KR850002819Y1 - Error protection circuit for electronic range - Google Patents

Abstract

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Description

Microwave malfunction prevention circuit

1 is a schematic diagram of a microwave oven.

2 is a conventional circuit diagram.

3 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: microprocessor 2: high frequency oscillation circuit

3: alarm sound generating circuit 4: monitor circuit

5: triac driving circuit 6: relay driving circuit

7: food temperature sensing circuit 8: key matrix circuit

9 display circuit 10 low power circuit

TRC: Triac RY: Relay

HVT: High Pressure Transformer SW ₁ -Start Key

IC ₁ : Integrated circuit for JK flip flop

The present invention relates to a circuit for preventing a malfunction of a microwave oven employing a microprocessor as a controller. In particular, the microprocessor of a microwave oven in a stopped state due to external noise or excessive rise in the ambient temperature of the microprocessor is malfunctioned. The present invention relates to an electronic circuit that does not affect the high plate oscillator circuit (or magnetron circuit).

In general, the microwave oven that induces food heating by developing high frequency generates heat by applying microwaves to food to move molecules from the inside, and the high frequency oscillation circuit with output power of several hundred W or more is mainly used. Contrary to this, energy is generated internally. In the conventional microwave oven, the microprocessor operates incorrectly because the microprocessor operates the relay and the triac controlling the high frequency oscillation circuit directly, thereby operating the relay and the triac. If the power is supplied to the high frequency oscillation circuit through the high voltage transformer, the magnetron will oscillate.

Accordingly, when a high frequency oscillation caused by a malfunction of the microprocessor occurs when the user is absent, the danger of fire is caused by the overheating of the microwave oven. There was a drawback of not accepting key input from the key matrix circuit and failing to perform the desired operation.

The present invention improves the above-mentioned shortcomings, and a relay circuit connected to one end of a high voltage transformer which induces a voltage in a high frequency circuit to prevent the development of a magnetron due to a malfunction of the microprocessor is installed at the microprocessor and the outside. It is an object of the present invention to provide a malfunction preventing circuit of a microwave oven that operates only when a start key is operated.

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

According to the present invention, in a microwave oven in which the contact terminals of the triac TRC and the relay RY are connected to the main power line, the resistors R1 to R3 and the transistors Q1 and Q2 of one end of the microprocessor 1 are uncivilized. One end of the relay RY coil and the other end of the relay RY coil through the transistor Q3, the resistors R4 to R6, and the diode D1 to the other end of the microprocessor 1, the start key. The other end of the microprocessor 1 is connected to the input terminal of the integrated circuit IC1 for JK flip-flop connected to (SW1), while the output terminal is connected to the resistor R9, the transistors Q4, Q5 and the switch SW2. ) Is connected to the other end of the relay (RY) coil.

Unmarked RG is power plug, F is fuse, TC is thermo-cut-off, S1 to S3 is safety switch, S4 is lamp (L) switch, 3 is alarm sound generating circuit, 4 is a monitor circuit, 5 is a triac drive circuit, 6 is a relay drive circuit, 7 is a food temperature sensing circuit, 8 is a key matrix circuit, 9 is a display circuit, and 10 is a low electric circuit.

FIG. 1 is a schematic diagram of a general microwave oven, and is connected to a power plug PG to operate a fuse F, a thermo-cut-off TC, and a safety switch S1 operated according to opening and closing of a door. After passing through the relay (RY) and the triac (TRC) for controlling the power according to the control signal of the microprocessor (1), the main power passed through (S2) is applied to the primary side of the high voltage transformer (HVT), and the high voltage transformer The power source induced on the secondary side of the HVT operates the magnetron in the high frequency oscillation circuit 2. At this time, the microprocessor 1 generates an alarm sound generating circuit 3, a monitor circuit 4, a triac driving circuit 5, a relay driving circuit 6, a food temperature sensing circuit 7 and a key according to the surrounding conditions. The matrix circuit 8, the display circuit 9 and the like are controlled.

2 shows a conventional relay drive circuit, which is prepared by cooking by operation of numeric keys (0-9) and function keys (TM, TP, PL, CK, CL) in the key matrix circuit 8. When the start key SW1 is pressed after inputting the related information, when the low level signal is output from the pin P6 of the microprocessor 1, the operating power Vcc flows to the diode D7 through the resistor R31. Diode D7 is conductive. Then, the microprocessor 1 senses the input of the start key SW1 and outputs a high level to the pin P29. When the transistor Q6 is turned on, the relay RY operates to activate the terminal of the main power line. The triac (TRC) connected to the other line of the main source line is also turned on by the high level signal outputted from the pin P12 of the microprocessor 1 while connecting between (①) (②) and the high frequency oscillation circuit The magnetron in (2) is to be oscillated.

However, in such a circuit, the external noise and excessive rise in the ambient temperature of the microprocessor 1 may cause the microprocessor 1 to malfunction. At this time, the pin (P12), the output terminal of the triac (TRC) and relay (RY) drive signals, When a high level signal is output from P29, the same operation as when the start key SW1 is operated to generate the magnetron as described above may operate the microwave oven regardless of the user's intention.

3 shows a malfunction prevention circuit of the microwave oven according to the present invention, wherein the start key SW1 in the key matrix circuit 8 discharges the resistor R8 to set the JK flip-flop integrated circuit IC11. It is connected to the terminal P17 and the reset terminal P16 of the integrated circuit IC1 is connected to the terminal P15 of the microprocessor 1, which is integrated into the JK flip-flop when the door is opened during cooking or at the end of cooking. This is to make the output of the output terminal P19 of the circuit IC1 low level. One end of the switch SW2 is connected to the output terminal P19 via the resistor R9 and the transistors Q4 and Q5 constituting the Darlington circuit, and the other end of the switch SW2 is connected to the relay RY coil. One end is connected, the switch (SW2) is opened when the door is opened and is conducted when it is closed, thereby controlling the operation of the relay (RY).

On the other hand, the diode D1, the resistor R5, and the transistor Q3 are sequentially connected to the connection point between the relay RY coil and the switch SW2 and the pin P14 of the microprocessor 1 to control the opening and closing state of the door. It informs the microprocessor 1. The resistors R1 to R3 and the transistors Q1 and Q2 are connected to the pin P13, which is an output terminal of the relay driving signal, so that the relay RY coil is connected.

The relay RY switch of the relay driving circuit 6 configured as described above is connected to one end of the primary coil of the high voltage transformer HVT which causes the main power supply to the high frequency oscillation circuit 2.

In order to use the present invention as described above, when the main power is applied to the power plug PG and the effective cooking information such as cooking time from the key matrix circuit 8 is input to the microprocessor 1, the microprocessor 1 pins. From P14, the door is opened and closed and whether the start key SW1 is operated.

At the initial power input or in the operation standby state, a high level signal and a resistor R7 output from the pin P15 of the microprocessor 1 are applied to the reset terminal P16 of the integrated circuit IC1 for JK flip-flop. Since the high level signal is input and the low level signal is output from the output terminal P19, the transistors Q4 and Q5 composed of the Darlington circuit are turned off so that the door monitor switch SW2 is turned on and off. Regardless, the diode D1 is turned off. Therefore, since the operating power supply Vcc is applied to the base of the transistor Q3 through the resistors R6 and R5 and the transistor Q3 is turned off, the pin P14, which is an input terminal of the microprocessor 1, has a low level. Signal is input.

In the microprocessor 1, when the input of the pin P14 is at the low level, it is recognized that the door is not opened or the start key SW1 is not pressed, and the pin P12, which is the TRC driving signal output terminal, and the relay RY ) Triac (TRC) and relay (RY) are not operated by outputting low level to pin (P13), which is a drive signal output terminal.

At this time, since no power is supplied to the high frequency oscillation circuit 2, the magnetron does not oscillate.

When cooking is put in the cooking chamber and the door is closed for cooking, the switch SW2 is turned on. When the start key SW1 is operated, one pulse signal is sent to the set terminal P17 of the integrated circuit IC1 for JK flip-flop. Transistors Q4 and Q5 are turned on because they are input and maintain a high level at output terminal P19. Since the diode D1 is also turned on to turn on the transistor Q3, the high level is maintained at the terminal P14 of the microprocessor 1 because the high level is maintained at the collector of the transistor Q3 to which the resistor R4 is connected. Upon input, the microprocessor 1 senses that the start key SW1 has been manipulated and outputs a high level signal to pin P13, the relay drive signal output stage, via transistors Q1 through resistors R1 and R2. Turn on. Then, the transistor Q2 connected to the collector of the transistor Q2 via the resistor R3 is also turned on, so that the relay RY is operated so that the relay RY switch is connected. It is conducting. In addition, since the microprocessor 1 outputs a high level to the pin P12, which is a triac driving signal output terminal, as described above, the triac TRC is also conducted so that the main power is applied to the primary coil of the high voltage transformer HVT. As the induced voltage is generated in the secondary coil and supplied to the high frequency oscillation circuit 2, the magnetron is oscillated.

When the door is opened during cooking, the switch SW2 is opened to terminate the operation of the relay RY. Therefore, the terminals (①) and (②) are opened to cut off the main power supply to the high voltage transformer (HVT), so that the high frequency oscillation circuit (2) ) Will stop. In addition, when the switch SW2 is opened, the diode D1 is also turned off so that the transistor Q3 is turned off. Therefore, when a low-level signal is input to the pin P14, the microprocessor 1 detects that the door is open and is present. Stops the operation in progress and outputs the triac (TRC) drive signal and the relay (RY) drive signal output to the pins P12 and P13 at low level, and outputs the high level to the pin P15 to generate the JK flip-flop. The output terminal P19 of the integrated circuit IC1 is made low.

As described above, even if the microprocessor 1 outputs a high level to the malfunctioning high pins P12 and P13, the output terminal P19 of the JK flip-flop integrated circuit remains low, so that the transistors Q4 and Q5 ) Is turned off so that the relay RY does not operate and the triac TRC does not operate so that the magnetron in the high plate oscillator 2 does not oscillate. In addition, even if a high level is output to the pin P15 of the microprocessor 1, since it is input to the reset terminal P16 of the integrated circuit IC1 for JK flip-flop, the low level is output from the output terminal P19. Also, the relay RY cannot be operated.

As described above, according to the present invention, since the operation state of the start key SW1 is not directly input from the key matrix circuit 8 to the microprocessor 1, the microprocessor is input to the set terminal of the integrated circuit IC1 for JK flip-flop. Even if a high level is output to the relay drive signal output terminal 13 and the triac drive signal output terminal P12 due to a malfunction of (1), the main power is not supplied to the high voltage transformer HVT since the relay RY is not operated. Therefore, there is an advantage that the high frequency oscillation which may be caused by the malfunction of the microprocessor 1 is not generated.

Claims (1)

In a microwave oven in which the contact terminals of the triac TRC and the relay RY are connected to the main power line, a relay (R1 through R3) and a transistor (Q1) Q2 are connected to one end of the microprocessor (1). One end of the RY coil and the other end of the relay RY coil through the transistor Q3, the resistors R4 to R6, and the diode D1 to the other end of the microprocessor 1, and the start key SW1. The other end of the microprocessor 1 is connected to the input terminal of the integrated circuit IC1 for the JK flip-flop connected to each other, and the output terminal is connected to the resistor R9, the transistor Q4, the Q5 and the switch SW2. Circuit to prevent malfunction of the microwave oven connected to the other end of the relay (RY) coil.