KR950001129Y1 - Fire sensor - Google Patents

Abstract

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Description

Fire detector

1 is a fire detector circuit diagram of the present invention.

2 is a circuit diagram of a detector configured in a differential manner.

3 is a circuit diagram of a detector configured in a constant temperature type.

* Explanation of symbols for main parts of the drawings

1: fire detector 2: signal processor

3: Signal transmitter 4: Output terminal (current unit)

TR ₁ , TR ₂ : Transistor Th ₁ , Th ₂ , Th ₃ : Thermostat

R ₁₀ : Fixed resistance (for sensitivity setting)

The present invention relates to a fire detector that sends out a fire alarm by detecting a temperature change at the time of a fire. In particular, the object of the present invention is to select and use a differential function and a constant temperature function as a single sensor using a semiconductor thermostat.

Here, the differential function means to generate an alarm when the rate of change of temperature exceeds the specified temperature, regardless of the temperature.

In the past, mechanical and thermal structures were employed, making it impossible to select differential or constant temperature functions. There was also a use of semiconductors, but none of the three functions were economically constructed in a single detector.

This paper is designed to solve this inconvenience, and it is possible to simplify the production process by configuring the function of the differential constant temperature detector in one detector, selecting the detector function with the jump chip resistor, and changing the sensitivity value using the resistor. It is designed to reduce costs by enabling automation.

Hereinafter will be described in detail with reference to the accompanying drawings.

FIG. 1 shows the structure of the present invention, and as a circuit diagram, (1) is a detector (2), a signal processor (3) is a signal transmitter and (4) is a nonpolar circuit. Connect the output terminal of (4) to receiver.

The system is configured to receive the current required by the fire detector from the receiver and to receive it as a fire signal when the fire detector is activated and shorted.

Since the signal processing unit 2 is a known signal accumulation pulse output circuit diagram, the transistor TR ₁ remains in the conduction state as long as current flows from the circuit of the detection unit 1, so that the signal processing circuit does not operate and the detection unit 1 has zero potential. When the transistor TR ₁ is blocked, PUT oscillation starts and the SCR of the signal transmitter 3 is fired to short the output terminal and allow the receiver to fire.

The detector 1 connects the resistors R ₈ , R ₉ , and R ₁₀ to the transistor TR ₂ emitter, sets the voltage as the reference voltage at the point E, and the thermosensitive element Th ₁ when differential. Connect C point of the circuit where (Th ₂ ) (Th ₃ ) and resistor (R ₁₃ ) are connected in series to transistor TR ₂ base, and compare (E) emitter voltage and (C) base voltage. Cut off the current and if B <E, current of point D flows.

In the case of the constant temperature detector, connect the G point of the circuit in which the thermostat and the resistor (Th _1. R _13. R _14. Th ₂ ) are connected to the transistor (TR ₂ ) base, and the E point emitter voltage and the C point base voltage. In comparison, if E <B, the current at point D is cut off, and if B <E, the current at point D flows.

If the differential is a thermosensitive element (Th ₁₎ and (Th ₂₎ is a thermosensitive semiconductor (thermistor), a thermosensitive element (Th ₁₎ is exposed out of the sensor body will have installed so as to quickly adapt to external changes in temperature-sensing element (Th ₂ ) is in close contact with the sensor's outer PCB surface to delay and acclimate as the body temperature rises even if the outside temperature changes.

In the case of constant temperature, Th ₁ is a thermosensitive semiconductor, R ₁₄ is a fixed aberration, and Th ₂ is a temperature compensator.

Th ₁ is installed outside the detector body to quickly adapt to changes in temperature.

The operation of the detection unit will be described according to the detection method.

2 shows the case of a differential detector.

In this case, turn on the switch (SW ₂ ), set the switch (SW ₃ ) to No. 2, set R ₈ = R ₉ , and set R ₁₀ to the fixed resistance according to the standard sensitivity of the detector.

Usually Th ₁ . R ₁₃ . Since Th ₃ and Th ₂ have the same temperature, a constant voltage is set, and the voltage at the point C of the point E causes the voltage at the point E to be formed so that E> C by the resistance value of the resistor R ₁₀ . When Th ₁ is turned on, the detector is in a normal state, but when a fire occurs, if the external temperature rises rapidly, the resistance of Th ₁ decreases and the temperature does not change because Th ₂ goes crazy, so the resistance becomes Th ₁ > Th _2. Voltage rises to When C condition is established, the current at D point is cut off and when H <F is delayed by time constant of Rn, C ₃ , fire alarm is issued.

For mild temperature changes, such as heating or warming the climate, Th ₁ and Th ₂ become resistance values of Th ₁ = Th ₂ over a certain time slope and maintain a condition of E> G so that no fire alarm is issued.

3 shows the case of a constant temperature sensor.

At this time, switch SW1 is “on”, SW ₃ is selected at position 1, resistor R ₁₀ is adjusted and set according to the alarm temperature.

E voltage is R ₈ . R ₉ . R ₁₄ . Classify the sensitivity of the sensor by the combination of R ₁₀ resistance and Th ₁ . R ₁₃ . R ₁₄ . When the voltage of point G is formed by the combination of Th ₂ and the temperature sensor of Th ₁ changes in case of fire, As G becomes the circuit, the circuit operates normally. Since E> G, Th ₁ is mocked and the circuit circuit does not operate, so it becomes a monitoring state.

Claims (2)

In the case of using the thermosensitive element in the fire detection section, the transistor (TR ₂ ) base terminal is connected in series with the thermosensitive element (Th ₁ ). (Th ₂ ). (Th ₃ ) and the resistor (R ₁₃ ) between the power supply lines A and B. Connect with point C and fixed resistance (R ₈ ). (R ₉ ). (R ₁₀ ) Also connected in series, the transistor (TR ₂ ) emitter is connected to the point E, the collector of the transistor (TR ₂ ) and the resistor (R ₁₁ ). Connect (R ₁₂ ) in series, connect D point with transistor (TR ₁ ) base, connect resistor (R ₇ ) and (C ₃ ) in series, connect F point with transistor (TR ₁ ) collector, and TR ₁ ) Fire detector connected to emitter and point B. The thermosensitive element (Th ₁ ), (Th ₂ ), (R ₁₃ ) and the resistor (R ₁₄ ) are connected in series between the power supply lines A and B, and the transistor (TR ₂ ) base terminal and the G point. In connection with the fixed resistor (R ₈ ). (R ₉ ). (R ₁₀ ) Also connected in series, the transistor (TR ₂ ).