KR19980053343A - Microwave uniform heating device - Google Patents

Abstract

The present invention relates to a microwave oven that uniformly heats food so that food is cooked in an optimal state when cooking food. In the conventional microwave oven, a feeding hole 6 for fixing impedance of electromagnetic waves is fixed, When heating (1), the load in the heating chamber (2) always changes depending on the type and condition of the food (1), but the shape of the feeding hole (6) for the impedance matching is fixed, so that the load is active. Since impedance matching is impossible, the electromagnetic waves generated in the magnetron 4 are not transmitted smoothly in the heating chamber 2, which causes a problem that the heating state and the efficiency of the food 1 are lowered.

The present invention is to detect the load state inside the heating chamber when heating the food in order to solve such a conventional problem, by changing the shape of the feeding hole for impedance matching in accordance with the detected load state to optimize the load state in the heating chamber The food is cooked in an optimal state according to the type of food and the state of the food so that it is maintained in a state that is applied to the microwave oven.

Description

Uniform heating device of microwave oven

The present invention relates to a microwave oven, and in particular, the food is uniformly heated by changing the shape of the feeding hole so that the impedance matching of the electromagnetic waves transmitted to the heating chamber when cooking the food.

1 and 2, a conventional microwave oven includes a heating chamber 2 for heating and cooking food 1 and a turntable 3 installed in the heating chamber 2 to rotate food for cooking. And a magnetron 4 which is placed on the turntable 3 to generate electromagnetic waves so that the rotating food 1 is heated, and a waveguide 5 which guides the electromagnetic waves generated in the magnetron 4 to be transmitted to the heating chamber 2. And a feeding hole 6 formed at the end of the waveguide 5 for transmitting the impedance of the electromagnetic wave guided by the waveguide 5 to the heating chamber 2 so that the impedance of the waveguide 5 is matched. It is composed of a motor (7) for driving the turntable (3) mounted.

In the conventional microwave oven configured as described above, as illustrated in FIGS. 1 and 2, the user places the food 1 on the turntable 3 of the microwave to cook the food 1, and then uses the function key of the microwave. When operating, the turntable 3 on which the food 1 is placed rotates by the driving force of the motor 7, and electromagnetic waves are generated to heat the food 1 in the magnetron 4 according to the input function key operation. .

As such, when the electromagnetic wave is generated in the magnetron 4 for heating the food 1, the waveguide is guided to the heating chamber 2 by the waveguide 5 so that the generated electromagnetic wave is transmitted to the heating chamber 2. At the end of (5), the feeding hole 6 is formed as shown in (a) or (b) of FIG. 3 to match the impedance so that the electromagnetic waves transmitted to the heating chamber 2 are evenly distributed. The electromagnetic wave generated in the impedance is matched by the feeding hole 6 formed at the end of the waveguide 5 and transmitted to the entire inside of the heating chamber 2, so that the food 1 is uniformly heated.

However, in the conventional microwave oven, the feeding hole 6 for matching the impedance of the electromagnetic wave is fixed, so that when the food 1 is heated, the load in the heating chamber 2 always depends on the type and condition of the food 1. However, since the shape of the feeding hole 6 for impedance matching is fixed, it is impossible to actively match impedance to the changing load, so that electromagnetic waves generated in the magnetron 4 cannot be transmitted smoothly in the heating chamber 2. There was a problem that the heating state and efficiency of the food (1) is lowered.

The present invention is to detect the load state inside the heating chamber when heating the food in order to solve such a conventional problem, and to change the shape of the feeding hole for impedance matching according to the detected load state to optimize the load state in the heating chamber When the food is cooked in an optimal state according to the type of food and the state of the food to be maintained as described, the configuration and effect of the present invention by the accompanying drawings as follows.

1 is a plan view showing the structure of a conventional microwave oven.

Figure 2 is a side cross-sectional view showing a structure of a conventional microwave oven.

Figure 3 (a) (b) is a detailed view showing the structure of the feeding hole of the conventional microwave oven.

Figure 4 is a cross-sectional view showing the structure of a microwave oven provided with a uniform heating device of the present invention.

Figure 5 (a) (b) is a detailed view showing a change state of the feeding hole by the uniform heating device of the microwave oven of the present invention.

First, as shown in FIG. 4, the uniform heating device of the present invention includes a heating chamber 2 for heating and cooking food 1 and rotating the food to be cooked in the heating chamber 2. The magnetron 4 which generates electromagnetic waves so that the turntable 3 and the food 1 rotating on the turntable 3 is heated, and guides the electromagnetic waves generated in the magnetron 4 to be transmitted to the heating chamber 2. A feeding hole 6 formed at the end of the waveguide 5 and the waveguide 5 for transmitting the waveguide 5 to the heating chamber 2 so that the impedance of the electromagnetic wave guided by the waveguide 5 is matched, and the food and beverage In a microwave oven comprising a motor (7) for driving a turntable (3) on which (1) is mounted to rotate,

The fan 8 and the fan 8 are installed so that the shape of the feeding hole 6 is changed so that the impedance matching of the electromagnetic wave guided by the waveguide 5 is accurately made according to the type and condition of the food 1. A fan motor 9 which is driven to rotate, a fan position sensor 10 which detects a position of the fan 8 which is rotated by the fan motor 9, and a bracket for fixing and supporting the fan motor 9. (11), electromagnetic wave sensors 12 (12A) provided in the lower left and right sides of the heating chamber (2), and the electromagnetic wave sensors (12) (12A) to sense the distribution of electromagnetic waves transmitted in the heating chamber (2). The control unit 13 drives the fan motor 9 to control the respective parts of the microwave oven so that the fan 8 is rotated according to the detected electromagnetic wave distribution.

As illustrated in FIG. 4, the user operates the function keys of the microwave after placing the food 1 on the turntable 3 of the microwave oven to cook the food 1 as shown in FIG. 4. When the turntable 3 on which the food 1 is placed rotates by the driving force of the motor 7, electromagnetic waves are generated in the magnetron 4 to heat the food 1 according to the input function key operation.

As such, when electromagnetic waves are generated in the magnetron 4 for heating the food 1, the electromagnetic waves are guided to the heating chamber 2 by the waveguide 5, and the feeding hole 6 formed at the end of the heating chamber 2 is provided. Through the electromagnetic wave is transmitted to the inside of the heating chamber (2).

Therefore, the electromagnetic waves transmitted to the heating chamber 2 are each electromagnetic sensor 12 (below) of the heating chamber 2 so that the impedance matching is precisely performed according to the type, state, and size of the food 1 to be heated. 12A) is installed to sense the distribution of electromagnetic waves transmitted to the inside of the heating chamber 2 by the electromagnetic sensor 12 (12A).

At this time, the control unit 13 connected to the electromagnetic sensor 12 (12A) receives the electromagnetic wave distribution detected by the electromagnetic wave sensor 12 and the electromagnetic wave distribution detected by the other electromagnetic sensor 12A and compares them with the comparison value. Using the difference, the controller 13 drives the fan motor 9.

As such, when the fan motor 9 is driven by the control of the controller 13, the fan 8 connected to the fan motor 9 is installed in the feeding hole 6 formed at the end of the waveguide 5. When the fan 8 is rotated to deform the shape of the feeding hole 6 by the driving force of the motor 9 as shown in (a) of FIG. 5, and the fan position sensor is rotated when the fan 8 is rotated. 10 senses the position of the rotated fan 8, the electromagnetic wave guided by the waveguide 5 is uniformly matched with the impedance according to the type, condition, size of the food (1) food (1) Will be heated.

As described above, when the food is cooked, the electromagnetic wave distribution in the heating chamber is sensed, and the shape of the feeding hole is modified so that the impedance is matched according to the type, size, and state of the food according to the residual wave distribution. By cooking, the reliability of the product is improved.

Claims (2)

In a microwave oven that heats food by using electromagnetic waves generated from the magnetron, Sensing means for sensing the electromagnetic wave distribution in the heating chamber (2) during food heating, and controls so that the fan (8) installed in the feeding hole (6) to rotate so that the impedance is matched according to the value detected by the sensing means The control unit 13 and the fan 8 is installed in the feeding hole 6 so that the impedance matching is made by the control signal of the control unit 13 is rotated to deform the shape of the feeding hole 6, characterized in that Microwave uniform heating device. The method according to claim 1, further comprising a plurality of electromagnetic wave sensors 12 (12A) as sensing means to more accurately analyze the electromagnetic wave distribution in the heating chamber (2) and to detect that the shape of the feeding hole (6) is deformed. Uniform heating device of a microwave oven, characterized in that the fan position sensor 10 for detecting the position of the rotating fan (8) is included.