KR940005930Y1 - Dc power supply circuit - Google Patents

Abstract

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Description

DC power supply circuit using water heater for electric insulation rice cooker

1 is a circuit diagram showing one embodiment according to the present invention.

2 is a current flow chart when an AC 100V power supply is applied to the inventive circuit.

3 is a current flow chart when the AC 220V power supply of the present invention circuit.

* Explanation of symbols for main parts of the drawings

1: 220V heater part 2: 100V heater part

3: driving power supply for relay

4: Reference voltage supply for microprocessor and IC

SW: 100V / 220V selector switch HI, H2, H3: Heater

R1: resistor C1, C2: capacitor

D1, D2: Diode ZD1: Zener Diode

The present invention relates to a DC power supply circuit of the heating device, in particular an electric heat cooker to supply a predetermined DC power without attaching a separate power circuit by using a regular heater used for preventing the drop of the electric heat cooker lid The present invention relates to a DC power supply circuit using an anti-drop heater.

Conventional heating apparatuses such as electric rice cookers have operated the heating apparatus by an AC-DC conversion power circuit that converts AC power into DC power when using a commercial AC power source of 100V / 220V. The separate operation of and the power supply circuit has led to an increase in total power consumption and manufacturing parts.

Accordingly, the present invention aims to provide a simple and inexpensive power supply circuit while reducing the total power consumption and the number of manufacturing parts as described above.

In order to achieve this purpose, the present invention connects three heaters and diodes for preventing water droplets on the lid of an electric thermal cooker through a selector switch to configure a heater unit for 220V and connects two of the three heaters through the selector switch. A heater for 100V, a relay driving power supply with a diode and a capacitor between the two heaters constituting the heater at 100V, and a resistor, a zener diode, and a capacitor connected to the relay driving power supply. This is to configure DC voltage supply for microprocessor and IC.

Hereinafter, the present invention will be described in detail with reference to the drawings showing one embodiment of the present invention.

FIG. 1 is a circuit diagram showing an embodiment of a power supply circuit using a heater for preventing water droplets of an electric rice cooker lid. In the case of AC 100V input power, when the 100V / 220V selection switch SW is connected to a 100V tap, the selection switch SW ) And two anti-drop heaters (H2 and H3), connected to an AC power source, and in the case of AC 220V input power, when the selector switch is connected to a 220V tap, a diode (D1), a heater (H1), a heater (H2) and a heater It is configured to connect directly to (H3).

The diode D2 and the capacitor C1 forming the relay driving power supply unit 3 are connected in parallel to the connection point A between the heaters H2 and H3, and the relay driving power supply unit 3 The resistor R1, the zener diode SD1, and the capacitor C2 are connected in parallel to the connection point B on the output side, and the connection point C is configured to supply a DC voltage for the microprocessor / IC.

The heating resistance of the heater H1 of the three heaters H1, H2, and H3 is set to be substantially the same as the heating resistance of the two heaters H2 and H3, and the AC voltage at the connection point A is 100V. The value of each heater is set to be 24V at 220V.

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

As shown in FIG. 2, when the 100 V / 220 V selection switch SW is connected to the 100 V tap when the commercial AC 100 V is used, current flows to the water drop prevention heaters H2 and H3. At this time, since the resistance values of the heaters H2 and H3 are set at the connection point A between the heater H2 and the heater H3, the AC 24V is half-wave rectified by the diode D2 and the capacitor C1. And smoothed, and the driving power for the relay is supplied from the connection point (B). In addition, the connection point B is supplied with a DC voltage (+ 5V) used for the microprocessor or the like at the connection point C by a constant voltage circuit having a voltage drop by the resistor R1, the zener diode ZD1, and the capacitor C2. Done.

On the other hand, as shown in FIG. 3, when the commercial AC 220V is used, if the 100V / 220V selector switch SW is connected to the 220V tap, the 220V AC power supply is connected to the heater H1 → heater H2 → via the diode D1. The current flows in the order of the heater H3. At this time, since the resistance value is set to the resistance value of the heater H1 to almost the same resistance value as the combined resistance of the heaters H2 and H3, the AC is half-wave rectified by the diode D1 at 220V. The total power consumption of all the heaters H1, H2, and H3 by the power source is almost the same as that of the commercial AC 100V, and when the AC is 100V and the current flowing through the heater for preventing water droplets H3 and the diode D2 is 220V The current flowing through the H3 and the diode D2 becomes substantially the same, regardless of the 100V / 220V power supply, the amount of power consumed by the heater is the same, and the same current is supplied to the point B. As a result, the relay driving power source and The reference voltage (+ 5V) is the same It is.

As described above, the present invention can make the total heating power of the heater the same at the time of 100V / 220V by using the water heater (H1, H2, H3) for preventing the drop of the installed rice cooker lid, and at the same time, the same current power supply. Since there is no need to attach a separate power supply circuit, there is an excellent effect that the structure of the product is simplified and can be manufactured at a lower cost.

Claims (1)

In the DC power supply circuit of an electric rice cooker, the diodes D1 are connected to three heaters H1, H2, and H3 for preventing water droplets of the rice cooker lid, and are connected to an AC power source. 100V / 220V selector switch SW is connected to (H1, H2, H3) through a diode D1 and to be connected to an AC power supply through two of the heaters H2, H3 at the time of 220V input. A relay driving power supply unit 3 is connected between the heaters H2 and H3, and a microprocessor and an IC DC voltage supply unit 4 are connected to the relay driving power supply unit 4, respectively, and the heater H1 is heated. DC resistance supply circuit using a heater for preventing water droplets of the electric heat cooker is set so that the resistance is substantially equal to the heating resistance of the series coupling of the heater (H2) and the heater (H3).