KR101565105B1 - Fire detector - Google Patents

Abstract

When the measured temperature value of a building input by a microcomputer starts to change, a temperature immediately before the change is set as a reference temperature, and when the temperature change is equal to or greater than a set value during the check time at the reference temperature, And a fire detector for outputting a trigger signal to the circuit unit.
A fire detector according to the present invention includes a temperature sensing unit 10 for sensing a room temperature of a building, a microcomputer 20 for receiving a measured value of the temperature sensing unit 10 to determine whether or not there is a fire, A switching circuit 30 for applying power to the fire relay 5 when a signal is input, a bridge diode 40 for receiving power from the fire receiver, and a microcomputer for driving the voltage output from the bridge diode 40 to a microcomputer The microcomputer 20 sets the temperature immediately before the change to the reference temperature when the measurement value input from the temperature sensing unit 10 starts to change, It is determined that a fire has occurred and the trigger signal is output to the switching circuit unit 30. If the temperature change is less than the set value, The standing point of the temperature change is stopped characterized in that to reset the reference temperature.

Description

Fire Detector {FIRE DETECTOR}

More particularly, the present invention relates to a fire detector, more specifically, when a room temperature measurement value input to a microcomputer starts to change, a temperature immediately before a change is set as a reference temperature, A trigger signal is output to the switching circuit section. When the temperature is below a set value, the fire detector detects a temperature change within the check time as a normal temperature change, .

Korean Patent No. 10-0842311 (registered on June 24, 2008) discloses a " differential fire alarm system ".

The differential type fire alarm apparatus includes a first temperature sensor mounted in a state protruding from a PCB substrate and sensing a change in the temperature of the outside air, and a second temperature sensor mounted on the PCB substrate to detect the heat of the air coming from below to be later than the first temperature sensor. A temperature sensing unit having two transistors and five resistances and sensing a change in temperature of the outside; A triple rejection transistor including two transistors that are conductive when the first temperature sensor absorbs heat, four resistors, and one capacitor; And an LED display including two transistors, two resistors, two capacitors and a light emitting element, and displaying an alarm condition in response to the tree rejection.

However, the above-described conventional differential fire alarm system has a disadvantage in that a malfunction occurs when the temperature change rate of the PCB is changed due to an external environment such as humidity.

Accordingly, it is an object of the present invention to provide a method for controlling a room temperature of a building, the method comprising: setting a temperature immediately before the change to a reference temperature, And the trigger signal is output to the switching circuit section. When the temperature difference is lower than the set value, the temperature is recognized as a general room temperature change, and the reference temperature is reset at the point where the temperature change is stopped within the check time. And to provide a fire detector which can accurately detect a fire without malfunction due to external environmental factors such as humidity.

According to an aspect of the present invention, there is provided a fire detector including a temperature sensing unit for sensing a room temperature of a building, a microcomputer for receiving a measurement value of the temperature sensing unit to determine whether there is a fire, A bridge diode for receiving power from a fire receiver; and a constant voltage circuit for lowering a voltage output from the bridge diode to a driving voltage for a micom,

When the measured value input from the temperature sensing unit starts to change, the microcomputer sets the temperature immediately before the change to the reference temperature. When the temperature change is equal to or greater than the set value during the check time at the reference temperature, A trigger signal is output. When the temperature difference is less than the set value, it is determined that the change is a general room temperature, and the reference temperature is reset at a point where the temperature change is stopped within the check time.

The microcomputer determines that a fire has occurred when the temperature rises by more than 6 ° C within 10 seconds of the check time.

If the difference between the temperature at the end of the check time and the reference temperature is 15 ° C or more, the microcomputer may reset the check time (1 minute) .

The temperature sensing unit is comprised of a thermistor and a resistor which are provided outside the fire sensor and sense a room temperature of the building. When the room temperature rises, the voltage applied to the thermistor rises. And the microcomputer reads the voltage input through the thermistor and recognizes the external temperature.

The switching circuit is a circuit operated by the output of the microcomputer. The output of the microcomputer is applied to the base of the third transistor and the collector of the second transistor. A fire indication lamp is connected to the collector of the third transistor. And a collector terminal of the transistor is connected to the base of the second transistor and the emitter of the second transistor.

The constant voltage circuit part is for lowering the DC 24V output from the bridge diode to a constant power source (DC 5V) of the microcomputer. The base of the first transistor and the collector are connected to the output terminal of the bridge diode through a resistor, a capacitor, and a Zener diode .

Thus, the fire detector according to the present invention can reduce the manufacturing cost by using only one thermistor for temperature sensing, and can accurately detect fire without malfunction due to external environmental factors such as humidity.

1 is a circuit diagram showing a fire detector according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, the fire detector according to the present invention includes a temperature sensing unit 10 for sensing a room temperature of a building, a microcomputer 20 for receiving a measured value of the temperature sensing unit 10 and determining whether or not there is a fire, A switching circuit 30 for applying power to the fire relay 5 when a signal is input from the microcomputer 20, a bridge diode 40 for receiving power from a fire receiver (not shown) And a constant voltage circuit unit 50 for lowering the voltage (24V) output from the diode 40 to the micom drive voltage (5V).

When the measured value input from the temperature sensing unit 10 starts to change, the microcomputer 20 sets the temperature immediately before the change to the reference temperature, and when the temperature change is greater than the set value during the check time at the reference temperature A trigger signal is output to the switching circuit unit 30. When the temperature is lower than the set value, it is determined that the room temperature is a normal temperature change, and the reference temperature is reset at a point where the temperature change is stopped within the check time.

That is, for example, when the measured value input to the microcomputer 20 from the temperature sensing unit 10 is maintained at 18 ° C and the temperature of the measured value begins to rise, the microcomputer 20 sets the reference temperature to 18 ° C If the temperature rises above 6 ° C for 30 seconds at the reference temperature, it is recognized as a fire. If the temperature rises below 6 ° C for 30 seconds at the reference temperature, it is recognized as a normal room temperature change. The reference temperature is reset to, for example, 24 占 폚.

If the temperature of the microcomputer 20 rises by 6 ° C or more within 10 seconds of the check time (30 seconds), it is determined that a fire has occurred.

The microcomputer 20 resets the check time (1 minute) again when the temperature that has been raised during the check time continues to rise even after the check time has elapsed. If the difference between the temperature at the end of the check time and the reference temperature difference is 15 ℃, it is judged as a fire.

When the temperature input from the temperature sensing unit 10 is lower than the reference temperature, the microcomputer 20 resets the reference temperature at intervals of 10 minutes without recognizing the fire.

In the fire detector according to the present invention, only one thermistor is used for temperature sensing, the manufacturing cost can be lowered, and fire detection can be accurately performed without malfunction due to external environmental factors such as humidity.

The temperature sensing unit 10 is composed of a thermistor NTC and a resistor R3 which are provided outside the fire sensor and sense a room temperature of the building and a resistance R3. When the room temperature rises, The voltage is increased. The microcomputer 20 stores a temperature table corresponding to the input voltage, and the microcomputer 20 reads the voltage input through the thermistor NTC and recognizes the external temperature.

The switching circuit 30 is a circuit operated by the output of the microcomputer 20. The output of the microcomputer 20 is applied to the base of the third transistor Q3 and the collector of the second transistor Q2, A fire indication lamp (LED) is connected to the collector terminal of the transistor Q3 and the collector terminal of the third transistor Q3 is connected to the base of the second transistor Q2 and the emitter of the second transistor Q2 .

Thus, when the high-potential trigger signal is input from the microcomputer 20 to the base of the third transistor Q3, the third transistor Q3 is turned on. A low potential is applied to the base of the second transistor Q2 due to the turn-on of the third transistor Q3 to turn on the second transistor Q2, ) Is turned on. As a result, the third and the second transistors Q3 and Q2 of the switching circuit unit 30 are energized and the output through the bridge diode 40 establishes a closed loop through the switching circuit unit 30, ), A fire alarm is generated by the switching operation of the relay 5, and the fire extinguishing operation is performed

The constant voltage circuit unit 50 is for lowering the DC 24V output from the bridge diode 40 to a constant voltage source DC 5V of the microcomputer 20. The constant voltage circuit unit 50 includes a resistor R4 and a capacitor C3 And a zener diode ZD2. The base of the first transistor Q1 and the collector of the first transistor Q1 are connected to each other.

As a result, when DC 24V is supplied from the bridge diode 40, a constant voltage is charged to the capacitor C3 via the resistor R4 and a constant voltage is generated by the Zener diode ZD2, (Q1) to turn on the first transistor (Q1). A constant voltage (DC 5V) is output from the emitter of the first transistor (Q1) which is turned on.

10: Temperature sensing unit 20: Microcomputer
30: switching circuit part 40: bridge diode
50: Constant voltage circuit

Claims (6)

A microcomputer 20 for receiving a measured value of the temperature sensing unit 10 to determine whether there is a fire or not, a microcomputer 20 for receiving a signal from the microcomputer 20, A switching circuit unit 30 for applying power to the relay 5, a bridge diode 40 receiving power from a fire receiver, and a constant voltage circuit unit 40 for lowering the voltage output from the bridge diode 40 to a microcomputer driving voltage. (50)
When the measured value inputted from the temperature sensing unit 10 starts to change, the microcomputer 20 sets the temperature immediately before the change to the reference temperature, and when the temperature change is equal to or more than the set value during the check time at the reference temperature, And outputs a trigger signal to the switching circuit unit 30. When the temperature difference is less than the set value, it is determined that the change is a general room temperature, and the reference temperature is reset at a point where the temperature change is stopped within the check time,
The temperature sensing unit 10 is composed of a thermistor NTC and a resistor R3 which are provided outside the fire sensor and sense a room temperature of the building and a resistance R3. When the room temperature rises, The voltage is increased and the temperature table according to the input voltage is stored in the microcomputer 20. The microcomputer 20 reads the voltage input through the thermistor NTC and recognizes the external temperature. sensor.
delete delete delete A microcomputer 20 for receiving a measured value of the temperature sensing unit 10 to determine whether there is a fire or not, a microcomputer 20 for receiving a signal from the microcomputer 20, A switching circuit unit 30 for applying power to the relay 5, a bridge diode 40 receiving power from a fire receiver, and a constant voltage circuit unit 40 for lowering the voltage output from the bridge diode 40 to a microcomputer driving voltage. (50)
When the measured value inputted from the temperature sensing unit 10 starts to change, the microcomputer 20 sets the temperature immediately before the change to the reference temperature, and when the temperature change is equal to or more than the set value during the check time at the reference temperature, And outputs a trigger signal to the switching circuit unit 30. When the temperature difference is less than the set value, it is determined that the change is a general room temperature, and the reference temperature is reset at a point where the temperature change is stopped within the check time,
The switching circuit 30 is a circuit operated by the output of the microcomputer 20. The output of the microcomputer 20 is applied to the base of the third transistor Q3 and the collector of the second transistor Q2, A fire display lamp is connected to the collector terminal of the transistor Q3 and the collector terminal of the third transistor Q3 is connected to the base of the second transistor Q2 and the emitter of the second transistor Q2 A fire detector.
A microcomputer 20 for receiving a measured value of the temperature sensing unit 10 to determine whether there is a fire or not, a microcomputer 20 for receiving a signal from the microcomputer 20, A switching circuit unit 30 for applying power to the relay 5, a bridge diode 40 receiving power from a fire receiver, and a constant voltage circuit unit 40 for lowering the voltage output from the bridge diode 40 to a microcomputer driving voltage. (50)
When the measured value inputted from the temperature sensing unit 10 starts to change, the microcomputer 20 sets the temperature immediately before the change to the reference temperature, and when the temperature change is equal to or more than the set value during the check time at the reference temperature, And outputs a trigger signal to the switching circuit unit 30. When the temperature difference is less than the set value, it is determined that the change is a general room temperature, and the reference temperature is reset at a point where the temperature change is stopped within the check time,
The constant voltage circuit unit 50 is for lowering the DC 24V output from the bridge diode 40 to a constant voltage source DC 5V of the microcomputer 20. The constant voltage circuit unit 50 includes a resistor R4 and a capacitor C3 And the collector of the first transistor is connected to the collector of the first transistor through a Zener diode.

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