JPS61168096A - Individual operation circuit for fire sensor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention is applicable to a plurality of smoke detectors, heat detectors, gas leak detectors, etc. (hereinafter referred to as fire detectors) connected in parallel in a two-wire system.
The present invention relates to an operating circuit for a fire detector, and more particularly to an individual operating circuit for a fire detector that allows a plurality of connected fire detectors to operate individually.

Conventional technology The operating circuit of a conventional two-wire fire detector consists of a power source,
a receiving circuit connected in series to the power source and consisting of a relay, etc.;
It consists of a plurality of fire detectors connected in parallel to the output terminal of the receiving circuit, and its operation is such that when a fire occurs, one of the fire detectors senses the occurrence of a fire, and the sensing signal triggers the relay in the receiving circuit. was activated, and the line was short-circuited, reducing the potential of the line to zero.

Problems to be Solved by the Invention Therefore, from then on, other fire detectors will not operate, that is, the activation of one fire detector will only notify that a fire has occurred, and if the alarm signal is activated, the fire will not be detected. This has the problem that other equipment, such as fire extinguishing equipment and smoke exhaust equipment, may be operated even in areas where no smoke is occurring.

The present invention enables each fire detector to operate individually even in a plurality of fire detectors connected in parallel, and enables the operation of each device to be controlled based on the detection signal of the activated fire detector. The purpose is to provide an individual operating circuit for a sensor.

Means for Solving the Problems According to the present invention, the above problems are solved by connecting a plurality of fire detectors in parallel and each having its own impedance, and connecting a power supply voltage to the plurality of fire detectors when a fire is detected. This problem can be solved by configuring a receiving circuit that re-supplies the signal to the receiver.

Example Hereinafter, the present invention will be explained based on embodiments shown in the drawings.

(1) is a receiving circuit to which a power supply voltage from a power supply (E) is input. (2a, 2b, . . . 2n) μ fire detectors, output terminals (L, R) of the receiving circuit (1)
Multiple units are connected in parallel to each other.

Each of the fire detectors (2a, 2b, . . . 2n) includes a sensor (3a, 3b, . . . 3) that detects smoke, heat, gas leakage, etc.
n) and resistors (5a, 5b, . . . ) connected in series to the sensors (3a, 3b, -3n) via diodes (4a, 4b, . . . 4n) and having a specific impedance.
5n). That is, while conventional fire detectors did not have impedance, the fire detector according to the present invention is provided with impedance. Therefore, even if any of the sensors (3a, 3b, . . . 3n) is activated, the output terminals (L, R) of the receiving circuit (1)
The potential between them is not zero.

The receiving circuit (1) is connected to the fire detector (2a, 2b,
. . . 2n) is activated, a fire detection section (6) detects it by electric current, a self-holding circuit (7) that maintains the current flowing through the circuit at that time, and a fire detection section ( It consists of a fire district relay (8) which is activated by the operation of (6).

The fire detection section (6) consists of a fire detection resistor (9) and a PNP transistor (10) connected in parallel to the fire detection resistor (9), the input side of which is connected to the positive side of the power source (E). .

The self-holding circuit (7) consists of a diode (11) and a resistor (12), and its input side is connected to the fire detection section (6).
), and the output side is connected to the fire district relay (8).
is connected via a fire light (13) consisting of a photodiode.

(14) is an NPN type transistor that is activated by the operation of the transistor (10) of the fire detection section (6), and its base side is connected to the collector side of the transistor (10), and the collector side is connected to the self-holding circuit described above. (7) and the fire area relay (13) via the fire light (13).
8).

(15) is a contact point of the fire district relay (8), one end of which is the connection point ( a), and the other end is connected to a connection point (b) on the output side of the fire detection section (6).

(16) is a photocoupler, and the fire detection section (6) is a photocoupler.
) is connected between the output side of the terminal (C) and the connection point (C), and the fire detector (2a, 2b...2n)
It automatically detects whether a line with many connected lines is disconnected.

(17, 18) are diodes for reverse current blocking, the diode (17) is connected between the connection point (C) and (b), and the diode (18) is connected between the connection point (b) and the ground side. has been done.

(19a, 19b ・19n) and (20a, 20b
・20n) is a resistor having a diode and a specific impedance, and is connected to the fire detector (2a, 2b).
...2n) are connected in parallel with diodes (4a, ab...4n) and resistors (5a, 5b...5n),
Each has an output terminal (P). Multi-output terminal (P)
An oscillator (OSC) and a light emitting diode (D) are connected to the oscillator (OSC) and the light emitting diode (D). Therefore, each fire detector (2a, 2b...2
n), each sensor (3a, 3b...3n) has a different unique frequency.
3b...3n) is activated, the corresponding frequency transmission is obtained by the oscillator (OSC), and it is possible to know which fire detector has activated, and to detect the occurrence of a fire. Each output terminal (P) can be used to activate appropriate disaster prevention equipment, and to display the location of the fire as an outdoor indicator using a light emitting diode (D).
It is possible to use

(21) is a terminating resistor for a line in which the fire detectors (2a, 2b, . . . , 2n) are connected in parallel, through which a minute current flows at all times (during monitoring).

Operation The present invention is configured as described above, and its operation will be explained next.

At all times, that is, in the fire monitoring state, the power supply (E)
Voltage is applied to the termination resistor (21) through the fire detection resistor (9) of the fire detection unit (6), the photocoupler (16), and the diode (11), and a minute current flows through the termination resistor (21). ing. Therefore, the output terminal (
Multiple fire detectors (2a, 2b...
2n) connected in parallel, the photocoupler (16) will automatically detect it, so in the event of a fire, each fire detector (2a, 2b...
In other words, the photocoupler (16) plays the role of monitoring whether or not the line is disconnected.

Next, when a fire occurs, for example, when the sensor (3a) of the fire detector (2a) detects smoke or the like and is activated, current flows through the diode (4a) and resistor (5a), causing the fire detector ( 2a) is in the on state. When the fire detector (2a) is turned on, a current larger than the minute current during monitoring flows through the fire detection resistor (9), turning the transistor (10) on. That is, when a current flows through the fire detection resistor (9), the fire detection section (6°) detects the occurrence of a fire using the current. When the transistor (10) is turned on, the transistor (14) is turned on and the fire area relay (8) is activated, and the fire light (13) indicates the occurrence of a fire. Then, current flows through the self-holding circuit (1) and holds this circuit self-holding. In addition, fire detector (
2a) has a resistor (5a), so the output terminal (
There will be a constant impedance between L and R, and no short circuit will occur.

Activation of the fire district relay (8) causes its contacts (15
) falls, and the voltage from the power supply (E) is transferred to the receiving circuit (1) through the connection point (a), contact (15) and connection point (b).
is resupplied to the output terminals (L, R) of Therefore, the power (E) is resupplied to the fire detectors (2b...2n) other than the fire detector (2a) that is operating due to the fire outbreak, so the fire detector that is not operating is Vessel (2b...
2n) can also be operated individually.

Effects of the Invention As described above, according to the present invention, a resistor is added to each of the plurality of fire detectors connected in parallel so as to have a constant impedance, so that the fire detector is activated when a fire occurs. However, there is no short circuit between the output terminals of the receiving circuit.

Further, since a fire detection resistor is provided in the fire detection section of the receiving circuit and fire occurrence is detected by detecting current, the circuit configuration is simplified.

Furthermore, since the power supply voltage is resupplied to the output terminal side of the receiving circuit upon detection of the occurrence of a fire, the plurality of fire detectors connected in parallel can operate individually and sequentially thereafter. Therefore, the hot water area where the fire occurred can be determined, and appropriate disaster prevention equipment can be operated, and people can be guided appropriately.

[Brief explanation of drawings]

The figure is an individual operation circuit diagram of the fire detector according to the present invention. (1): Receiving circuit, (2a, 2b, 2n): Fire detector, (5a, 5b
・5n): Resistor, (6) Second fire detection section, (1): Self-holding circuit, (8): Fire area relay, (15): Contact, (17):
Diode, (E): Power supply.

Claims (1)

[Claims] [1] The fire detector is characterized by comprising a plurality of fire detectors connected in parallel and each having its own impedance, and a receiving circuit that resupplies power supply voltage between output terminals when a fire is detected. Individual operating circuit for a fire detector. [2] The receiving circuit includes a fire detection section, a self-holding circuit that self-holds the circuit when a fire is detected, a fire district relay that is activated by the operation of the fire detection section, and a power supply voltage that is controlled by the operation of the fire district relay. 2. An individual operating circuit for a fire detector according to claim 1, comprising means for resupplying power between the output terminals and a diode for blocking reverse current by the resupplied power supply voltage.