KR0172863B1 - Automatic thawing apparatus for microwave oven - Google Patents

Abstract

The present invention relates to a food thawing control means of a microwave oven, and in the related art, such a thawing control means is designed to thaw food by sensing the weight of the food. In the present invention, the antenna sensor 11, the simple signal processing circuit (APC), the system microcomputer (13), the power control circuit (14), etc., which detect the amount of power of the microwave inside the cavity 21 installed in the cavity 21 according to the load amount. It is an automatic thawing device of a microwave oven having a configuration including the automatic thawing control of food.

Description

Microwave Automatic Defroster

1 is an example of an automatic defrosting apparatus to which a differential transformer method is applied in a conventional microwave oven.

2 is a system circuit block diagram related to FIG.

3 is a reference diagram of a system configuration according to the present invention.

4 is a circuit block diagram showing a sensor signal processing system related to FIG.

5 is a circuit diagram of the embodiment of FIG.

6 is a graph showing the sensor output state of FIG. 4 according to the food load.

7 is an embodiment of a power control circuit by the system micom in connection with FIG.

8 is an equivalent circuit diagram showing the concept of operation of the sensor according to the present invention.

* Explanation of symbols for main parts of the drawings

11 antenna sensor 11a detector

11b: first low pass filter 12: amplifier

12a: second low pass filter 13: system micro

13a: system microcomputer protection circuit APC: signal processing circuit

14 power control circuit 21a sensor hole

The present invention relates to a defrosting control means for thawing food in a microwave oven, and in particular, a defrosting control can be performed by using a correlation between the amount of food in a microwave and an output amount of microwaves detected by an antenna means.

In the conventional microwave oven, a means for sensing the weight of food and controlling thawing heating by converting a thawing time proportional to its weight is known. Among these means, a form using a differential transformer type weight sensor is shown in FIGS. 1 and 2. It is shown with the help.

Here, the motor 24 is provided in the turntable 22 in the cavity 21 in which the food is placed, and the shaft 23 of this turntable 22, and the shaft 23 has the strain gauge 25 at the end thereof. The upper surface of the strain gauge 25 is pressed in connection with the.

In addition, the lower end of the strain gauge 25 forms a weight sensor 27 having a structure that causes a voltage change to the differential transformer 26 when the strain gauge 25 is interlocked up and down.

In addition, the signal detected by the weight sensing unit 27 is provided to the system microcomputer 30 via the amplifier 29 and the interface 29 as shown in FIG. The output control unit 32 is controlled to perform thawing control according to food weight.

At this time, the system micom 30 calculates the voltage difference between the voltage detected from the weight sensor 27 and the initial state without food load, obtains the change voltage value according to the change in weight, and calculates α times the change telephone value obtained. The time is calculated by the time calculation formula that is set in advance according to the weight value thus obtained, and the output control unit 32 is driven to perform the thawing process of the food.

However, in such a prior art, the weight sensing unit 27 by the differential transformer has a structure that causes deformation easily due to an external impact, so that the initial voltage value due to such deformation is often misunderstood by weight, and the differential transformer Since the voltage generated at (26) is a very small amount of voltage, an amplification unit having a relatively large amplification degree should be provided. Accordingly, the system circuit is sensitive to external noise, which causes a high probability of malfunction. It is pointed out.

In addition, in such a prior art, a separate container cannot be used other than a predetermined thawing network, and when the food to be thawed is put in a container and placed on the turntable 22, the system misunderstands the food to be thawed to a container other than the food. Therefore, the situation is actively limiting the use of the container.

The purpose of the present invention is to automatically thaw a microwave oven so that the thawing process can be performed by the correlation between the amount of food in the microwave and the output of the microwave by the antenna means to improve the problems of the prior art as described above. The device is provided.

The present invention particularly detects, filters, and amplifies an antenna sensor attached to a predetermined portion of the refrigerator, and an output amount related to the amount of food in the refrigerator detected by the antenna sensor, and provides the system micom to the system sensor. The automatic thawing apparatus of the structure which recognizes a signal and controls a power control circuit according to the formula of pre-stored cooking data is its characteristic.

Hereinafter, this will be described in more detail with reference to the accompanying drawings.

That is, FIG. 3 shows the role of the system apparatus according to the present invention.

Here, the antenna sensor 11 is disposed together with the sensor hole 21a in the upper predetermined portion of the cavity 21, and the signal detection output of the antenna sensor 11 is passed through the amplifier 12 to the system microcomputer 13. The system microcomputer 13 is provided to drive control the power control circuit 14 that controls the magnetron 4.

In addition, a circuit block diagram of an antenna sensor signal processing circuit (APC) for processing the signal detected from the antenna sensor 11 and providing it to the system microcomputer 13 is shown in FIG.

Here, the amplifier 12 is connected through a detector 11a for detecting the signal detected from the antenna sensor 11 and the first low pass filter 11b, and the output of the amplifier 12 is the second low pass filter 12a. The microcomputer 13 is connected to the AD input terminal of the system microcomputer 13 while the system microcomputer protection circuit 13a is in contact with the output of the second low pass filter 12a and is connected to the system microcomputer 13.

In addition, the antenna sensor signal processing circuit APC of FIG. 4 shows the embodiment as shown in FIG.

In this case, the detector 11a is a resistor (R ₁ -R ₃ ) and a capacitor (C ₃ ) circuit, the amplifier 12 is an operational amplifier (OP) and a resistor (R ₅ -R ₆ ) circuit, and the second low-pass The filter 12a is a resistor (R ₉ ) and a capacitor (C ₄ ) circuit, the microcomputer protection circuit (13a) is a zener diode (ZD), a diode (D ₂ ), a resistor (R ₁₀ ) and a capacitor (C ₅ ) circuit. Can be achieved.

7 shows the power control circuit 14 of the first embodiment more specifically.

Here, a relay RY for controlling the primary side of the high voltage transformer HVT on and off, and a transistor star circuit for driving the relay RY, and the base input of the transistor Q are system microcomputers. It has a configuration that leads to the output port (P _o ) of (13).

The present invention of this configuration has the following effects and effects.

That is, the automatic thawing apparatus according to the present invention measures the electric power of the microwave output in relation to the amount of food in the cavity 21 from the antenna sensor 11 installed through the sensor hole 21a in the cavity 21 side of FIG. Detect.

For example, in the antenna sensor 11, the resistance value RS indicating the absorption degree of the microwave power induced by the antenna sensor 11 as shown in FIG. 8 and the resistance value RL which changes according to the food load in the cavity 21, The microwave power loss value RLS lost to Joule heat on the wall of the cavity 21, the power value IG of the microwave generated in the cavity 21, and the power value IR of the reflected microwaves can be seen. When IG occurs, the amount of power of the microwave absorbed by the RL varies according to the load in the cavity 21, and the power intensity of the microwave absorbed by the antenna sensor 11 also changes.

This change was found to vary in the output amount of the antenna sensor 11 when the types of loads were three types (load 1, load 2, and load 3) as shown in FIG.

Therefore, when the output detected by the antenna sensor 11 is input to the system microcomputer 13 via the amplifier 12, the system microcomputer 13 controls the power control circuit 14 based on the data according to the type of food. The food can be thawed.

For example, when the user puts the food to thaw into the cavity 21 and presses a key to select the type of food, the antenna sensor 11 induces the power of the microwave correlated with the load, which is illustrated in FIGS. 4 and 5. The detector 11a is detected by the diode D ₁ and filtered by the first region filter 11b and then input to the system microcomputer 13 through the amplifier 12 and the second low pass filter 12a.

The microcomputer 13 is a transistor (Q) of the power control circuit 14 as in the third and seventh ceramics through an output port (P _o) to the stored cooking data to the system microcomputer 13 recognizes the input signal When turned on, the relay RY is driven to provide driving power to the magnetron through the high voltage transformer HVT.

In addition, the microcomputer 13 input port of FIG. 5 is provided with a microcomputer protection circuit 13a by zener diode (ZD) or the like, so that the protection function according to the input instability of the system microcomputer 13 can be performed.

The present invention can be achieved by a simple antenna sensor and sensor signal processing circuit of the food thawing control of the microwave oven, and can perform reliable thawing control without causing malfunction of the thawing control means. There is also a beneficial feature that can provide a low system price.

Claims (2)

On one side of the cavity 21, an antenna sensor 11 is installed together with the sensor hole 21a, and microwave power according to the load amount in the oven detected by the antenna sensor 11 is input through the signal processing circuit APC. The system microcomputer 13 and the system microcomputer 13 are connected to an output port _Po , and the electric power control circuit 14 which performs the thawing control drive according to the cooking data output is automatic. Defroster. 2. The signal processing circuit (APC) of claim 1, wherein the signal processing circuit (APC) includes a detector (11a) for detecting a signal detected from the antenna sensor (11) and an amplifier (12) through the first low pass filter (11b) to the detector (11a). ) And the output of the amplifier (12) is connected to the AD input terminal of the system microcomputer (13) through a second low pass filter (12a).