KR880001980Y1 - Cooking devices - Google Patents

Abstract

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Description

100V / 200V Combined Cooker

1 is a circuit diagram of the present invention.

2 is a schematic diagram of the triac drive circuit 1 of FIG.

3 is a waveform diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Triac driving circuit 2: Triac

3: rectifier 4: inverter circuit

5: transformer 6: power transistor control circuit

7: clapping and rectifying circuit 8: voltage regulator

9: zero cross detector 10: RAMP generator

11: comparator 12: op amp

13: Control Logic 14: Chopper Circuit

15: output logic step 16: gate pulse step

SW1: Selection switch RT: Slide volume

L2: Heating coil TR1: Power transistor

The present invention relates to a cooker which can be used as an AC 100V / 220V in an electronic cooker which cooks as an induction heating operation by generating magnetic force of a heating coil (magnetic wire).

In general, an electric cooker directs an alternating current to a heating coil (magnetic wire) with a positive current, and the vessel heats directly by magnetic lines generated from the heating coil. In this case, an inverter circuit is used to flow the alternating current to the heating coil. It is necessary.

Therefore, in the 100V electronic cooker, the frequency of changing the power transistor in the inverter circuit to the on-off state and the on-time of the power transistor are changed (the two conditions are changed at the same time, and the frequency decreases when the power transistor becomes longer). In this case, 400Vrms voltage is applied between the emitter and collector of the power transistor in the inverter circuit. In the case of AC 220V, the power transistor is used as the pulse width modulation (PWM) method. The power transistor is destroyed because the voltage of more than 800Vrms is applied between the emitter and the collector.

The present invention solves the above-mentioned shortcomings, and selects power according to both regions (AC 100V / 220V) as the selection switch, and input voltage is supplied to the power transistor control circuit through the transformer to input the pulse width which is the output signal. It is fixed according to the power supply (AC 100V / 220V), and it drives the triac driving circuit from this and adopts the time control method to adjust the triac on and off so that the output of the power transistor of the inverter circuit can be adjusted. Bar, i.e., the power input is controlled by the triac and the resistance value is switched by the slide volume, so the alternating current is flowed into the heating coil to provide a 100V / 220V electric cooker for cooking by induction heating operation by magnetic force generation. There is a purpose of design.

Hereinafter, the configuration, operation, and effects of the present invention will be described in detail with reference to the accompanying drawings.

The present invention connects a triac (2), a styl volume (RT), a selector switch (SW ₁ ) and a transformer (5) to a triac driving circuit (1), and a rectifier (3) to a triac (2). The power transistor control circuit 6 is connected to (5), and the rectifier (3) is connected to the resistor (R ₇ ) (R ₈ ) and the diode (D ₁ ) by the smoothing capacitor (C ₅ ) and the choke coil (L ₁ ). D ₂ , a resonant capacitor C ₆ , a power transistor TR ₁ , a transistor TR ₂ , and an inverter circuit 4 composed of a heating coil L ₂ .

Reference numeral 7 is a clapping and rectifying circuit, 8 is a low voltage regulator, 9 is a zero cross detector, 10 is a RAMP generator, 11 is a comparator, 12 is an op amp, 13 is control logic, 14 is a chopper circuit and 15 is output logic. Step 16 is a gate pulse step and ap represents each terminal of the triac driving circuit 1.

1 is a circuit diagram of the present invention having the above-described structure. The user selects a power source (AC 100V / 220V voltage) having a difference according to a region with a selector switch SW1 from which an input power source is a transformer (5). The pulse width, which is an output signal, is supplied to the transistor TR2 of the inverter circuit 4 by being supplied to the power transistor control circuit 6 through the signal. In this case, the pulse width signal (that is, the driving time of the transistor) is supplied to AC 100V. It is fixed to the base of the transistor TR2 in the inverter circuit 4 according to the / 220V voltage.

Then, the input voltage (AC 100V / 220V voltage) is supplied to the triac driving circuit 1, the triac 2, and the rectifier 3 to drive the triac driving circuit 1 first while the triac 2 is driven. This is energized and rectified through the rectifier (3). That is, the input voltage of the waveform as shown in (3-1) of FIG. 3 is input to the i terminal of the triac driving circuit 1 for controlling the triac driving time, and thus the clapping and rectifying circuit 7 is shown in FIG. And an input voltage through the zero cross detector 9 and the RAMP generator 10 are supplied to the comparator 11 through the voltage regulator 8, and (3-2). As shown in the waveform, the voltage at terminal a is a RAMP voltage varying from 1 to 6V by oscillation in the triac driving circuit 1, and the voltage at terminal b is input to the comparator 11 so that the voltage at terminal a is the voltage at terminal b. The reference DC voltage set by the slide volume RT is shown. Therefore, whenever the voltage of the terminal a and the terminal b is input to the comparator 11 and the voltage of the terminal d exceeds the voltage of the terminal b, the comparator 11 switches through the control logic 13 and the chopper circuit 14. Is turned on (i.e., the output signal of the control logic 13 such as (3-3) and the input signal of the chopper circuit 14 such as (3-4)) and the output logic step 15 Since the gate pulse stage 16 is passed, a signal such as (3-5) of FIG. 3 is applied to the gate of the triac 2 so that the triac 2 is energized.

Therefore, if the reference DC voltage is fixed at 1V as the slide volume (RT), the triac (2) is kept energized, and the output is maximized, and the triac (1) is increased from 1V to 5V with the slide volume (RT). By reducing the number of gate pulses sent to 2), the output can be lowered.

Here, since the triac 2 is energized and a voltage is applied to the rectifier 3, the rectified output is smoothed by the smoothing capacitor C ₅ , and the DC voltage is caught by the heating coil L ₂ , which is a magnetic wire. The alternating current flows through the heating coil L ₂ by changing the power transistor TR ₁ on and off to match the resonance frequency of the inductance component of the heating coil L ₂ and the capacitance of the resonance capacitor C ₆ . Thus, cooking is performed as an induction heating operation.

On the other hand, in the case of 100 V AC, since the power transistor TR ₁ is turned on without the triac 2, the width of the pulse, which is the output signal of the power transistor control circuit 6, is small to small. As a result, the current flowing through the heating coil L ₂ was changed from small to small so that the output watt could be changed from small to small.

On the other hand, in the case of the AC 100V / 220V dual use, the width and frequency of the pulse which is the output signal of the power transistor control circuit 6 are fixed constantly according to the power input, and the triac 2 on the power supply side is turned on and off. The output ratio can be controlled by adjusting the time ratio. That is, the reason why the time control method is used is that the amount of rise of the current flowing through the power transistor TR ₁ is much larger than that of the AC 100V input and is applied to the transistor TR ₁ . Since a large current flows, the transistor TR ₂ is eventually destroyed. At this time, in order to prevent the transistor TR ₂ from being destroyed, the ON time of the power transistor TR ₁ is shortened as compared with the case of an AC 100V input. The width of the output signal pulse is reduced so that it can operate within the safe operation range of the power transistor TR ₁ .

Therefore, the present invention drives the power transistor TR ₁ with a signal of a different constant pulse width so that the power transistor TR ₁ is not destroyed at an input of AC 100V / 220V, while the power transistor TR ₁ is input as a triac 2. By controlling the voltage, the output can be controlled.

As described above, the present invention does not destroy the power transistor even when the power is selected by the selector switch in both regions (AC 100V / 220V) while driving the power transistor and controlling the pressure voltage with the triac. Even if there is an advantage that can be easily cooked.

Claims (1)

A triac 2, a slide volume RT, a selector switch SW ₁ , and a transistor 5 are connected to the triac driving circuit ₁ , a rectifier 3 is connected to the triac 2, and a transformer 5 is connected. ) Connects the power transistor control circuit 6 to the rectifier 3 through the smoothing capacitor (C ₅ ) and the choke coil (L ₁ ) to the resistor (R ₇ ) (R ₈ ) and diode (D ₁ ) ( D ₂ ), a 100 V / 220 V combined electric cooker formed by connecting an inverter circuit (4) composed of a resonant capacitor (C ₆ ), a power transistor (TR ₁ ), a transistor (TR ₂ ), and a heating coil (L ₂ ).