KR100186419B1 - Microwave oven having a defrosting sensor - Google Patents

Abstract

The present invention relates to a microwave oven having a defrosting sensor. Conventionally, characteristics vary depending on the cavity, and even if the mounting position of the sensor is slightly shifted, there is a problem in that the defrosting of the sensor output is severe and accurate thawing cannot be performed. Irrespective of the amount of food is determined only by the output voltage of the sensor, there is a problem that it is vulnerable to the output fluctuation of the magnetron.

Therefore, the present invention uses the standing wave which is the difference between the maximum and minimum points of the radio waves generated by the microwaves oscillating from the magnetron and entering the cavity and the microwaves reflected from the cavity and interfering with each other, regardless of the output of the magnetron. Allows you to determine the amount of.

Description

Microwave oven with thawing sensor

1 is a block diagram of a microwave oven having a microwave (M / W) sensor attached to the center of the conventional cavity upper plate.

2 is an explanatory diagram showing a position where a microwave (M / W) sensor is attached in the microwave oven of the present invention.

3 is a circuit diagram of a microwave (M / W) sensor in FIG.

4 is a waveform diagram of the output voltage of the microwave sensor in FIG.

5 is a position and output waveform diagram of the microwave sensor in FIG.

* Explanation of symbols for main parts of the drawings

1: cavity 2: waveguide

3: magnetron 4, 4a, 4b; Microwave sensor

5: upper plate 6: turntable

7: food 8: strip antenna

9: low pass filter 10: detector

The present invention is to enable the automatic thawing function by determining the amount of sea animals without using a weight sensor when thawing in a microwave oven, in particular the microwave and the cavity entering the cavity from the magnetron regardless of the output power of the magnetron The present invention relates to a microwave oven having a thawing sensor that allows the microwaves reflected from and to return to each other to determine the amount of load using the standing wave ratio formed and to thaw with respect to the determined load.

The configuration of the microwave oven having a microwave (M / W) sensor in the center of the cavity upper plate, as shown in Figure 1, is located in the lower center of the cavity (1) to turn the load ( 6); A magnetron (3) which is a heating source for supplying microwaves (M / W) to the cavity (1) to heat the load; A waveguide (2) for guiding the microwaves supplied from the magnetron (3) to the cavity (1); Attached to the center of the upper plate (5) of the cavity consists of a microwave sensor (5) for detecting the amount of load by detecting the microwaves in the cavity (1).

Referring to the prior art configured in this way in detail as follows.

When the consumer puts food 7 to be thawed on the turntable 6 and then closes the microwave door and presses the thawing switch, the turntable 6 rotates and the magnetron 3 is driven to operate the microwave (M). / W).

The microwave (M / W) generated in the magnetron (3) is guided by the waveguide (2) is transmitted to the food (7) in the cavity (1).

At this time, the microwave (M / W) transmitted through the food 7 is partially absorbed by the food is converted into heat, and part is reflected.

Then, the microwave sensor 4 attached to the center of the upper plate 5 on the upper part of the cavity 1 detects the microwave (M / W) reflected without being absorbed by the food (7) and estimates the amount of food. do.

That is, when the amount of the food 7 is large, the microwave energy is almost absorbed by the food 7 and converted into heat, so that the microwave power induced by the microwave sensor 4 becomes small, and conversely, the amount of the food 7 is increased. If less, the absorption of the microwave is reduced, so that the microwave sensor 4 is relatively large microwave power is induced, so the output voltage of the microwave sensor 4 becomes high.

The output voltage of the microwave sensor 4 is inversely proportional to the amount of food as shown in FIG. 4, and the amount of food is determined using this difference.

Here, as shown in FIG. 3, the microwave sensor 4 circuit includes: a strip antenna 8 which detects microwaves and converts them into voltages corresponding thereto; A low pass filter 9 for filtering the voltage output from the strip antenna 8 to remove unnecessary portions; The detection unit 10 is configured to extract the microwaves from the voltage output through the low pass filter 9 to determine the amount of food, the operation of which is to lower the voltage induced in the strip antenna 8 When the low pass portion of the pass filter 9 is removed to remove the portion that is not needed, the microwave is received by the detector 10.

The thawing time is determined by determining the amount of food according to the amount of microwave (M / W) extracted from the above, and the thawing function is performed for the determined thawing time and then terminated.

However, in the prior art as described above, even if the characteristics vary depending on the cavity and the mounting position of the sensor is slightly misaligned, there is a problem in that the sensor output is severe and the thawing cannot be performed accurately, and regardless of the output of the magnetron, Since the amount of food is determined only by the output voltage, there is a problem in that it is vulnerable to the output variation of the magnetron.

Accordingly, an object of the present invention for solving the above problems is to achieve a standing wave which is the difference between the maximum and minimum points of the radio wave generated by the microwaves oscillating in the magnetron and the microwaves reflected from the cavity and returning from the cavity. The present invention provides a microwave oven having a thawing sensor that can determine the amount of load regardless of the output of the magnetron.

A microwave oven having a thawing sensor for achieving the above object comprises: a turntable (6) positioned at the lower center of the cavity (1) to load the load, as shown in FIG. A magnetron (3) which is a heating source for supplying microwaves (M / W) to the cavity (1) to heat the load; A waveguide (2) for guiding the microwaves supplied from the magnetron (3) to the cavity (1); It consists of predetermined microwave sensors 4a and 4b mounted on the waveguide 2 at intervals of? G / 4.

The operation and effect of the present invention configured as described above will be described with reference to FIGS. 2 and 5.

When the consumer puts food 7 to be thawed on the turntable 6 and then closes the microwave oven door and presses the thawing switch, the turntable 6 is rotated and the magnetron 3 is driven to operate the microwave (M). / W).

The microwave (M / W) generated in the magnetron (3) is guided by the waveguide (2) is transmitted to the food (7) in the cavity (1).

At this time, microwaves oscillating from the magnetron 3 entering the cavity 1 and microwaves reflected from the cavity 1 and returning on the waveguide 2 cause interference with each other, such that standing waves as shown in FIG. Will be formed.

This standing wave repeats the maximum point and the minimum point at intervals of λg / 4, and the difference between the maximum point and the minimum point is the standing wave ratio (VSWR), and this standing wave ratio is correlated to the output of the magnetron (3). Determined by the amount of food without.

In addition, the microwave sensors 4a and 4b are mounted on the waveguide 2 at intervals of λg / 4, and then the difference between the output voltages of the two microwave sensors 4a and 4b is detected to adjust the amount of food. Determine.

Further, in the above, a predetermined number of microwave sensors are mounted at intervals of? G / 4, and the amount of food is determined by detecting a difference in the output voltage of the mounted sensor.

By detecting the standing wave ratio in the same manner as described above, it is possible to constantly detect the amount of food.

As described in detail above, the present invention detects the standing wave ratio determined by the load amount irrespective of the output voltage of the magnetron, so that the load is constantly detected and the thawing time is determined, so that the thawing time is more effective. have.

Claims (2)

A microwave oven comprising a cavity, a magnetron and a waveguide, comprising a microwave sensor mounted on the waveguide, and having a thawing sensor for detecting a load by detecting a difference in the output voltage of the sensor. The microwave oven of claim 1, wherein the microwave sensor is mounted on the waveguide at intervals of n (λg / 4).