KR910001369Y1 - Magnetron protect circuit of electronic range - Google Patents

Abstract

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Description

Magnetron oscillation prevention circuit when spark occurs in microwave oven

1 is an embodiment of a specific circuit diagram according to the present invention.

2 is a waveform diagram of each part for explaining the present invention.

3 is a flowchart of a microcomputer according to the present invention.

* Explanation of symbols for main parts of the drawings

3: spark occurrence detection unit 4: false detection prevention unit

5: Spark generation judging part 6: microcomputer

7: Load driving unit 8: Attention signal generating unit

R ₁ -R ₁₀ : resistance cds: photosensitive device

IC ₁ : Comparator IC ₂ : Timer

IC ₄ : Counter C ₁ : Capacitor

TR ₁ -TR ₄ : Transistor R ₅ : Relay

D ₁ : Diode

The present invention relates to a magnetron oscillation prevention circuit when a spark occurs in a microwave oven. In particular, when a container that cannot be used in a microwave oven, that is, a conductive container is used, the spark generated by the ultra-high frequency characteristic is sensed to stop oscillation of the microwave. It is about a circuit.

Conventionally, when a conductive container which is a container which cannot be used in a microwave oven is used, sparks are generated by the ultra-high frequency dispersed in the cooking chamber of the microwave oven, which not only surprises the user, but also causes a fire.

In order to solve the above problems, the present invention detects the spark generation to detect the spark generation due to the use of the conductive container, and generates the spark according to the transient change of the external light or the on / off of the oven lamp. The false detection prevention part which generates a pulse of a certain period so that it may not be mistaken by, and the output pulse from the said spark generation detection part counts during the fixed period of the pulse sent out from the said misdetection prevention part, and it sparks only when it becomes more than a predetermined number. A spark generation determination unit which judges that it has occurred and processes accordingly, a microcomputer which bugs the input data with the set data and sends a control signal accordingly, and a control signal from the spark generation determination unit and the microcomputer And a load driver for controlling the driving of the magnetron. At the time of spark generation, the control signal from the microcomputer is configured to generate an attention signal generating an attention signal, which will be described in detail with reference to the accompanying drawings.

1 is an embodiment of a specific circuit diagram according to the present invention is composed of a transformer (T), a diode (D ₂ ) and a capacitor (C ₂ ) and magnetron (MGT) AC power source of the load unit 1 for oscillating ultra-high frequency And a DC power supply unit (2) for converting the power into DC power. And a spark generation detector (3) consisting of resistors (R ₁ -R ₃ ), photosensitive elements (cds) and comparators (IC ₁ ). Resistance (R ₄ , R ₅ ). And a misdetection prevention unit (4) composed of a capacitor (C ₁ ) and a timer (IC ₂ ). A spark generation determining unit (5) composed of a transistor (TR ₁ ), an inverter (IC ₃ ), and a counter (IC ₄ ), and a microcomputer (6) which compares input data with a predetermined setting and sends out a control signal according thereto. Relay (RY). A load driver 7 composed of a diode D ₁ , a transistor (TR ₂ -TR ₁ ) and a resistor (R ₄ -R _{1 "} ,) and receiving a control signal from the microcomputer (6) when a spark occurs. It consists of an attention signal generator 8 for generating a attention signal.

2 is a waveform diagram of each part for explaining the present invention, (a) shows a waveform input to each input terminal of the comparator (IC ₁ ) in the spark generation detection unit (3), (b) The output waveform is shown, and (c) shows the output waveform of the timer IC ₂ in the erroneous detection prevention part 4.

3 is a flow chart showing the processing in the interrupt routine when the spark generation signal is applied to the microcomputer.

Referring to the operating relationship of the present invention, the spark generation detector 3 in FIG. ₁ is a divider voltage by the resistor (R ₁ ) and the photosensitive device (cds) is input to the inverting terminal (-) of the comparator (IC ₁ ) Meanwhile, as shown in FIG. 2A, a constant reference voltage between voltages applied to the photosensitive elements cds is set by the resistors R ₂ and R ₃ depending on the presence or absence of sparks, and thus the comparator IC ₁ It is input to non-inverting terminal (+). When spark occurs in microwave oven by using conductive container, resistance value of photosensitive device (cds) is lowered by light of the spark, so it is applied to photosensitive device (cds). The voltage is lowered. Accordingly, in the comparator IC ₁ , the clock terminal of the counter IC ₄ in the spark generation determining unit 5 receives the high pulse as shown in FIG. 2B. Will be entered.

On the other hand, in the erroneous detection unit 4, the resistors R ₄ and R ₅ and the capacitor C ₁ are connected to the respective input terminals RST and DIS. THR of the timer IC ₂ to output a predetermined period. The pulse is input to the reset terminal RST of the counter IC ₄ through the inverter IC ₃ in the spark generation determining unit 5.

It becomes

The output terminal Q ₅ of the counter IC _{4 in the} spark occurrence determining unit 5 is connected to the base terminal of the transceiver TR ₄ and to the INT terminal of the microcomputer 6. The clock terminal from the spark generation detector 3 for a predetermined time t ₁ of the output pulse inputted from the prevention unit 4 to the reset terminal RST through the inverter IC ₃ . By counting the output pulse which is input to a predetermined number (e.g., 32) over INT terminal of the base end and the micro Kim computer (6) of the transistor (TR _1), it is determined that the only spark occurs when the As the high level transmits a signal, it does not misjudge the change of light due to the temporary change of external light or the on / off of the oven lamp when worn.

Group counter (IC ₄₎ transistor (TR ₁₎ received is a high signal to the base terminal from the output terminal (Q) of the while being turned on, so thereby turn the load drive section (7) Needle transistor (TR ₃₎ off the transistor (TR ₂ The high level signal is applied to the base end of the transistor), and the transistor TR ₂ is also turned on. As a result, the operation of the relay RY is interrupted to stop the power supply for the oscillation action of the magnetron MCT in the load unit 1.

At the same time, the microcomputer 6 receiving the high signal from the output terminal Q ₅ of the counter IC ₄ to the INT terminal determines the spark generation signal and performs an interrupt routine as shown in FIG. The control signal is sent to the caution signal generator 8 to generate a caution signal, and at the same time, all outputs are turned off so that the microwave oven can no longer be driven.

As such, the present invention detects the spark immediately when the conductive container is used and stops the oscillation of the magnetron and generates a warning signal for the user to recognize. There is an advantage.

Claims (4)

In the microwave oven using the microcomputer 6, the spark generation detection unit 3 for detecting the generation of sparks due to the use of a conductive container, and the light change due to the temporary change of external light or the on / off of the oven lamp. In order to prevent a mistake in the occurrence of sparks, a false detection prevention unit 4 for generating a pulse of a predetermined period, and the spark generation detection unit 3 during a predetermined period of the pulse transmitted from the false detection prevention unit 4 The spark generation determining unit that determines that a spark has occurred only when the predetermined number of output pulses is counted and processes accordingly, receives a control signal from the microcomputer 6 when a spark occurs, and receives a caution signal. Magnetron oscillation prevention circuit when the spark generation of the microwave oven, characterized in that consisting of the attention signal generator (8) to generate. 2. The magnetron oscillation prevention circuit of claim 1, wherein the spark generation detecting unit comprises a resistor (R ₁ -R ₃ ), a photosensitive device (cds), and a comparator (IC ₁ ). 2. The magnetron oscillation prevention circuit according to claim 1, wherein the misdetection prevention unit (4) comprises a resistor (R ₄ -R ₅ ), a capacitor (C ₁ ), and a timer (IC | ₂ ). . The method of claim 1. Spark generation determination unit (5) is a transistor (TR ₁ ), the inverter (IC ₃ ) and the counter (IC ₄ ) characterized in that the magnetron oscillation prevention circuit when the spark occurs in the microwave oven.