KR20000012593U - Air circulation structure of microwave oven - Google Patents

Abstract

The present invention relates to an air flow structure of a microwave oven. The present invention improves the air flow inside the microwave oven, in particular inside the cooking chamber (2). In the present invention, two paths for sucking air into the cooking chamber 2 inside the cavity 1 are configured. That is, the first intake port 1S is formed to cool the magnetron 7 and suck the air guided to the air duct 9 into the cooking chamber 2, and in front of the cooking chamber 2 in the electric compartment 3 again. In other words, the second intake port 1S 'which sucks air to the door 4 side was formed. In order to discharge the air circulated in the cooking chamber 2 to the outside, first and second exhaust ports 1E and 1E 'are formed on the opposite side where the first and second intake ports 1S and 1S' are formed. On the other hand, the second exhaust port (1E ') is to exhaust the air by using the suction force of the separate vent fan (10).

Description

Air circulation structure of microwave oven

The present invention relates to a microwave oven, and more particularly, to an air flow structure of a microwave oven that sucks and flows outside air into the microwave oven during cooking and discharges it to the outside.

1 shows an air flow structure of a microwave oven according to the prior art.

According to this, conventionally, during operation of the microwave oven, while the fan 8 is driven, external air is sucked into the electric compartment 3 from the rear of the microwave oven. Some of the air sucked in this way is transferred to the controller unit 5 inside the electric chamber 2 to cool the components installed therein.

In addition, some of the outside air primarily cools the magnetron 7 that oscillates electromagnetic waves and transmits them to the waveguide 6 so that cooking is performed in the cooking chamber 2. The air guided to the air duct 9 through the magnetron 7 is sucked into the cooking chamber 2 through the inlet 1S. The air sucked into the cooking chamber 2 is circulated inside the cooking chamber 2 and transferred to the outside of the cooking chamber 2 through the exhaust port 1E formed at the side wall of the cavity 1 opposite to the inlet 1S. do. In addition, 10 is a vent motor.

As such, the air flow that is sucked from the outside of the microwave oven and flows through the inside of the microwave oven cools the electrical equipment installed in the electric compartment 3 and discharges the smell and water vapor inside the cooking compartment 2 to the outside. Will be

However, the air flow structure of the conventional microwave oven as described above, the outside air sucked into the cooking chamber (2) through the inlet (1S) is discharged directly through the exhaust port (1E), in particular the door (4) ) Will not be cooled properly.

Therefore, when the door 4 becomes hot and water vapor is formed therein, the inside of the cooking chamber 2 cannot be observed during cooking, and the door 4 may be damaged by the high temperature.

Accordingly, it is an object of the present invention to solve the problems of the prior art as described above, and to provide an air flow structure of a microwave oven for more smoothly cooling the door part of the microwave oven.

1 is a conceptual diagram showing an air circulation structure of a microwave oven according to the prior art.

Figure 2 is a conceptual diagram showing a preferred embodiment of the air circulation structure of the microwave oven according to the present invention.

3 is a conceptual view showing the air circulation structure of the microwave oven according to the present invention.

Explanation of symbols on the main parts of the drawings

1: cavity 1S: first intake

1S ': second intake port 1E: first exhaust port

1E ': 2nd exhaust vent 2: Cooking chamber

3: battlefield room 4: door

5: controller part 6: waveguide

7: magnetron 8: fan

9: air duct 10: vent pan

According to a feature of the present invention for achieving the object as described above, the present invention is a suction fan for sucking the outside air, and the first suction for sucking the air sucked by the suction fan to cool the magnetron into the cooking chamber And a second suction part formed near the door of the cooking chamber to suck air sucked by the suction fan toward the door side inside the cooking chamber, a first exhaust part for exhausting the air inside the cooking chamber to the outside, and the cooking chamber It is configured to include a second exhaust unit for exhausting the internal air to the outside using a separate vent fan.

According to the air flow structure of the microwave oven according to the present invention having such a configuration, the outside air flows in front of the inside of the cooking chamber, that is, near the door, so that the cooling and water vapor removal on the door side is smooth, and thus the performance of the microwave oven is improved. There is an advantage to be improved.

Hereinafter, a preferred embodiment of the air flow structure of the microwave oven according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings. The same thing as the prior art will be described with the same reference numerals.

2 and 3, the cooking chamber 2 in which the cooking is performed is formed in the cavity 1 of the microwave oven, and the electrical equipment for the operation of the microwave oven is installed beside the cooking chamber 2. The electric chamber 3 is formed.

At the rear of the electric compartment 3, a fan 8 for sucking outside air is installed to circulate the inside of the microwave oven to cool and remove water vapor. The cavity 1 is provided with portions for guiding the outside air sucked into the electric chamber 3 to the cooking chamber 2, respectively. First, one side wall of the cavity 1 includes a first inlet 1S for guiding air cooled in the magnetron 7 for oscillating electromagnetic waves used for cooking in the cooking chamber 2 into the cooking chamber 2. Perforated at An air duct 9 for guiding air to the first intake port 1S is provided next to the magnetron 7 of the electric compartment 3.

In addition, a second intake port 1S 'for guiding the outside air to the front of the cooking chamber 2, that is, the door 4, is shown at the lower end of one wall of the cavity 1, as shown in FIG. 3. Perforated The second intake port 1S 'guides air intensively to the door 4 to remove water vapor inside the door 4 and to cool the door 4.

On the other hand, the structure which exhausts the air circulated inside the cooking chamber 2 to the outside is demonstrated. In order to exhaust the air sucked into the cooking chamber 2 through the first and second inlets 1S and 1S 'to the outside of the cooking chamber 2, first, the first exhaust port is adjacent to the door 4 side. 1E is formed on the side wall of the opposite cavity in which the first and second inlets 1S and 1S 'are formed.

In addition, at the rear end side of the cooking chamber 2, a second exhaust port 1E ′ for transmitting air circulated inside the cooking chamber 2 to the outside by the suction force of the vent pan 10 is provided with the first and second intake ports ( 1S, 1S ') are formed on the opposite cavity sidewalls formed.

The operation of the air flow structure of the microwave oven according to the present invention having such a configuration will be described in detail below.

First, it will be described that the air flow in the microwave oven by the air flow structure. When the food is put into the cooking chamber 2 and cooking starts, the magnetron 7 is operated to generate electromagnetic waves, and the electromagnetic waves are guided by the waveguide 6 and transferred into the cooking chamber 2 to supply the food. To heat

With this operation, the fan 8 rotates and sucks outside air into the electric compartment 3 through the rear of the electric compartment 3 of the microwave oven. Some of the outside air sucked into the electric chamber 3 is guided to the magnetron 7 to cool the magnetron 7 while passing through the magnetron 7. Then, the air duct 9 is guided. The outside air guided to the air duct 9 flows into the cooking chamber 2 through the first intake port 1S.

On the other hand, the rest of the air sucked into the electrical equipment compartment 3 by the fan 8 cools the electrical equipment inside the electrical equipment compartment 3. Then, the front of the electric compartment 3 is guided to cool the controller unit 5 as well. In addition, some of the outside air guided toward the controller unit 5 is guided into the cooking chamber 2 through the second intake port 1S '.

As described above, the air guided into the cooking chamber 2 through the first and second inlets 1S and 1S 'circulates inside the cooking chamber 2 and passes through the first and second exhaust ports 1E and 1E', respectively. It is delivered to the outside. In this case, the suction force of the vent pan 10 acts on the second exhaust port 1E 'to create a stronger air flow in the cooking chamber 2.

At this time, the air sucked through the second inlet 1S 'passes, in particular, through the inside of the door 4. When the outside air passes through the door 4 as described above, the water vapor near the door 4 is absorbed and the door 4 is cooled.

The air flow structure of the microwave oven according to the present invention as described in detail above forms a separate air flow along the inner side of the door, and uses a vent fan to more strongly discharge the air circulated inside the cooking chamber to the outside. According to the present invention, the air flow inside the microwave is smooth, and in particular, moisture is prevented from forming inside the door, making it easy to observe the inside of the cooking chamber during cooking, and the door is always cooled properly so that the heat resistance design of the door There is an effect that can be made easier.

Claims (1)

A suction fan that sucks outside air, A first suction part for sucking air sucked by the suction fan and cooling the magnetron into the cooking chamber; A second suction unit formed near the door of the cooking chamber to suck air sucked by the suction fan to the door side of the cooking chamber; A first exhaust unit for exhausting the air inside the cooking chamber to the outside; The air flow structure of the microwave oven, characterized in that it comprises a second exhaust unit for exhausting the air inside the cooking chamber to the outside using a separate vent pan.