KR940004047B1 - Controlling method of microwave oven - Google Patents

Abstract

The cooling apparatus of a microwave oven is operated according to the operating time of a magnetron so that output of a magnetron is maintained regardless of the successive usage of a microwave oven. The count action is initiated when a magnetron is operated by a start signal and a time proportional to the operating time of the magnetron is set when the operation of the magnetron stops. A cooling fan driver drives a cooling fan according to the time set by the counter.

Description

Microwave Control Method for Higher Output

1 is a block diagram of a conventional microwave output control system.

2 is a graph showing the change in output characteristics of a conventional microwave oven according to operation time.

3 is a schematic diagram of a cooling fan control circuit for explaining the present invention.

4 is a cooling time band output distribution chart for each magnetron operating time according to the present invention.

5 is a detailed hardware configuration of the cooling fan control microcomputer of the present invention.

6 is an execution flow chart of the present invention.

* Explanation of symbols for main parts of the drawings

10: micom 30: power unit

40: cooling fan drive unit 50: high voltage transformer input drive unit

The present invention relates to a method for controlling a microwave oven for high output that can prevent the phenomenon that the output is gradually reduced compared to the initial output during repeated use by controlling the cooling device of the microwave oven in proportion to the magnetron driving time.

A system configuration diagram of a microwave oven for cooking food through microwave generation may be schematically illustrated in FIG. 1.

As can be seen here, the primary voltage of the high voltage transformer 16 is connected to be supplied through the power relay 26 controlled by the microcomputer 10, and the voltage shown on the secondary side of the high voltage transformer 16 is It is connected to oscillate the magnetron 24 via the high voltage capacitor 18, the resistor 20 and the high voltage diode 22.

The cooling motor 14 is connected in parallel with the primary side of the high voltage transformer 16.

Therefore, when the power is turned on and the appropriate condition is input, the power relay 26 is driven by the microcomputer 10 to supply power to the high voltage transformer 16, and thus high pressure is induced on the secondary side of the high voltage transformer 16. When the DC high pressure (about 4KV) rectified by the high-pressure diode 22 and the high-pressure capacitor 18 is supplied to the magnetron 24, microwaves are generated, and the cooling motor 14 connected to the primary side of the high-voltage transformer 16 is provided. ) Is driven to cool the components.

When the setting time of the microwave oven ends, the microcomputer 10 turns off the power relay 26 to cut off the power supply to the high voltage transformer 16 and stops the cooling motor 14 at this time.

By the way, the output of the microwave becomes lower as time passes from an initial state, as shown in FIG. This is caused by the deterioration of the magnetron 24, the high-voltage transformer 16, the high-voltage capacitor 18, etc., this continuous output problem in the continuous use of the microwave oven brings down the efficiency of the range.

Therefore, in order to obtain the maximum output, the heated element must naturally cool down and reach the ambient temperature before the microwave oven is operated again. As shown in Figure 2, the longer the microwave run time, the longer (approximately 15 minutes or more) the output loss is near 10%.

An object of the present invention is to provide a new microwave output control method that can prevent the output from falling when using the microwave continuously in accordance with the natural cooling in this way.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

3 shows a system configuration for conceptually understanding the present invention.

As referred to herein, the primary input of the high voltage transformer 16 is controlled by the second power relay 26, and the drive input of the cooling fan drive cooling motor 14 is controlled by the first power relay 28. The first and second power relays 28 and 26 are configured to be controlled by the microcomputer 10.

Detailed hardware for this is shown in FIG.

Here, the Vcc, Vss, and RST input terminals of the microcomputer 10 include a power supply transformer T ₁ , a diode D ₃ , a capacitor C ₁ -C ₃ , and a stabilization IC IC ₁ . Is configured to apply a Vcc output voltage.

The microcomputer 10 includes a ROM 101 having program setting data, a RAM 102 having data on timing cooling fan control time by a timer, and an input / output control unit 103.

The output ports P ₁ and P ₂ of the microcomputer 10 each include a cooling fan driver 40 and a second power relay 26 including the first power relay 28 shown in FIG. 3. The high voltage transformer 16 is connected to the input driver 50.

The control method of the present invention based on such hardware configuration will be described with reference to FIGS. 3 to 6.

First, when the Vcc voltage by the power supply unit 30 is input to the microcomputer 10 of the microwave oven and the cooking mode is started according to the user's cooking mode selection, the input / output control unit 103 of the microcomputer 10 reads the ROM 101 data. Export to output port (P ₂ ). At this time, the RAM 102 executes the timing T ₁ .

The high level of the output port P ₂ of the microcomputer 10 drives the second power relay 2 by turning on the transistor Q ₂ through the resistors R ₃ and R ₄ of the high voltage transformer input driver 50. do.

Accordingly, if the magnetron when the oscillation is to cook the food oscillation is terminated in accordance with the set time timing by the microcomputer (10) (T ₁₎ is determined for 5 minutes, whether less than 5 minutes, the microprocessor output port (P ₁ 3 minutes after the high level is output to the cooling fan driver 40 to drive the first power relay 28 by the resistors R ₁ , R ₂ , diode D ₁ , and transistor Q ₁ . Change output port P ₁ to low level and exit.

On the other hand, when the timing T ₁ by the microcomputer 10 exceeds 5 minutes and less than 10 minutes, the cooling fan driver 40 is operated for 4 minutes to cool the components for 4 minutes and then ends. If the timing T ₁ is greater than 10 minutes and less than 15 minutes, the cooling fan driver 40 is cooled for 5 minutes and then terminated. If the timing T ₁ is 15 minutes or more, the cooling motor is driven for 8 minutes and ends.

The operation thereof is shown schematically in FIG.

Therefore, the present invention sets the cooling fan driving time for cooling the heating parts according to the operating time by timing one operation time of the microwave oven using the microwave, and thus cooling the corresponding set time after the magnetron oscillation. This enables maximum output within a short time range during continuous use of the microwave oven.

Claims (1)

In accordance with the user's cooking mode selection start, the microcomputer supplies a high pulse to the high voltage transformer input driver including the second power relay to drive the magnetron and starts timing counting. Supplying a high pulse to the cooling fan drive unit including the first power relay in the microcomputer during the set cooling time corresponding to the cooling motor to drive the cooling element, characterized in that the microwave control method for high output.