KR19980049993U - Microwave Automatic Reset Circuit - Google Patents

Abstract

The present invention relates to an automatic reset circuit of a microwave oven, and includes: a sensing unit for outputting a predetermined signal according to a constant square wave voltage output from a square wave port of a microcomputer, a delay circuit unit for delaying a predetermined time output of the signal output from the sensing unit, A second reset unit for outputting a predetermined reset power to the reset voltage inlet unit according to the delayed output signal from the delay circuit unit, and a control unit for controlling the reset power supply of the first reset unit in accordance with the signal output from the sensing unit. The microcomputer automatically initializes the microcomputer when the microcomputer is congested or malfunctions due to external noise or static electricity, thereby preventing the malfunction of the microwave oven in advance, thereby ensuring the reliability and safety of the microwave oven.

Description

Microwave Automatic Reset Circuit

The present invention relates to an automatic reset circuit of a microwave oven, and in particular, an automatic reset circuit of a microwave oven that allows a microcomputer to automatically reset the microcomputer using an oscillation signal input through a square wave port when a malfunction occurs due to external noise. It is about.

In general, microwave ovens vibrate water molecules contained in foods by applying high voltage electricity to the high frequency oscillator, the Marknetron, which causes the food to vibrate outside and inside by frictional heat. At the same time, it is an electric appliance that heats quickly, and nowadays, a microwave oven employing a heater is used to cook the grill, and the food can be heated by a heater with microwaves, so that various foods can be cooked. have.

Here, a typical microwave oven is installed on the bottom surface of the rectangular space inside the microwave oven body 50 as shown in FIG. One side is provided with an operation panel 56 that sets each cooking function and includes start and end keys.

And the door 54 of the microwave oven is provided with a viewing window 58 to look into the cooking state in the cooking chamber and the door lock safety device 60 for fixing the door 54 with the main body 50 is installed It is. When the user wants to cook food using such a microwave, the food is first put into the cooking chamber and the cooking is selected through a corresponding key on the operation panel 56. And by setting the start key of the operation panel 56, the magnetron received a high voltage through the high-voltage transformer emits a constant microwave through the waveguide, so that the food in the cooking room is heated or cooked for a predetermined time.

On the other hand, the operation of the microwave oven is that the magnetron and the heater is operated by each relay is driven in accordance with the control signal of the microcomputer installed on one side of the electric room. On the other hand, a memory is installed inside the microcomputer, and when a power outlet of a microwave oven is inserted into a power plug, a predetermined reset power is also applied to the microcomputer to perform a reset operation to clear all contents.

That is, as shown in FIG. 2, the reset circuit of a general microwave oven filters the reset unit 70 to which a predetermined reset voltage is applied according to a user's operation, and the constant reset voltage output through the reset unit 70. The reset voltage reset voltage input part 71 and the reset voltage A inputted through the reset voltage input part 71 receive the stabilized voltage. A microcomputer 72 for initializing a state, a display unit 73 for displaying a current operating state according to the control signal of the microcomputer 72, and a corresponding relay for contact operation according to the control signal of the microcomputer 72; The relay driving unit 74 is formed.

In the reset unit 70, a predetermined reset power source (+5 [V]) is connected to the collector terminal of the first transistor Q1, and the emitter terminal is grounded. The cathode end of the control diode ZD is connected to the base end via a resistor R2, and the anode end is grounded. On the collector side of the first transistor Q1, a resistor R1 is connected in parallel with a resistor R2 at the base end.

On the other hand, the reset voltage inlet 71 is connected to the resistor (R3) and the capacitor (C1) in parallel to the emitter terminal of the first transistor (Q1), one side is grounded, the reset port (A) of the microcomputer 72 Is connected to.

On the other hand, looking at the conventional operation made of such a configuration as follows. First, the power plug is inserted into the microwave sensor, and a predetermined commercial power is applied to the high voltage transformer through each element of the microwave oven, and a predetermined reset power is also applied to the microcomputer 72 of the microwave oven to perform initialization. That is, when power is applied to the microwave oven, a constant driving power is applied to the reset unit 70 so that the first transistor Q1 maintains a low level when the reset power is raised above 3.9 [V]. Done. Therefore, the constant reset power is applied to the reset voltage inlet 71 through the emitter stage. At this time, the reset power inputted through the emitter terminal of the first transistor Q1 is filtered through the resistor R3 and the capacitor C1 of the reset voltage input part 71 to the reset port A of the microcomputer 72. It is input. As a result, the contents stored in the RAM of the microcomputer 72 are cleared and the state of the reset port A is initialized.

At this time, when a predetermined signal is input to the microcomputer 72 through the operation panel 56 of the microwave oven, the microcomputer 72 operates the relay driver 74 as a corresponding signal and displays the current operating state of the display unit 73. Will be displayed.

However, in the conventional reset circuit, the microcomputer is generally designed to be strong against noise by using a filter because it is weak to external power noise and static electricity.However, while the microwave oven is frequently used, the relay driver operates without a key input due to external noise. Since the magnetron is operating or the display of the letters and numbers is displayed in a strange state, the user must check this and unplug the microwave oven from the outlet and insert it again so that the microcomputer is reinitialized. If the malfunction of the microcomputer is not confirmed quickly, the microwave oven performs abnormal operation for a long time, thereby reducing the life of the product.

Therefore, the present invention was devised to secure such a problem. When the microcomputer's microcomputer malfunctions due to external power noise or static electricity, the microcomputer forcibly resets the microcomputer so that the microwave oven performs normal operation. It is an object of the present invention to provide an automatic reset circuit of a microwave oven to ensure safety according to the present invention.

The present invention for achieving the above object is a detection unit for outputting a predetermined signal according to a constant square wave voltage output from the square wave port of the microcomputer, a delay circuit unit for outputting a delay for a predetermined time the signal output from the detection unit, the delay circuit unit The second reset unit for outputting a predetermined reset power to the reset voltage input unit according to the delayed output signal from the control unit, and the control unit for controlling the reset power supply of the first reset unit in accordance with the signal output from the sensing unit is provided. .

1 is an external configuration diagram of a typical microwave oven.

2 is a view for explaining a reset operation of a conventional microwave oven.

3 is a view for explaining the operation according to the present invention.

<Explanation of symbols for main parts of drawing>

1: first reset unit 2: input control unit

3 sensing unit 4 delay circuit unit

5: 2nd reset part 6: Reset voltage input part

7: microcomputer 8: display unit

When the present invention is described in detail with reference to the accompanying drawings as follows.

As shown in FIG. 3, a configuration according to the present invention includes a first reset unit 1 for applying a power to a microwave oven and outputting a predetermined reset power, and a reset power output from the first reset unit 1. The reset voltage input unit 6 to be stabilized by the filtering operation and the predetermined voltage output from the reset voltage input unit 6 are initialized and the micom outputs the square wave signal through the square wave port B. 7) and a sensing unit 3 for outputting a constant operating power according to whether or not the square wave signal B of the microcomputer 7 is detected, and the signal output from the sensing unit 3 is fixed. A delay circuit section 4 for outputting a time delay, a second reset section 5 for outputting a predetermined reset power supply to the reset voltage input section 1 in accordance with a signal delayed by the delay circuit section 4, and the detection The reset power supply of the first reset unit 1 is controlled in accordance with the signal output from the unit 3 It consists of a control unit (2).

In addition, the microcomputer 7 is connected to the display unit 8 for displaying the operating state of the microwave oven in letters or numbers according to the control signal.

In addition, the sensing unit 3 has a capacitor C1 and a resistor R5 connected in series with the base terminal of the second transistor Q2 through the square wave port B of the microcomputer 7. The control unit 2 and the delay circuit unit 4 are connected in parallel, and the capacitor C2 is connected in parallel between the capacitor C1 and the resistor R5 to be grounded, and the resistor R5 and the second transistor are grounded. The resistor R6 is connected in parallel between the base ends of Q2 and grounded.

In addition, the delay circuit unit 4 has a resistor R7 connected in series with the resistor R8 of the second reset unit 5 at the collector terminal of the sensing unit 3, and the resistor R7 and the resistor are connected in series. Capacitor C3 is connected in parallel between R8 and is grounded. On the other hand, the second reset part 5 has a resistor R8 connected to the base end of the fourth transistor Q4, and the emitter end of the fourth transistor Q4 connected to the reset voltage inlet part 6. A reset power supply terminal (+5 [V]) is connected to the collector terminal of the fourth transistor Q4.

On the other hand, the control unit 2 is connected directly to the emitter terminal of the second transistor (Q2) the base terminal of the third transistor (Q3) via the resistor (R3), the emitter terminal of the third transistor (Q3) Is grounded and connected to the base end via a resistor (R4). The collector terminal of the third transistor Q3 is connected to the reset voltage inlet 6.

Here will be described in detail the present invention made of such a configuration as follows.

First, when a power plug is inserted into a microwave oven and a predetermined commercial power is input, the microcomputer 7 of the microwave oven is also supplied with power to perform initialization. That is, when power is applied to the microwave, a constant driving power is applied. Is applied to the first reset unit 1, and the first transistor Q1 maintains its low level when its driving power is increased above 3.9 [V]. Therefore, the constant reset driving power is applied to the reset voltage inlet 6 through the emitter stage. At this time, the reset driving power input through the emitter terminal of the first transistor Q1 is filtered through the resistor R3 and the capacitor C1 of the reset voltage input unit 6 to reset the port A of the microcomputer 7. Will be entered. As a result, the contents stored in the RAM of the microcomputer 7 are cleared and the state of the reset port A is initialized.

At this time, when a certain signal is input to the microcomputer 7 through the operation panel of the microwave oven, the microcomputer 7 operates the relay driver 74 as a corresponding signal and displays the current operation state through the display unit 73. Will be done.

On the other hand, when the microcomputer 7 is operating normally, the square wave port B of the microcomputer 7 outputs an oscillation signal having a constant width. The oscillation signal is a capacitor C1, a capacitor C2, and a resistor R5. ) And a resistor (R6) is applied to the base terminal to the second transistor (Q2). Therefore, the second transistor Q2 is kept high. At this time, when the microcomputer 7 malfunctions due to external power noise, letters or numbers displayed on the display unit 8 appear abnormally, and the oscillation operation of the microcomputer 7 is stopped and outputted from the square wave port B. The oscillation signal is no longer applied to the sensing unit 3. At this time, the base terminal of the second transistor Q2 is converted from the high level to the low level, so that a predetermined power is applied to the control unit 2 and the delay circuit unit 4.

That is, the constant power output from the sensing unit 3 is delayed for a predetermined time through the delay circuit unit 4 including the resistor R7 and the capacitor C3, and thus the base of the fourth transistor Q4 through the resistor R8. It is applied to the stage and is applied to the base terminal of the third transistor Q3 through the resistor R3 and the resistor R4. Then, the base end of the third transistor Q3 is set to the high level with the input constant power supply, so that the input port A of the microcomputer 7 is converted from the high level to the low level. At this time, the constant power delayed by the delay circuit unit 5 for a predetermined time is applied to the base terminal of the fourth transistor Q4 through the resistor R8, and thus the constant reset power connected to the collector stage is emitter stage. The reset port A is applied to the reset port A of the microcomputer 4 through the reset port A from the low level to the high level, so that the initialization operation is automatically performed.

In this way, when the microcomputer performs abnormal operation by external power noise, the microcomputer automatically resets by using the oscillation signal that is not output from the square wave port. Therefore, the consumer can secure safety in using the microwave. In addition, when the microcomputer malfunctions, the cumbersome operation of removing the power plug from the outlet and inserting it again is omitted.

Claims (5)

A first reset unit 1 for supplying a constant reset power by applying driving power to the microwave oven, and a reset voltage inlet unit 6 for filtering the reset power output from the first reset unit 1 and outputting a stable power source. And the reset power output from the reset voltage input unit 6 are supplied to the reset port A to perform an initialization operation, and accordingly, the microcomputer 7 outputting a constant oscillation signal through the square wave port B is provided. In the equipped microwave, A sensing unit 3 for outputting a predetermined signal according to a constant square wave voltage output from the square wave port B of the microcomputer 7, and a delay circuit unit for delaying and outputting a signal output from the sensing unit 3 for a predetermined time ( 4), a second reset unit 5 for outputting a predetermined reset power supply to the reset voltage inlet unit 6 in accordance with the delayed output signal from the delay circuit unit 4, and the output from the sensing unit 3; And a control unit (2) for controlling the reset power supply of the first reset unit (1) according to the signal. The method of claim 1, wherein the detection unit 3 is a capacitor (C1) and a resistor (R5) connected in series to the base terminal of the second transistor (Q2) through the square wave port (B) of the microcomputer (7), A capacitor C2 connected in parallel between the capacitor C1 and the resistor R5 and grounded and a resistor R6 connected in parallel between the base terminal of the resistor R5 and the second transistor Q2. Automatic reset circuit of a microwave oven, characterized in that consisting of. 2. The resistor circuit according to claim 1, wherein the delay circuit section (4) comprises a resistor (R7) connected in series with the emitter stage of the sensing section (3) and the second reset section (5), the resistor (R7) and the second reset section. (5) An automatic reset circuit for a microwave oven, comprising a capacitor C3 connected in parallel to each other and grounded. 2. The second reset part (5) is characterized in that the delay circuit part (4) is connected to the base end, a predetermined reset power supply (+5 [V]) is connected to the collector end, and the emitter end thereof has a reset voltage. The fourth transistor Q4 connected to the inlet 6 and the resistor R8 connected in series between the base terminal of the fourth transistor Q4 and the delay circuit unit 4 are automatically formed. Reset circuit. The third transistor according to claim 1, wherein the control unit (2) has a base terminal connected to the emitter terminal of the second transistor (Q2), the collector terminal of which is connected to the reset voltage inlet unit (6), and the emitter terminal is grounded. Q3, a resistor R3 connected in series to the base terminal of the third transistor Q3, and a resistor R4 connected between the resistor R3 and the base terminal of the third transistor Q3 and the emitter terminal thereof. Automatic reset circuit of a microwave oven, characterized in that consisting of.