KR820000262Y1 - Control circuit for micro-wave heating range - Google Patents

Abstract

No content.

Description

Automatic control and control circuit of microwave oven using microcomputer

1 is a conventional microwave circuit diagram

2 is a block diagram of a circuit showing the principle of operation of the present invention.

3 is a detailed circuit diagram according to the block diagram of the present invention.

The present invention is applied to the microwave microwave heating principle, heating and drying or thawing by applying the principle of high-frequency dielectric heating, the memory of the microcomputer to store the output of the output and the resulting temperature control and a series of cooking operations, or the same cooking order It is an automatic control and control circuit of a microwave oven that allows housewives to cook conveniently and safely by programming and operating simply.

In general, in order to make a delicious dish, the action of heating and drying and thawing food should vary depending on the type, weight, or volume of the food, and the time and output of heating in the range, as well as the initial temperature or degree of processing. .

In other words, by adjusting the output amount and time according to the conditions and conditions of the food, and by controlling the temperature it is possible to make a successful dish suited to food or taste. However, since the conventional microwave oven as shown in FIG. 1 is operated by a single cooking time setting and a fixed output amount, its function is extremely limited, and it is necessary to repeat the operation several times in order to change the time, and also to expect the variable of multi-stage output. There are many difficulties in making delicious dishes by burning or hardening the food as well as causing power loss due to the defects such as inability to do so.

Therefore, the present invention eliminates these drawbacks and suppresses the loss of power by using a microcomputer to freely adjust and control the output quantity and the length and length of time according to the type of food. It will be described in detail as follows.

That is, FIG. 2 is a schematic block diagram showing information on everyday cooking in a memory device in a microcomputer (for example, MC 3870) (C), and in order to control operation such as heating order and temperature of calories related to a particular dish. Its own program is built into the microcomputer (C).

Therefore, if the start switch on the keyboard (A) programmed in the microcomputer (C) is pressed through the input of the microcomputer (C), all the matters of the cooking operation required for the keyboard (A) are pressed. The control signal is output and input to each unit, and the temperature sensing unit (D) compares the signal for sensing the temperature and the information output of the microcomputer (C) with the signal exported through the interface (I ₁ ), and the microcomputer ( C) receives the comparison signal and transmits the temperature control signal and the output control signal according to the output control program through the interface I ₂ to the driving control unit E, the switching unit F, the power control unit H, and the buzzer driving unit G. ), Respectively, is input to the driving unit J, and at this time, each output control signal is supplied by a program embedded in a microcomputer and a program set by a keyboard, and at this time, a photocoupler (OC ₁ ) (OC ₂ ) (OC ₃ ). By And thereby via the drive control unit (E) of the triac _{(T 1) (T 2)} (T 3) of the power control unit (H) ON, OFF, the driving part (J) receives the control signal to the operation of the high frequency heating On the other hand, the display unit (B ₁ ) for displaying the time of the start and end of cooking by the control operation of the microcomputer (C) through the interface (I ₁ ) and the display unit consisting of LEDs to inform the progress of each cooking process (B ₂ ) is operated, and the control signal via the interface (I ₂ ) is interlocked with the relay via the switching unit (F) to drive the switch of the power control unit (H), the buzzer (Bz) of the buzzer driving unit (G). Ring).

When the detailed configuration and operation principle of the present invention will be described in detail according to the circuit diagram of FIG.

The keyboard (A) is composed of 23 button switches, arranged to select and program all functions required for cooking operation with the array board. The 10 switches from ① to ⑨ are switches for time and temperature setting. The switch ② 'is the start switch for performing the set cooking operation, ③' is the clock switch for setting the current time, ④ 'is the stop switch for stopping the cooking operation, and ⑤' is the temperature which allows cooking by temperature control. Set switch, ⑥ 'is the heat & hold switch to keep the temperature at a constant temperature, ⑦' is the defrost switch for defrosting operation, ⑧ 'is the heater switch to control the heater, ⑨' is two cooking operations Is a cooking switch for continuous operation, ⑩ 'is a storage switch for storing the set cooking order and set temperature, and ①' is a cooking switch based on the memorized contents. The memory start switch to start, ⑫ 'is the cooking completion time setting switch to end all cooking at the desired time, ⑬' is composed of a power level switch that sets the operating level of the magnetron, a high frequency generator. To explain how to use them, press the switch ③ 'to set the current time, set the time using the number ①-⑨ to the desired time and press the start switch of ②' to cook. The operation begins. To memorize the cooking time and power level, and to perform the same operation several times, set the desired time with ⑨ 'cooking setting switch, set the power level using ⑬' power level switch, and then use 메모리 'memory switch. Stores the set time and power level, and starts using the memory start switch ⑪ 'when using it.

In addition, for cooking by temperature, press ⑤ 'and set the desired temperature using the switch ①-⑨, then press the start switch ②' to raise the temperature to the set temperature and become the desired dish. To complete, press ⑫ ', set the time using the number switch ①-⑨, and press the memory switch of. The computer calculates the set cooking time and cooks it to the desired cooking completion time.

Therefore, the 23 buttons on the key press A as described above can be arbitrarily programmed for the cooking time, temperature, required power level, etc. as desired by the user, and various functions can be selected.

Therefore, any combination of program input signals (P ₁₀ -P ₁₃ ) is input to the microcomputer and programmed. Pressing the start switch (② OR ⑪ ') on the keyboard starts automatic processing of all output signals. At this time, the microcomputer is equipped with a separate operating program, and the operating program in the microcomputer is operated according to the program signal from the input to send a block control signal through each interface (I ₁ ) and (I ₂ ). ₁ ) and (I ₃ ) are used to amplify and output the input signal as a normal buffer. The desired switch is selected from the 23 switches in the usual key scan method. 4 x 7 = 28 switches can be selected using four input signals (p ₁₀ -P ₁₂ ) and the interface (I ₁ a) and seven input signals (P ₀ -P ₆ ), which are internal to the microcomputer. Pro As by RAM that is determined by the interface (I ₁ a) of the signal switch is a micro Computer (C) for whether pressing in the corresponding line whether or not export the output signal before the seven outputs of this approach Micro Computer (C In case of using 4 input terminals of), it is a method to decode 23 input switches.

The control output signal, which has passed through the buffer interface I ₂ , on the one hand drives the transistor Tr ₁ of the switching unit F to excite the coil of the power ray, and relays the power control unit H interlocked with it. The contact R _E is connected to illuminate the lamp L ₂ to illuminate the inside of the heating chamber. At this time, the traaak (T ₁ , T ₂ , T ₃ ), which are switching elements of the power control unit (H), is a signal composed of a microcomputer (C) and three output combinations, and a photocoupler (CO ₁ ,) of the driving controller (E). The cooking process is started by driving through CO ₂ , CO ₃ ). The triac T ₁ of the power control unit H controls the fan motor M _F , and the triac T ₂ controls the food. The radiator heats the heater (H _T ), and the triac (T ₃ ) is operated to control the oscillation by receiving a control signal according to the cooking time and the ultra-high frequency output level programmed in the microcomputer (C). When (T ₃ ) is turned on, current flows in the primary winding of the leakage flux type lottery transformer (Lts) to induce a high voltage in the secondary winding of the driving unit (J), wherein the induced high voltage is a diode of the high voltage capacitor (C ₁ ). (D ₁₎ and to be a half-wave voltage doubler rectification by the resistance (R _1), this voltage is very high frequency oscillation tube (Q) It is applied as the high frequency is generated by the heating body to be heated, such as very high frequency of the food inside the heating chamber when the heating chamber induction, to work able to cook the food.

In addition, when the cooking time ends, the microcomputer C ends the cooking. At this time, the buzzer Bz of the buzzer driving unit G operates and all the outputs are turned off.

That is, the photocoupler OC ₃ of the drive control unit E is turned off to stop the operation of the microwave generator tube Q, the photocoupler OC ₂ is turned off to stop the operation of the heater, and the photocoupler OC _1. ) To stop the operation of the fan motor (M _F ), and also to turn off the transistor (Tr ₁ ) to open the contact of the power relay (R _E ) to cut off the power.

On the other hand, the output combination signal (P ₄₀ -P ₄₆ ) of the microcomputer (C) through the interface (I _1b ) is a temperature comparison signal from the microcomputer (C), a resistor R and the operational amplifier ( D ₁ ) is used as the negative input of the differential amplification circuit (D ₂ ) for voltage comparison, and the signal determined by the temperature sensing of the thermistor (D ₃ ), which is a temperature sensing element, is applied to the (-) of the differential amplification circuit (D ₂ ). By inputting the output of the compared voltage to the microcomputer (C), the sensor detects and adjusts the amount of temperature corresponding to the cooking state in progress. Meanwhile, the combined signal through the interface I _1b ( P ₄₀ -P ₄₆ ) is represented as a signal function for determining the state of the display B. The display B ₁ is set to the present time, the present temperature, the set period, the set temperature, and the high frequency output level. Whether it is a microcomputer (C) The status is displayed according to the program sequence determined by A), and the progress of cooking is decreased by 1 second. In the case of temperature display, the display of the Digitron display (B ₁ ) is changed according to the temperature change. The temperature will change.

This display state is the output signal combination (P ₀ -P ₆ ) of the interface (I _1a ), the output signal combination (P ₄₀ -P ₄₆ ) of the interface (I _1b ), and the corresponding switch (for example, ③ ' ⑨ When the program of an arbitrary set time to nulreugo progress, ⑤ 'the current time and the time ①-⑨ temperature control in the temperature condition, etc. If the program to ...) of these signals (P ₀ -P ₆ in accordance with the state of nulreum, P ₄₀ -P ₄₆ ), (P ₁₀ -P ₁₃ ), and the display of these times, temperature, power level, etc. are displayed on the program setting and microcomputer (C) by pressing the key (A). The state of the display B ₁ is indicated by the built-in program sequence.

In addition, the display B ₂ is for displaying a progress state that cannot be displayed on the display B ₁ , and is displayed on the remaining key switches ②′-⑬ ′ of 10 switches from 1 to 9 of the 23 key switches. It is an LED that indicates that the corresponding function is being performed. When the clock switch ③ 'is pressed, the lamp corresponding to ③' is turned on, and the state changes every time according to the programmed sequence among the various functions.

On the other hand, the constant voltage circuit portion K flows a current to the primary axis winding of the power transformer PTS from the power plug through the thermo switch TC, and induces a voltage to the secondary winding, which is a bridge rectifying circuit and a half wave rectifying circuit. The predetermined voltage is supplied to the microcomputer C and each IC terminal through the constant voltage circuit VR using the light source.

In addition, the door open / close detection switch (SW ₄ ) of the microcomputer (C) is ON when the door is opened, it is OFF when closed to operate to automatically detect the open and closed state of the door.

Then, the operation of the lamp (L ₁ ) (L ₂ ) for heating room lighting is connected to the power relay (R _E ) of the power relay by the cooking operation signal, and the lamp (L ₂ ) is turned on to illuminate the heating room and the cooking end signal. As the power relay contact R _E is cut off, the lamp L ₂ is turned off.

At this time, the lamp (L ₁₎ is open, the door according to the opening and closing operation of the door, the contact of the safety switch (S ₁₎ is connected to the lamp terminals (L ₁₎ and the indicator lamp (L ₁₎ is closed, the door safety switch (S ₁ ) the contacts are connected to the circuit to prepare for cooking operation. When the door is closed, both the safety switch (S ₁ ) (S ₂ ) and the monitor switch (S ₃ ) are connected, and the lamp (L ₁ ) is The lamp L ₂ is turned off, and when the door is opened, the lamp L ₁ is turned on and the lamp L ₂ is turned off, and the lamp L ₂ is turned off or turned on with the opening and closing of the door.

The present invention as described above avoids the extremely limited cooking function that requires cooking operation by a single cooking time setting and a fixed output, which is a drawback of the conventional microwave oven, by simple operation of the keyboard A. It is equipped with the function, and it is controlled to automatically maintain a constant temperature by automatic conversion and adjustment of the output and automatic temperature sensing in two or more steps of cooking operation, and can be started or stopped at a time requiring a series of cooking actions. It can be stored in the memory device to eliminate the waste of power due to automatic output control as well as the effectiveness and efficiency of cooking the same type of food repeatedly.

Claims (1)

In a typical cooking one-chip microcomputer (C) system consisting of a microcomputer (C), a kibe diagram (A), a display (B), and an interface (I ₁ ) (I ₂ ), a temperature sensing is performed at the interface (I ₁ ). The circuit (D) is connected to the output of the microcomputer (C) via the interface (I ₂ ), and then the photocoupler (OC ₁ ) (OC ₂ ) (OC ₃ ) is connected to the leakage flux type lottery transformer (LTS). Connect the triac (T ₃ ) for controlling the high frequency oscillation tube (Q), the triac (T ₁ ) for controlling the fan motor (M _F ), and the tria (T ₂ ) for controlling the heater (H). And an automatic control and control circuit for the microwave oven, by connecting the switching unit F and the buzzer driving unit G to the interface I ₂ .