KR890004372Y1 - Automatic control circuit of electric heater - Google Patents

Abstract

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Description

Temperature automatic control circuit of electric heater

1 is a circuit diagram of the present invention.

2 is a conventional circuit diagram.

* Explanation of symbols for main parts of the drawings

A: Power switching part B: Control circuit part

C) driving part d: temperature sensing part

SW: Touch Switch I1: Inverter

C1: Counter C2: Comparator

T _C : Thermista VR: Temperature setpoint resistance

A1-A3: AND gate R _Y -R _Y 2: relay

H2-H2: heater heating wire

The present invention relates to an electronic control circuit for a heater, and in particular, the set temperature and the amount of atomization are automatically adjusted by comparing with the current temperature by a temperature sensing element, and the heater is automatically turned on / off according to a user's arbitrary set temperature. It is related to the control circuit of the heater.

In the conventional electric heater, the current temperature is divided into a temperature sensing circuit portion and a temperature control circuit portion, so that a relay for controlling the setpoint temperature is separately installed, resulting in structural inconvenience, as well as defects such as a cost increase and a defective relay. there was.

Therefore, in view of the above-described drawbacks, the present invention constructs an electronic circuit using a highly sensitive IC instead of a mechanical relay in consideration of the conventional drawback, and automatically compares the proper temperature with the current temperature in the temperature sensing device. Compared by the present invention, the relay is designed to operate, which will be described in detail with reference to the accompanying drawings.

Connect the capacitor (C1) for initial setting of the resistor (R1) between the power supply (V _C ) and the ground in front of the counter (C1), and connect the touch switch (SW) in parallel between them and ground the inverter. Connect the resistor (R4) dummy star (T _C ) across the power switching unit (A) and the supply power (V _C ) connected to the clock terminal (1) of the counter (C1) via (I1), and the comparator between Connect the plus terminal of (C2) and the minus terminal of the comparator between the resistor (R5), the temperature setpoint resistor (VR) and the inverting resistor (R6) at both ends of the supply power supply (V _C ). The temperature sensing unit (D) and the output terminal of the comparator C2 to be sensed for comparison are connected to the input terminals 2 and 5 of the AND gate A2 and A3, and the output terminal Q of the counter C1 is the AND gate. Connect to terminal (1) (8) of (A1) (A3), and another output terminal Is connected to the terminals 4 and 7 of the AND gate A1 and A2, and the output terminal 9 of the AND gate A1 is connected to the output terminal Q through the clear terminal of the comparator. The control circuit part (b) and the output terminals (3) (6) of the AND gates (A2) and (A3), which make the initial value state, are connected to the bases of the transistors (Q1) and (Q2), and the collector (H1) ( The relay Ry1 (Ry2) for heating the H2) and the diode D1 (D2) are connected in parallel, and are connected to the driving unit (C) connected to the driving power source VD.

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

When the touch switch SW is turned on to operate the heaters H1 and H2, the supply power V _C flows a current through the resistor R1 to ground, and the output of the inverter I1 becomes a high signal and the counter ( Is input to C1).

Accordingly, a high signal is output to the output terminal Q of the counter C1 and input to the input terminal 1 of the AND gate A3. The low signal is output and applied to the AND gate A2.

The negative terminal of the comparator (C2) is supplies power (V _C) is distributed resistance (R5) (R6) and has a pile Star City but constant power is supplied in accordance with the set point temperature for any set temperature is lower than the current temperature (T _C As the resistance value of) increases, the supply voltage (V _C ) passes through the setpoint distribution resistors (R5), (R6), and (VR), and the negative voltage enters the negative input terminal of the comparator (C2). On the contrary, when the set temperature is higher than the present temperature, the positive terminal voltage of the comparator C1 is set higher than the negative terminal voltage, and a high signal is output to the output terminal of the comparator C2.

As described above, when the set temperature is high, the output of the comparator C2 becomes a high voltage and is input to the input terminal 2 of the AND gate A3 together with the high signal of the counter C1 output terminal Q. The output becomes a high signal and is input to the base of the transistor Q1 through the resistor R2. Since the transistor Q1 is of the NPN type, it conducts and the power supply VD energizes the relay Ry1 for operating the heater H1. Current from the collector to the emitter.

Accordingly, the relay Ry1 is operated to heat the heater H1, and the transistor star Q2 is non-conductive because the output signal of the AND gate A2 is low.

When the touch switch SW is pressed again, the output terminal Q of the counter C1 becomes low so that a low signal is inputted to the terminal 1 of the AND gate A3, and another output terminal is provided. The high signal is input to the terminal 4 of the AND gate A2.

As described above, the present temperature is higher and lower than the set temperature. When the set temperature is higher than the present temperature, the comparator C2 is outputted high, and the AND gate A3 is connected to the low signal of the counter C1 and the comparator C2. Since the low signal is outputted by the high signal of the transistor and the transistor star Q1 is not conducting, the driving power supply VD which operated the relay Ry1 is disconnected, the heater H1 is saved and the AND gate A2 is the comparator C2. Since the high signal inputted from) becomes the high voltage by the high signal inputted from the counter C1, the transistor star Q2 is turned on and the driving power supply VD is connected to the relay Ry2. ) To heat the heater (H1) (H2).

In addition, when the set temperature is lower than the present temperature, the output signal of the comparator C2 becomes low so that the transistors Q1 and Q2 become inoperative and the heaters H1 and H2 save power.

Also, if touch switch SW is pressed again, output terminal Q of counter C1 The high signal is outputted at and applied to the input terminal of the AND gate A1, and the output signal high is inputted to the clear terminal Clear of the counter C1 to reset the counter C1. (H2) is turned off.

Briefly, the summary of the present invention is briefly described, when the switch SW is turned on when the ambient temperature is lower than the set temperature, the transistor Q1 operates to excite the relay Ry1 to heat the heater H1, and then again to the touch position. When (SW) is turned on, transistor Q1 is not conducting, relay Ry1 is turned on, transistor Q2 is turned on, and driving power supply VD flows from the collector to the emitter to excite relay Ry2 to excite the heater. H1) Heat (H2) and turn on the touch switch (SW) again.The output terminal (Q) of the counter Since both are output high, the input is input to the input terminals 7 and 8 of the AND gate A1, and the output terminal 9 becomes a high signal and is input to the clear terminal of the counter C1. It turns off automatically.

As described above, in the present invention, the signal of the counter C1 and the comparator C2 is transmitted by the AND gate A2 (A3) without the transistor star Q3 and the relay Ry3 and the transistors Q1 and Q2 relay. By operating (Ry1) and (Ry2) to drive the heater (H1) and (H2), it is possible to precisely control automatically at the set temperature, which has a great effect in reducing unnecessary parts and power consumption.

Claims (1)

A switching unit (A) composed of a normal touch switch SW, a resistor R1, a capacitor C1, and an inverter I1 is configured, and an output terminal 1 of the counter C1 is provided at an output terminal of the inverter I1. ) And the output (Q) of its counter (C1) The control circuit part (b) connected to the AND gates A1 (A2) and A3 is connected to each other, and each of the output terminals of the AND gates A2 and A3 is connected to the transistors through the usual resistors R2 and R3. Q1) (Q2) Connects and configures the driving unit (C), which is configured by connecting diodes (D1) (D2) and relays (Ry1) and (Ry2), and at the input terminals of the end gates (A2) and (A3), a common resistor (R4) is provided. ) (R5) (R6) Temperature control circuit of electric heater made by connecting thermistor (T _C ) and output terminal of variable resistor (VR) and comparator (C2).