KR0116340Y1 - Induction range driver - Google Patents

Abstract

The present invention relates to a driving apparatus of an induction heating cooker that is suitable for simplifying a circuit economically without using a current transformer. In the related art, it is economically complicated due to the use of a current transformer. The defect can be improved by constantly controlling the heating coil L2 driving time of the driving unit 1 by detecting a voltage of one side of the heating coil L2 according to the container state of the driving unit 1 without using a current transformer.

Description

Driving device of induction cooker

1 is a circuit diagram showing the driving of the conventional induction heating cooker.

2 is a circuit diagram showing the driving of the subject innovation induction cooker.

3 is a circuit diagram according to FIG.

4 is an output waveform diagram according to FIG.

* Explanation of symbols for main parts of the drawings

9 pulse generating circuit 10 starting circuit

11: starting part 12: voltage comparing part

13: microcomputer 14: first control unit

IC1 to IC5: Amplifier PC1: Photocoupler

The present invention relates to a drive device for an induction heating cooker, and is particularly economical by not using a current transformer and suitable for achieving a simplified circuit. Conventional induction heating cooker is composed of a bridge diode (BD), capacitors (C ₁ , C ₂ ), choke coil (L ₁ ) as shown in Figure ₁ rectified and smoothed commercial power (AC) to output a DC power And a smoothing unit 15, a capacitor C ₃ , a heating coil L ₂ , a diode D ₁ , a transistor Q ₁ , and the like, by the output power of the rectifying and smoothing unit 15. A drive unit 1 for heating the container, a current transformer 2 for detecting a current of the container by detecting a current of a commercial power source input to the rectifying and smoothing unit 15, a current detection circuit 3, and a small object detection circuit A control section 8 comprising a detection section 5 consisting of (4), a voltage control circuit 6 and a voltage supply circuit 7 generating a voltage for a predetermined time in accordance with the detected current of the detection section 5; a driving unit (1) according to somul detection circuit 4 of the heating coil (L ₂₎ detecting section 5 receives a voltage across the voltage and the driving units (1) of the control unit 8 on / O Which consisted of the startup (11) to the pulse generating circuit 9 and the start-up circuit 10.

In the conventional induction heating cooker configured as described above, the commercial power source AC is rectified by the bridge diode BD of the rectifying and smoothing unit 15, and is smoothed through the capacitors C ₁ , C ₂ , and choke coil L ₁ . When the transistor Q ₁ of the driving unit ₁ is turned on, the voltage is applied to the heating coil L2 by the capacitor C ₃ and the diode D ₁ , thereby heating the container. At this time, the rectifying and smoothing unit 15 is provided. The current flowing into) is detected by the current transformer 2 and the current detection circuit 3 of the detection unit 5, and accordingly, the small object detection circuit 4 operates on / off according to the detected current amount.

In addition, the voltage control circuit 6 of the control unit 8 generates a voltage for a predetermined time according to the detection current of the detection unit 5, the voltage supply circuit 7 receives this to generate a stable voltage to start the starting unit 11 The pulse generating circuit 9 receives the generated voltage of the voltage supply circuit 7 of the controller 8 and the heating coil L2 applied voltage of the driver 1.

The heating coil L ₂ is driven by generating a square wave and applying the square wave to the transistor Q ₁ base of the driver 1 in accordance with the on / off of the object detection circuit in the starter circuit 10.

Hameuroseo Such use of a current transformer (2) In the prior art uneconomical a circuit complex and changing because of a number of heating coils according to the detected current-to-voltage generation time of a voltage control circuit (6) of the control unit (8) (L ₂₎ using There was a flaw in the interference.

The present invention has been made in view of such a conventional drawback, and has an object of achieving economics and simplifying a circuit by constructing an induction heating cooker without using a current transformer.

DETAILED DESCRIPTION OF THE EMBODIMENTS Embodiments of the present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram showing the driving of the induction heating cooker according to the present invention, and FIG. 3 is a circuit diagram according to FIG. 2 and includes a bridge diode (BD), a capacitor (C ₁ -C ₂ ), a choke coil (L ₁ ), and the like. Rectification and smoothing part 15 for rectifying and smoothing commercial power (AC) and outputting a DC voltage, and a capacitor (C ₃ ), heating coil (L ₂ ), diode (D ₁ ), transistor A driving unit 1 for receiving the output power of (15) to heat the container, a resistor (R ₉ to R ₁₄ ), and a variable resistor for receiving the transistor Q ₁ collector voltage of the driving unit 1 and comparing it with a set reference voltage; (VR ₁ ), the voltage comparator 12 comprising the amplifier IC ₁ , the microcomputer 13 repeatedly generating a high / low signal, and the signals of the microcomputer 13 and the signal of the voltage comparator 12. Photocoupler (PC ₁ ), resistors (R ₁₅ to R ₂₉ ), diodes (D _{4 to} D ₆ ), transistors (Q ₂ ) (Q ₃ ) According to the control unit 14 of the capacitor (C ₆ ) (C ₇ ), amplifier (IC2) (IC ₃ ), the signal of the control unit 14 and the voltage across the heating coil (L ₂ ) of the driving unit (1) A pulse consisting of an amplifier (IC ₄ ) (IC ₅ ), a resistor (R ₁ to R ₈ ), a diode (D ₂ ) (D ₃ ), and a capacitor (C ₄ ) (C ₅ ) for turning the driving unit 1 on and off. It consists of the start part 11 which consists of the generation circuit 9 and the start circuit 10. As shown in FIG. Referring to FIG. 4, the induction heating cooker of the present invention configured as described above is applied to the driving unit 1 through the rectifying and smoothing unit 15 so that the heating coil L ₂ and the capacitor C ₃ are separated. When a resonance current flows to the heating coil L ₂ by resonance, a magnetic force line is induced around the heating coil L ₂ , and such magnetic force lines combine with the container to generate an eddy current, thereby causing Joule heat loss as a resistance component of the container. This will cause the vessel to heat up. In addition, the voltage comparing unit 12 receives the collector signal of the transistor Q ₁ of the driving unit 1, and the voltage and resistance R ₁₂ (R ₁₃ ) and the variable resistor VR ₁ by the resistors R ₉ to R ₁₁ . The voltage by is compared by the amplifier IC ₁ . At this time, when the high signal is generated in the microcomputer 13, the photocoupler PC ₁ of the controller 14 is driven, so that the transistors Q ₂ and Q ₃ are turned off.

Therefore, the collector potential of the transistor (Q ₂₎ is a resistance (R ₁₈₎ (R ₁₉₎ increases the distribution voltage by using, depending on the time constant of the resistance (R ₁₈₎ and capacitor (C ₆₎ on, and this time, the transistor (Q ₂₎ While the collector potential increases, the potential (A) goes below the potential (B) so that the signal output of the amplifier (IC ₂ ) becomes low and the potential (C) by the resistors (R ₂₅ ) (R ₂₆ ) becomes the amplifier (IC _3). ), The amplifier (IC ₃ ) generates a high.

On the contrary, if the input potential A of the amplifier IC ₂ becomes higher than the potential B after a predetermined time has elapsed, the amplifier IC ₂ generates a high signal and the high signal of the amplifier IC ₂ as shown in FIG. Is increased with the time constant of the resistor R ₂₂ and the capacitor C ₇ , and the potential C is determined by the resistors R ₂₂ to R ₂₆ .

The pulse generating circuit 9 of the starting unit 11 receives the amplifier (IC ₃ ) signal of the control unit 14 and the voltage across the heating coil L ₂ of the driving unit 1 to generate a square wave of a predetermined period and starts the starting circuit. 10 receives the square wave to turn on / off the transistor Q ₁ of the driving unit 1.

Looking at the voltage comparison unit 12 in more detail because the amplifier (IC ₁ ) when there is no container of the drive unit 1 and when the container contains a small amount of contents there is less resonance attenuation than when there is a certain amount of contents in the container When the signal of the heating coil L ₂ one side and the signal of the resistors R ₁₂ (R ₁₃ ) and the variable resistor VR ₁ are input and high is output according to the principle of increasing the maximum value of the resonance voltage, the transistor of the controller 14 is output. Q ₃ is turned on so that the output of the amplifier IC ₃ becomes zero potential to turn off the transistor Q ₁ of the driver 1 through the starter 11.

As described above, this proposal detects the voltage of one side of the heating coil (L ₂ ) according to the container state without using a current transformer and controls the driving time of the driving unit 1, and thus, no interference occurs even when multiple heating coils are used. It is economical and has the effect of simplifying the circuit.

Claims (1)

Induction heating cooker having a rectifying and smoothing unit for rectifying and smoothing commercial power (AC) to output a DC power, and a driving unit (1) having a heating coil to heat the container, the heating coil of the driving unit (1) A voltage comparator 12 for outputting a high or low signal by comparing a voltage applied to the output voltage with a predetermined reference voltage, a micom 13 for generating a pulse signal of a predetermined period, and the micom 13 and the voltage comparator 12 A pulse signal is generated by the controller 14 generating the high / low signal according to the signal of the controller 14 and the voltage of both ends of the heating coil of the driver 14 and driving the driver 1 for a predetermined time. A drive device for an induction heating cooker having a starting unit (11).