KR890006147Y1 - Thermostatic detecting circuit - Google Patents

Abstract

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Description

Temperature control and thermistor presence discrimination circuit

1 is a circuit diagram of the present invention.

2 is a waveform diagram of each part of the present invention circuit diagram.

* Explanation of symbols for main parts of the drawings

1: temperature control unit 2: thermistor "presence or absence judgment part"

3: heater driving unit 4: heater malfunction control unit

OP ₁ : Comparator Q ₁ -Q ₇ : Transistor

AD ₁ , AD ₂ : Andgate BZ: Buzzer

RY ₁ : Relay H: Heater

T: Triac PC: Photocoupler

AS ₁ : Analog Switch FF ₁ : Flip-Flop

IC ₁ : Timer element LED ₁ : Light emitting diode

A, B: control signal

The present invention relates to a circuit for determining the temperature control and thermistor presence by the heater drive control signal, and automatically detects the malfunction state of the heater.

Conventionally, in a heating circuit that maintains the temperature of the heater according to the output of the thermistor, the heater is continuously driven even when the thermistor is short-circuited while the heater is operating, and the heater is not overloaded, and the heater is not driven correctly according to the output of the temperature controller. Even if it is overloaded, it may cause an electric accident due to overheating.

The present invention is to provide a circuit that can provide reliability to the heating equipment using the heater by sensing the presence or absence of the thermistor and the malfunction of the heater during temperature control in consideration of such a point. The heater driving unit for driving the heater according to the output of the temperature control unit of the determination unit and the heater malfunction control unit for controlling this when the heater malfunctions.

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

1 is a circuit diagram of the present invention, the temperature control unit 1 to which the control signals A and B are applied is a capacitor C ₁ and a resistor R ₃ -R ₇ through transistors Q ₁ and Q ₂ . Is configured to apply the divided voltage to the comparator (OP ₁ ) and the diode (D ₁ ) and hysteresis resistor (R ₈ ) at the other terminal (-), the diode (D ₁ ) at one terminal (+), and the output side. By configuring the transistor Q ₄ connected to the photocoupler PC on the collector side through the analog switch AS _{1 to} which the output of the transistor Q ₃ is supplied, the triac connected to the heater H is controlled. The heater driving unit 3 is configured to drive T ₁ ).

In addition, the outputs of the control signals A and B applied through the inverter I ₃ and I ₄ and the output of the temperature controller 1 emit light to the collector side through an AND gate AD ₂ connected to the diode D ₃ . Configure the demister or not determining unit 2 so that the transistor Q ₈ constituting the diode LED ₁ is driven, the control signal A, the control signal B applied through the inverter I ₂ and the inverter ( The output of the temperature controller 1 applied through I ₁ ) is configured to be applied to the flip-flop FF ₁ through the AND gate AD ₁ , and to the transistor Q ₇ through the timer device IC _{1 on} one side. The heater malfunction control unit 4 is configured to control the transistor Q ₆ connected to the relay RY ₁ through the transistor Q ₅ connected to the buzzer BZ on the other side of the collector.

In this case, the relay RY ₁ maintains the state in which the transistor Q ₆ is connected by the power supply VCC and is normally connected to the relay switch RS.

The present invention configured as described above is driven sequentially by the control signals (A) and (B). When the control signals (A) and (B) supplied as shown in FIG. To judge the presence.

That is, since the resistance R ₃ (R ₄ ) of the temperature controller 1 is in a floating state in the short state without the thermistor TH, it becomes a grounded potential state, so that one end (+) voltage of the comparator (-1 / 2) is higher than the voltage (V ₁ ) of the other terminal (-), the "H level" output voltage of the comparator (OP ₁ ) is applied to the AND gate (AD ₂ ) of the demister or determination unit 2 and control Since the signals A and B are respectively applied to the AND gate AD ₂ through the inverters I ₃ and I ₄ , the output of the "H level" conducts the transistor Q ₈ so that the light emitting diode LED ₁ is applied. Is turned on to indicate that the thermistor (TH) is short-circuited, thereby preventing the user from driving.

However, in the normal state with the thermistor TH, the power supply VCC is applied to the other terminal (-) of the comparator OP ₁ in the temperature controller 1 so that a higher voltage is supplied to the control signal A and B. the deoeo Mr (TH), the AND gate (AD ₂₎ is applied to the "L level" signal LED ₁₎ cut-off state of the presence sensor (2) that emits light of a maintained diode (LED ₁₎ in time to maintain the "L level" Is turned off. (Normal)

Thereafter, as shown in FIG. 2, the heater is driven when all of the control signals A and B remain in the "H level" state during the period a, and the transistor Q ₃ is turned on to turn on the analog switch AS ₁ . In this state, the " H level " signal of the comparator OP ₁ of the temperature control part 1 conducts the transistor Q ₄ through the analog switch AS ₁ to drive the photocoupler PC so that the triac T _{Since the} heater ₁ is driven, the heater H is heated.

(Relay switch (RS) is maintaining the connection state of the conduction of the normal transistor (Q ₆₎₎

When the set temperature is reached, the output voltage of the demister (TH) is increased so that the comparator (OP ₁ ) outputs the "L level" signal, and the transistor (Q ₄ ) is cut off, so that the power to the heater (H) is cut off. The comparator OP ₁ maintains the set temperature continuously by hysteresis R ₈ .

In addition, when the control signal A is "H level" and the control signal B is "L level" during the period b of FIG. 2, the malfunction state of the heater is checked and prevented. When the temperature is higher than the temperature, the "L level" signal of the comparator OP ₁ blocks the driving of the heater H, but the heater malfunction controller 4 blocks the driving of the heater H due to a malfunction of the circuit. .

That is, the "L level" state signal of the comparator OP ₁ is applied to the AND gate ADB ₁ through the inverter I ₁ , and the control signal B is also the AND gate AD ₁ through the inverter I ₂ . a control signal (a) of the "H-level" on when applied with the so applied to the AND gate (AD ₁₎ was set to "H level" signal is flip-flop (FF ₁₎ of the AND gate (AD ₁₎ transistor (Q ₅ ) Conducts the buzzer BZ and cuts off the transistor Q ₆ to open the relay switch RS, forcibly opening the heater H, and then distributing it to the resistor R ₂₃ (R ₂₄ ). Since the output is applied to the timer element IC ₁ , the transistor Q ₇ is cut off after the set delay time, and thus the collector-side power supply VCC of the transistor Q ₇ resets the flip-flop FF ₁ to its initial state. It can be reduced.

As described above, according to the present invention, when the heater driving unit is driven according to the output of the temperature sensing unit, the presence or absence of the thermistor is sequentially determined and displayed according to the output state of the control signal (A) (B), and overheating due to malfunction of the heater. By preventing the buzzer and indicating that the buzzer is in a malfunction state, it is possible to give reliability to the electric smoker using the heater.

Claims (1)

In the heating circuit for driving the heater drive unit 3 in accordance with the output of the temperature control unit 1, the heater malfunction control unit 4 to which the output of the temperature control unit 1 and the control signals A and B is applied is an inverter ( The output of the AND gate AD ₁ connected to I ₁ ) (I ₂ ) is controlled through the flip-flop FF ₁ to control the transistor Q ₅ (Q ₆ ) to which the buzzer BZ and the relay RY ₁ are connected. After the configuration, the flip-flop FF ₁ is configured to be reset through the timer device IC ₁ , and the demister absence / determination unit 2 connects the AND gate AD ₂ connected to the inverter I ₃ (I ₄ ). A temperature control and thermistor discrimination circuit configured to control the transistor (Q ₈ ) connected to the light emitting diode (LED ₁ ) through.