KR200147429Y1 - Rear plate structure - Google Patents

Abstract

The present invention relates to a thick plate structure of a microwave oven, and in the related art, the air is not circulated in the space where the condenser is installed and the phenomenon occurs because the temperature rises. In the present invention, the cooling fan 40 is installed. In forming the intake hole 112 in the rear plate 110, the intake hole 112 is formed in the same direction as the direction in which the cooling fan 40 is rotated, and the guide piece inclined outside the intake hole 112 ( 114) is formed by bending, and it is a very useful design that can reduce the cost and at the same time prevent the noise caused by the fan.

Description

Thick plate structure of microwave oven

1 is a side view showing a conventional thick plate structure.

Figure 2 is a rear view showing the thick plate structure of the present invention.

3 is a cross-sectional view taken along line A-A 'of the present invention.

* Explanation of symbols for main parts of the drawings

110: thick plate 112: intake hole

114: guide

The present invention relates to a thick plate structure of a microwave oven, and more particularly, by forming the intake hole formed in the thick plate in a tornado shape to effectively cool the magnetron, the high-pressure transformer, the condenser, etc., thereby reducing the cost and cooling fan. It relates to a design that can reduce the noise caused by.

In general, a microwave oven is divided into a cooking chamber and an electric equipment room. In the electric equipment room, a high voltage transformer is installed to operate the magnetron. When the magnetron is operated by the high voltage transformer, a high frequency is generated. The high frequency is then irradiated into the cooking chamber through the waveguide is configured so that food can be cooked.

In the high voltage transformer and the magnetron, considerable heat is generated, and a cooling fan is installed at the rear of the electric compartment to cool it. The wind generated by the rotation of the cooling fan installed as described above cools the heat generated from the high-pressure transformer and exits the cooking chamber through the duct.

However, conventionally, a plurality of intake holes 12 formed vertically and horizontally at regular intervals are formed on the rear plate 10 on which the cooling fan 40 is installed. Accordingly, as the cooling fan 40 is rotated, air is introduced into the intake hole 12, which has the following problems.

In other words, when the cooling fan installed in the rear plate of the electrical equipment room is rotated, the air generated through the intake hole formed in the rear plate cools the heat generated by the magnetron, the high-pressure transformer, and the condenser. However, the wind cannot reach the condenser installed in the corner of the battlefield floor. That is, there is a problem that the temperature rises because the phenomenon that the air can not be circulated in the space in which the condenser is installed occurs.

Accordingly, in order to prevent the air congestion, the core size of the high voltage transformer was increased or the rotation radius of the fan motor was increased. However, these methods also take up a lot of space and are expensive, and there are drawbacks such as noise generated by the fan motor.

Therefore, the present invention is to solve the above problems, the object of the present invention is to allow the air to flow smoothly in the electrical compartment of the microwave oven, the circulation can effectively cool the magnetron, high-voltage transformer, condenser, etc. It is to provide a thick plate structure of the microwave oven.

In order to achieve the object of the present invention to form an intake hole in the same direction as the cooling fan is rotated, it is achieved by bending the inclined guide piece on the outside of the intake hole.

Hereinafter, with reference to the accompanying drawings a preferred embodiment according to the thick plate structure of the inventive design as follows.

That is, as shown in FIGS. 1 and 2, in the inlet hole 12 formed in the rear plate 10 in which the cooling fan 40 is installed, the cooling fan 40 is rotated in the same direction as that in which the cooling fan 40 is rotated. The intake hole 112 is formed, and the inclined guide piece l14 is bent to the outside of the intake hole 112, and reference numeral 20 in the drawing is a magnetron installed on the side wall of the battlefield room, Reference numeral 50 denotes a high voltage transformer installed at the lower portion of the magnetron 20, and reference numeral 30 denotes a capacitor installed at the rear of the electric room.

The present invention formed as described above forms the intake hole 12 in the same direction as the direction in which the cooling fan 40 is rotated, and the guide piece 114 is bent in a lateral direction to the outside of the intake hole 112 to cool the above. It is configured to facilitate the inflow of air during the rotation of the fan 40.

Therefore, in order to effectively cool the heat of the magnetron 20, the high voltage transformer 50, the condenser 30 and the like, the structure of the rear plate 10 is changed so that the air flows smoothly.

First, air is introduced into the intake hole 12 formed on one side of the conventional thick plate 10 according to the rotation of the cooling fan 40. In this way, the air is generated by the rotation of the cooling fan 40 to cool the heat generated during the operation of the magnetron 20, the high-voltage transformer 50, the condenser 30 and the like. However, since the air is introduced only into the intake hole 12, the condenser 30 is installed under the fan guide of the cooling fan 40, and the air is allowed to enter the intake hole 12. A phenomenon occurs that occurs when the temperature of the portion rises.

Accordingly, in order to prevent such air congestion, the manufacturing cost is increased because the core size of the high pressure transformer 50 must be increased or the rotation radius of the cooling fan 40 must be increased.

Therefore, in the present invention, the intake hole 112 formed in the rear plate 110 is formed in the same direction as the direction in which the cooling fan 40 rotates. Then, the inclined guide piece 114 is bent to the outside of the intake hole 112. After forming in this way, it is easy for the air from the rotation of the cooling fan 40 to flow into the electric compartment.

The reason is that the intake hole 112 is formed in the same direction as the rotational direction of the cooling fan 40 around the axis of the cooling fan 40, so that when the air flows into the intake hole 112, the rotation direction thereof The air can be easily introduced along.

In addition, when the air is introduced into the intake hole (l12), the intake hole 112 is formed in a toroidal shape, and thus the inflowing air also causes a tornado phenomenon so that it can be easily introduced into the battlefield room than before. In addition, since the guide piece 114 is formed to be inclined to the outside, the inflow of air into the intake hole l12 has an effect of more smoothly flowing due to the guide piece 114.

When the air is effectively introduced into the electrical compartment like this, since the components that generate a lot of heat in the electrical compartment, that is, the magnetron 20, the high voltage transformer 50, the condenser 30, etc., can be cooled more efficiently. The parts are excellent in cooling effect by the cooling fan 40, the parts are normally operated so that the microwave oven operates smoothly.

In addition, when air is easily introduced into the electrical equipment room as described above, it is possible to reduce the core size of the cooling fan 40, thereby reducing the noise generated by the rotation of the cooling fan 40.

As described in detail above, according to the rear plate structure of the inventive microwave oven, the thick plate formed on the rear plate of the microwave oven is formed in a tornado shape so that air can be smoothly introduced and circulated in the electric compartment of the microwave oven. Magnetron, high voltage transformer, condenser, etc. can be effectively cooled, so it is a very useful design that can prevent noise by fan at the same time to reduce the cost.

Claims (1)

In forming the intake hole 112 in the rear plate 110 in which the cooling fan 40 is installed, the intake hole 112 is formed in the same direction as the direction in which the cooling fan 40 is rotated. The thick plate structure of the microwave oven, characterized in that the bent guide piece (l14) formed on the outside of the bent.