire signal; and a first switch connected in series between the second terminal and the negative power source and connected in series to detect a fire. a second switch turned on by a signal; a resistor connected between the second terminal and the positive power source; and a monitoring current detection circuit connected between the first terminal and the negative power source. , and a voltage detection circuit connected between the first terminal and a negative power supply.

Further, according to the present invention, it is possible to easily configure a fire signal to prohibit detection of a fault in the bell wire.

Next, the present invention will be explained in detail with reference to the drawings.

The figure is a circuit diagram showing an embodiment of the present invention.
That is, the emitter of transistor _Q1 is connected to the positive power supply, and the collector is connected to the first terminal B+. The base is connected to the positive power supply through resistor R ₁ and also resistor
Input the inverted signal of the fire signal through _R2 .
The transistor _Q1 constitutes a first switch. In other words, since the inverted signal of the fire signal is normally at a high level, the base of transistor _Q1 is the same as the positive power supply voltage, so it is in the off state, and when the fire signal is input, the base potential of transistor _Q1 drops, so it is in the on state. Become. Similarly transistor
Connect the emitter of Q ₂ to the negative power supply and the collector to the second terminal B-. A fire signal is input to the base through resistor _R3 , and it is also connected to the negative power supply through resistor _R4 . The transistor _Q2
is the second switch.

Further, a positive power source is connected to a second terminal B- through a resistor _R5 , and a first terminal B+ is connected to a negative power source through a series connection circuit of resistors _R6 and _R7 . The connection point between the resistors R ₆ and R ₇ is connected to the base of the transistor Q ₃ , and the emitter of the transistor Q ₃ is connected to the negative power supply, and the collector is connected to the positive power supply through the resistor R ₁₀ . A high level is output from the collector of the transistor _Q3 when a disconnection is detected. That is, resistors R ₆ , R ₇ , R ₁₀ and transistor Q ₃ constitute a monitoring current detection circuit. The monitoring current normally flows through the path of positive power supply → resistor R ₅ → second terminal B- → resistor Re → diode D _e → first terminal B+ → resistor R ₆ → resistor R ₇ → negative power supply. Therefore, a positive potential is applied to the base of transistor _Q3 , and since transistor _Q3 is in an on state, its collector is at a low level. When the bell wire is disconnected, the monitoring current does not flow, so the transistor _Q3 is turned off, and its collector potential becomes high level.

Next, the first terminal B+ is connected to the base of the transistor Q _{4 through the resistor R 3} and the Zener diode Z, and _{the base of the transistor Q 4 is} connected to the resistor
Connect to the negative power supply through R ₉ , and also connect the emitter to the negative power supply. The collector of transistor Q ₄ is a resistor
Connected to the positive power supply via _R11 . The collector of the transistor _Q4 is always at a high level,
Low level when the bell wire is short-circuited. That is, a voltage detection circuit is configured by resistors R ₈ , R ₉ , R ₁₁ , Zener diode Z, transistor Q ₄ and the like. The Zener diode Z does not conduct due to the potential generated at the first terminal B+ by the constant monitoring current, and when the terminals B-B+ are short-circuited, the Zener diode Z
It is set to conduct by the voltage generated at . For example, R ₅ = 10KΩ, Re = 68KΩ, R ₆ = 68KΩ,
When V _Z is set to 15V, the above conditions are satisfied within the power supply voltage range of 20.4V to 28.8V. Therefore, it is possible to detect a short circuit in the bell wire by the voltage detection circuit.

Next, the operation of this embodiment will be explained. Normally, a positive potential is output from the positive power supply to the second terminal B-, and a monitoring current flows through the terminal resistor Re _and the diode _De , turning on the transistor _Q3 , and its collector potential is at a low level. If the bell wire is disconnected, the above monitoring current will not flow, so transistor _Q3
turns off and its collector goes high. This allows a disconnection of the bell wire to be detected. When the bell wire is short-circuited, the potential of the first terminal B+ becomes high, the Zener diode Z becomes conductive, the transistor _Q4 is turned on, and its collector potential becomes low level, and a short-circuit is detected. In addition, when a fire occurs, transistor Q ₁ is activated by inputting a fire signal.
And since Q ₂ is turned on, a positive voltage is output to the first terminal B+, making it possible to ring the bell B.
In this case, since the transistor _Q3 maintains an on state due to the positive potential of the first terminal B+, a disconnection signal of the bell wire is not output. However, when the Zener diode becomes conductive, transistor _Q4 is turned on, and a short-circuit signal of the bell wire is output.

In order to solve this drawback, it is sufficient to input the inverted signal of the fire signal to the connection point between the resistor _R8 and the Zener diode Z. That is, when a fire occurs, the Zener diode Z is forced to a low level by the inverted signal and does not conduct, so the transistor _Q4 remains off. That is, the configuration is such that the voltage detection circuit is prohibited from operating when a fire signal is input. Therefore, no short circuit signal is output. However, this configuration is not an essential component of the present invention.

As described above, in the present invention, diodes of opposite polarity are connected in series to the bell connected to the bell wire and the terminal resistor, respectively, and a monitoring current is normally passed through the terminal resistor to monitor for disconnection. Since the system is equipped with a voltage detection circuit that detects the rise in terminal voltage that occurs when the bell wire is short-circuited, and is configured to monitor short-circuits, it is possible to monitor all faults in the bell wire.

Note that if an inverted signal of the fire signal is also input to the voltage detection circuit, it is possible to prevent a false determination that there is a failure in the bell wire when a fire occurs.

[Brief explanation of the drawing]

The figure is a circuit diagram showing an embodiment of the present invention. In the figure, _R1 to _R11 ...Resistor, Re _... Terminal resistance, _Q1 to _Q4 ...Transistor, De _... Diode, Z...Zener diode, B...Bell.

Claims (1)

[Claims for Utility Model Registration] (1) A first line connecting a pair of fire alarm district bell wires, each of which has a bell connected in series with a diode and a terminal resistor connected in series with a diode of opposite polarity to said diode. and a second terminal;
a first switch connected in series between the terminal and the positive power source and turned on by a fire signal; and a first switch connected in series between the second terminal and the negative power source and turned on by the fire signal. a resistor connected between the second terminal and the positive power supply; a monitoring current detection circuit connected between the first terminal and the negative power supply; A fault detection circuit for a fire alarm district bell line, comprising: a voltage detection circuit connected between a negative power supply and a voltage detection circuit. (2) Utility Model Registration Scope of Claim 1 The failure detection circuit for a fire alarm district bell line as set forth in claim 1 is characterized in that the voltage detection circuit is configured to prohibit operation when a fire signal is input.