KR860003678Y1 - Power relay driving circuit for an electric ranger - Google Patents

Abstract

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Description

Microwave Power Relay Drive Circuit

1 is a circuit diagram of the present invention.

2 is a power supply control circuit diagram of the microwave oven.

* Explanation of symbols for main parts of the drawings

1: Microprocessor SW: Start Switch

TA, TA1, TA2: Triac RY: Relay

a, b, d, a ', b': terminals L1, L2 of each element: lamp

FM: Fan Motor HVT: High Voltage Transponder

MGT: Magnetron

The present invention relates to a relay driving circuit of a microwave oven employing a microprocessor as a controller. In particular, as the start switch of the key operation unit is turned on, the relay signal and the triac signal of the microprocessor are sequentially transmitted at a predetermined time interval. It relates to a power relay bulb circuit for supplying power to drive the magnetron of the microwave oven.

In general, a microwave oven that induces food heating by high-frequency electric field generates heat by applying microwaves to food and moving molecules from inside. This is mainly caused by a high frequency oscillation circuit (magnetron) with a power output of more than one hundred watts. Energy is generated internally as opposed to normal cooking within a very short time. In a conventional microwave oven, a microprocessor controls a relay circuit and a triac driving circuit that control a high frequency oscillation circuit.

However, when the user presses the start key to perform the stored cooking without knowing that the microprocessor is malfunctioning, or due to external noise or malfunction of the microprocessor, the microwave oven overheats and microwaves generated from the magnetron. It caused damage to the human body.

The present invention improves the " power relay driving circuit of the microwave oven " previously filed by the applicant. In the normal operation of the microwave oven, the triac is turned on while the start switch of the key control unit is turned on. Since the relay signal and the triac signal are supplied to the transistor and turned on at regular intervals, the current flows through the relay coil to drive the relay, and then drives the triac in the power supply control circuit to supply power to the magnetron of the microwave oven. An object of the present invention is to provide a power relay driving circuit.

Hereinafter, the configuration, operation, and effects of the present invention will be described based on the drawings.

The present invention connects the start switch (SW) and the resistors (R3) (R4) and (R9) to the microcontroller (1), which is a controller of the microwave oven, and the parallel switch (R1) is connected to the start switch (SW). The dry liquid TA1 and TA2 are connected to each other via the R2 and the diodes D1 and D3. The triac TA1 includes a resistor R5, a transistor TR1, a TR3, and a triac TA2. The diode D2 and the transistor TR2 are connected in parallel to each other, and the resistors R8 and R9 and the relay RY are connected to the transistor TR2, and the resistors R3 and R4 are connected to the transistor TR3 in parallel. Each structure is connected.

L1, L2 are lamps, FM is fan motor, HVT is high voltage transformer, MGT is magnetron, TA is triac, a, b, d, a 'and b' are terminal of each element. .

1 is a circuit diagram of the present invention having the above-described structure, when the user inserts the power rod into an outlet and inputs the current time into the microprocessor 1, the current time appears on the display panel, and then the inquiries of the microwave oven to cook. When opened, the lamp L1 of FIG. 2 turns on and the door is placed with the food closed. Therefore, the lamp L1 is turned off, and according to the food, the time of cooking or temperature cooking is selected and the information of the cooking contents is stored in the RAM of the microprocessor 1. In the RAM, the selected cooking should be cooked according to the information of the cooking contents stored in the RAM. In this case, the relay RY and the dry are driven by the relay signal and the dry liquid signal of the microprocessor 1. As the magnetron (MGT) is oscillated while driving the liquid (TA), microwave energy is supplied to the food.

In other words, when the start switch SW1 in the key control unit is turned on, the start signal is fed to the terminal a of the microprocessor 1 through the resistors R1 (R2) and diodes D1 (D3). Is applied to the gate of TA2, and the triac TA1 and TA2 are energized. At this time, the power supply Vcc is applied to the transistor TR1 through the resistor R5 and the triac TA1 and turned on. Grounded via D2) and triac TA2.

Thereafter, the relay signal is sent to the terminal d of the microprocessor 1 and applied to the transistor TR2 through the resistor R9 to be turned on. Thus, the power supply Vcc is connected to the coil of the relay RY, the transistor TR2 and the triac ( Grounded through TA2, the relay RY contact is brought into contact with each other to operate the relay RY so that the lamp L2 of FIG. 2 is turned on and the fan motor FM is driven.

Since the triac signal is applied to the transistor TR3 through the resistors R3 and R4 at the b terminal of the microprocessor 1, the transistor TR3 is toned on, so the power supply Vcc is connected to the resistor R5 and the transistor ( TR3), and the triac signal is applied to the gate g of the triac TA in FIG. 2 through the triac driving circuit and is energized, so that the high current input power is supplied to the high voltage transformer HVT. The voltage induced by the secondary side is applied to generate the magnetron MTG to perform cooking desired by the user.

As described above, in the present invention, as the user turns on the start switch of the key control unit in the microwave oven employing the microprocessor as a controller, a relay signal is sent from the microprocessor to drive the relay after the triac is energized. When AC input power is supplied to the magnetron and an abnormal signal is sent, the magnetron of the microwave oven does not oscillate.

Claims (1)

The start switch SW and the resistors R3, R4 and R9 are respectively connected to the microprocessor 1 adopted as the controller of the microwave oven. The start switch SW is connected to the resistors R1 and R2 in series and parallel. The triacs TA1 and TA2 are connected to each other via diodes D1 and D3, and a resistor R5 is connected to the triac TA1, a transistor TR1, TR3, and a triac TA2 in parallel. (D2) and transistor (TR2) are connected, respectively, resistor R8 (R9) and relay (RY) to transistor TR2, and parallel resistors (R3) and (R4) to transistor TR3, respectively. Microwave power relay drive circuit.