KR19990009438U - Microwave Cooling Structure - Google Patents

Abstract

The present invention relates to a cooling structure of a microwave oven, and to provide a cooling structure of a microwave oven that can not only reduce the volume of the microwave oven but also improve the cooling efficiency of the magnetron.

In order to realize the above object, the present invention provides a waveguide (2) fixed to the cavity (51) so that the side surface communicates with the discharge hole (1) of the cavity (51), and the length of the machine room with respect to the waveguide (2). The magnetron 55 installed in the longitudinal direction so as to coincide with the direction, the air guide 4 installed on the upper surface of the magnetron 55 to concentrate the wind and communicate with the vent hole 3, and the magnetron 55 Characterized in that consisting of a cooling fan 56 installed to blow in a state close to the bottom of the.

Description

Microwave Cooling Structure

The present invention relates to a cooling structure of a microwave oven.

In general, a microwave oven uses microwave heating to project microwaves (2450 MHz) onto food (dielectric) to cause molecules of food to vibrate to generate heat in the food itself and to be cooked.

As illustrated in FIGS. 4 and 5, the microwave oven not only forms a heating chamber C therein, but also has a cavity 51 provided with a door 50 at the front thereof, and a side surface of the cavity 51. A magnetron 55 formed at a predetermined width d on the upper surface of the machine chamber 52, an air guide 53 on the side, and a waveguide 54 on the front surface thereof, and the magnetron described above. It consists of the cooling fan 56 provided in the back of 55. As shown in FIG.

Of course, the discharge hole 57 for the high frequency is emitted from the magnetron 55 is formed in the cavity 51, the vent 58 is formed so that the air is blown through the air guide 53.

The microwave oven turns on the power and at the same time the cooling fan 56 is rotated, the wind blown from the cooling fan 56 to cool the magnetron 55.

After cooling the magnetron 55, the wind is blown into the cavity 51 through the air guide 53 installed on the side of the magnetron 55, and mixed with the air inside the cavity 51 Exhausted.

That is, the wind from the cooling fan 56 is blown to the cavity 51 and discharged to the outside along with the food smell and moisture in the cavity 51.

However, if the magnetron is installed with the waveguide positioned between the cavity as described above and the cooling fan is installed on the back of the outer machine room, the length of the magnetron becomes the longitudinal direction of the magnetron. There is a problem that grows over.

That is, as the volume of the machine room becomes larger than necessary, the volume of the entire microwave oven becomes large, which causes inconvenience in packaging and transporting the magnetron.

In addition, by installing the magnetron in the longitudinal direction and by installing a cooling fan on the back of the machine room, the distance between the cooling fan and the magnetron is far away, which causes a problem of low cooling efficiency of the magnetron.

Accordingly, an object of the present invention is to solve the above problems, and to provide a cooling structure of a microwave oven that can not only reduce the volume of the microwave oven but also improve the cooling efficiency of the magnetron.

In order to achieve the above object, the present invention provides a waveguide fixed to the cavity such that the side surface is in communication with the discharge hole of the cavity, and a magnetron installed in the longitudinal direction to match the longitudinal direction of the machine room with respect to the waveguide, and the magnetron described above. It is characterized by consisting of an air guide installed on the upper surface to concentrate the wind and communicating with the ventilation hole, and a cooling fan installed to blow in close proximity to the bottom of the magnetron.

1 is a side view showing a cooling structure of a microwave oven according to the present invention;

Figure 2 is a perspective view of the magnetron and the air guide in Figure 1,

3 is a plan view of FIG.

4 is a perspective view illustrating a state in which an outer panel is removed from a general microwave oven;

Fig. 5 is a plan view of the machine room in Fig. 4;

* Description of the symbols for the main parts of the drawings *

1: emission hole 2: waveguide

3: air vent 4: air guide

5: guide 55: magnetron

56 cooling fan

1, 2, and 3 are side, perspective, and plan views illustrating a cooling structure of the microwave oven according to the present invention, and the waveguide 2 fixed to the cavity 51 to communicate with the side surface with respect to the discharge hole 1. And, the magnetron 55 provided in the longitudinal direction in the waveguide (2), the air guide (4) installed on the upper surface of the magnetron (55) to concentrate the wind and communicate with the vent hole (3), It consists of the cooling fan 56 installed so that air may be blown in the state adjacent to the bottom of the magnetron 55. As shown in FIG.

That is, the distance between the cooling fan 56 and the magnetron 55 is closer to each other, and the magnetron 55 is installed in a shorter width direction than the length, thereby reducing the width d1 of the machine room and improving cooling efficiency. It is to be made.

In particular, the guide 5 is attached to the bottom of the magnetron 55 to guide the wind from the cooling fan 56 to the magnetron 55.

Referring to the effect of the present invention as described above, when the user turns on the power of the microwave oven for cooking, the magnetron 55 is operated and the cooling fan 56 rotates.

When the cooling fan 56 rotates, the wind from the cooling fan 56 is blown in the direction of the magnetron 55, and the wind is concentrated on the magnetron 55 through the guide 5.

When the wind of the cooling fan 56 is concentrated on the magnetron 55, the cooling efficiency of the magnetron 55 is improved. In particular, the distance between the cooling fan 56 and the magnetron 55 is closer than the conventional longitudinal direction. This minimizes the dispersion of the wind, thereby improving the cooling efficiency.

When the wind of the cooling fan 56 passes through the magnetron 55, the air is guided into the cavity 51 through the air guide 4, mixed with the air in the cavity 51, and discharged to the outside.

That is, by operating the cooling fan 56 at a close distance to the magnetron 55 to improve the cooling efficiency, the length of the magnetron 55 and the length of the machine room in the same position by the length of the magnetron 55 It is possible to reduce the width of the machine room.

In addition, since the magnetron 55, the cooling fan 56, and the air guide 4 are positioned in a straight line, a fixed space of components such as a high pressure transformer and a high pressure capacitor is increased.

As described above, the present invention has the advantage of reducing the width of the machine room by installing the magnetron in the width direction and improving the cooling efficiency by bringing the distance between the magnetron and the cooling fan closer.

Claims (2)

A waveguide fixed to the cavity so that the side surface communicates with the discharge hole of the cavity, and a magnetron installed in the longitudinal direction to match the longitudinal direction of the machine room with respect to the waveguide, and installed on the upper surface of the magnetron to concentrate wind and vent And a cooling fan connected to the air guide, and a cooling fan installed to blow in a state close to the bottom surface of the magnetron. The cooling structure of a microwave oven according to claim 1, further comprising guides provided on both sides of the bottom of the magnetron to induce wind in the magnetron direction.