KR930003374Y1 - Maximun and minimium point expanding circuit of setting temperature in a fry-pan - Google Patents

Abstract

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Description

Upper and Lower Limit Expansion Circuits

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: temperature setting part 2: temperature detection part

3: voltage comparator 4: load driving display

5 relay driving unit 6 feedback unit

VR ₁ , VR ₂ : Variable resistance TH: Thermistor

D ₁ ~ D ₃ : Diode RL: Relay

Q ₁ , Q ₂ : Transistor LED: Light Emitting Diode

The present invention relates to an upper and lower limit expansion circuit of a set temperature in a frying pan. In particular, a voltage comparator compares a user's set temperature to a frying pan's actual temperature and returns the result back to the temperature setting unit. The present invention relates to an upper and lower limit expansion circuit for a set temperature in a frying pan to widen the difference between an upper limit value and a lower limit value of a set temperature.

The voltage comparator in the conventional frying pan driving circuit is configured such that a relay or triac controlling the load can be turned on or off when the difference between the voltages applied to the inverting and non-inverting input terminals (-, +) is about 1 mV. The upper and lower limit of the set temperature is only about 2mV, so the on / off operation of the relay or triac is performed in a very fast time, so that the contacts of the relay are easily damaged and the triac is broken by hand. There was this.

The present invention is devised to solve such a problem, and the temperature and the frying pan are provided through a feedback unit in a conventional frying pan driving circuit including a temperature setting unit, a temperature sensing unit, a voltage comparator, a load driving display unit, and a relay or a triac drive unit. When the output of the power comparator comparing the current temperature of each other becomes “high”, it is fed back to the temperature setting part to increase the reference voltage according to the temperature setting, so that the reference voltage of the voltage comparator is increased. Since the temperature range that can be driven becomes wider, the frequency of the relay or the traa is less on / off, and the set temperature upper and lower limit expansion circuits in the frying pan can extend the contact damage of the relay and the life of the triac. For the purpose of providing the present invention, the present invention will be described in detail below with reference to the accompanying drawings. The.

As shown in FIG. 1, the present invention is composed of a resistor (R ₁ ~ R ₃ ) and a variable resistor (VR ₁ ) and the temperature setting unit (1) for setting the operating temperature of the frying pan desired by the user to a predetermined voltage; , A variable resistor (VR ₂ ), the thermistor (TH) and a resistor (R ₄ ), the temperature sensing unit (2) for detecting the current temperature of the frying pan to a predetermined voltage, the temperature setting unit (1) and Comprising a voltage comparator 3 for comparing the output voltage of the temperature sensing unit 2, a resistor (R ₆ ~ R ₈ ), a light emitting diode (LED) and a transistor (Q ₁ ), the voltage comparator (3) When the "high" signal is output from, indicates that the current frying pan temperature is lower than the set temperature, and the load driving indicator (4) indicating the driving state of the load composed of a heater, etc., and the resistance (R ₉ ~ R ₁₁ ) , a capacitor (C2) and the transistor is composed of (Q _2), before power is applied to the load according to the output signal of the voltage comparator (3) A frying pan drive circuit comprising a relay driver (5) for driving a relay (RL) for controlling (AC), the output terminal of the voltage comparator (3) and a predetermined point (M) of the temperature setting section (1). Interposed between the feedback portion 6 consisting of a resistor (R ₅ ) and a diode (D ₂ ) between the, where reference numerals C ₁ , C ₃ is a capacitor, R ₁₂ is a resistor D ₃ is a relay protection diode. .

Referring to the operation and effect of the circuit of the present invention configured as described above are as follows.

First, when the user properly adjusts the variable resistor VR ₁ in the temperature setting unit 1, the reference voltage applied to the non-inverting input terminal (+) of the voltage comparator 3 is variable, wherein the variable resistor ( VR ₁ ) Minimize the value to the non-inverting input terminal (+) of the voltage comparator 3 so that the output of the voltage comparator 3 becomes "high" within the range of XA ℃ and the maximum X + B ℃. 6.0) and above are applied.

When the power is first applied in such a state, since the temperature of the frying pan is below a predetermined temperature, the resistance value gradually decreases with the variable resistance VR ₂ , the resistance R ₄ , and the temperature to the thermistor TH. The output voltage of the configured temperature sensing unit 2 becomes lower than the output voltage of the temperature setting unit 2, so that the output of the voltage comparator 3 is in a "high" state.

Accordingly, since the bias voltage applied to the base of the transistor Q _{1 in the} load driving display unit 4 becomes equal to or higher than the predetermined voltage (0.7 V), the transistor Q1 is turned "on", and the light emitting diode LED is also " On ”, the user can see the lighting state of the light emitting diode (LED), and the current frying pan temperature is below the user's set temperature, so that the user can easily recognize that the heater is being driven.

In addition, when the output of the voltage comparator 3 is in the "high" state, the diode D ₁ is "off", so that a predetermined bias voltage is applied to the base of the transistor Q _{2 in the} relay driver 5, so that the transistor ( Since Q ₂ ) is "on", since the relay RL is driven to apply a power supply voltage AC to a load including a heater, the load starts to generate heat and the temperature of the frying pan is gradually raised.

On the other hand, the "high" signal (about 5V) output from the voltage comparator 3 is dropped to a predetermined voltage (about 5mV) through a feedback section 6 composed of a resistor (R ₅ ) and a diode (D ₂ ). Since it is applied to the predetermined point M of the temperature setting part 1, the voltage of the predetermined point M becomes the voltage 1mv + feedback voltage 5 mV which were set previously, and is actually about 6 mV.

Therefore, assuming that the temperature rises by about 2 degrees Celsius every 1 mV, it is about 12 degrees Celsius higher than the existing set temperature, and the state in which the output of the voltage comparator 3 becomes "low" is delayed by that. The on / off frequency of the evils is much smaller than in the prior art, thereby reducing the damage of the relay contacts and the triac.

Thereafter, the temperature of the frying pan is raised so that the output voltage of the temperature sensing unit 2 applied to the inverting input terminal (-) of the voltage comparator 3 is higher than the output voltage of the temperature setting unit 1 (about 6.01). If V) is applied, since the output of the voltage comparator 3 is in the "low" state, the transistor Q ₁ is "off" and the light emitting diode LED is turned off. In addition, since the diode D ₁ is also “on”, the transistor Q ₂ is “off” and the relay RL is not driven, so that the power voltage applied to the load is cut off and the temperature of the frying pan is gradually lowered. At this time, the output voltage of the temperature setting unit 1 applied to the non-inverting input terminal (+) of the voltage comparator 3 falls to about 5.96V.

Thereafter, when a predetermined time passes, a predetermined voltage (about 5.95 mV) at which the output voltage of the temperature sensing unit 2 is 1 mV lower than the voltage applied to the non-inverting input terminal (+) of the voltage comparator 3 as the temperature of the frying pan decreases. ), The output of the voltage comparator 3 again becomes a "high" state, and as described above, the LED and the relay RL are driven, and the power supply voltage is applied again to the load, so that the The temperature rises again.

On the other hand, while the circuit of the present invention has been described mainly with a frying pan, the same effect can be obtained even if it is applied to a mode heating device that is automatically turned on / off according to a predetermined set temperature.

As described above, according to the circuit of the present invention, the voltage of the voltage comparator comparing each voltage according to the user's set temperature and the current temperature of the frying pan is fed back to the temperature setting part, so that the reference voltage according to the set temperature is increased. As each of the rising and falling by a predetermined value can reduce the on / off frequency of the relay and the triac, it is possible to reduce the contact damage and the breakage of the triac as well as the practical design that can further extend the life of the device.

Claims (1)

The temperature setting unit 1 for setting the operating temperature of the frying pan to a predetermined voltage, the temperature sensing unit 2 for detecting the current temperature of the frying pan at a predetermined voltage, and the temperature setting and detecting unit 1, A voltage comparator 3 for comparing the output voltages with the input mills, and a load driving display unit 4 indicating whether the current temperature of the frying pan has reached a set temperature according to the output of the voltage comparator 3, and a driving state of the load; And a relay driver (5) for driving a relay (RL) for controlling a power supply voltage applied to a load according to the output of the voltage comparator (3). Between the output terminal and the predetermined point (M) of the temperature setting section 1 through the feedback section 6 constituting the resistor (R ₅ ) and the diode (D ₂ ) so as to raise and lower the range of the set temperature. At a set temperature in a frying pan, characterized in that One point expanding circuit.