KR100796366B1 - Cavity assembly for microwave oven - Google Patents

Abstract

The present invention relates to a cavity assembly of a microwave oven. According to the present invention, the heating chamber 110 is opened and closed by a door, and the electrical chamber 120 is formed by one side 114 of the heating chamber, the electrical chamber is a magnetron for generating a microwave and In the cavity assembly of the microwave oven having a high-pressure transformer for supplying a high pressure to the magnetron, and a blower fan assembly for generating an air flow from the rear to the front to cool the magnetron and the high-pressure transformer; An air duct 150 having an inlet 156 opened rearward to guide the air flow in the blower fan assembly to the inlet portion 114a constituted by a plurality of holes in the one side surface 114. Forming integrally with the upper surface 112 of the cavity assembly.

Microwave, Cavity Assembly, Air Duct, Fan, Electrical Room

Description

Cavity assembly for microwave oven

1 is an exploded perspective view illustrating a configuration of a conventional microwave oven.

Figure 2 is a perspective view showing the configuration of the microwave oven of the present invention.

Explanation of symbols on the main parts of the drawings

100 ..... Cavity assembly 110 ..... Heating chamber

112 ..... top of heating chamber 114 ..... side

114a ..... Inlet 120 ..... Battlefield

122 ..... Backplate 130 ..... Outer Casing

150 ..... Air duct 152 ..... Top

154 ..... Side section 156 ..... Entrance

158 ..... Bottom

The present invention relates to a microwave oven, and more particularly, to a cavity assembly of a microwave oven configured to more easily configure the air duct for introducing the air flow generated in the electrical equipment room into the heating chamber.

First, with reference to Figure 1 will be described in detail with respect to the general microwave oven. As shown, the cavity assembly 10 of the microwave oven is equipped with the heating chamber 12 and the electrical chamber 20 formed in the heating chamber side surface. The opened front surface of the heating chamber 12 is configured to be opened and closed by a door (not shown) for construction so that the microwaves supplied into the heating chamber do not leak. In addition, an outer casing (not shown) is installed at an outer side of the cavity assembly 10 so as to be covered from the upper side to the lower side, thereby shielding the electric room 20 from the outside.

The heating chamber 12 is a space for supplying microwaves generated from the components of the electrical equipment chamber 20 to heat food. The electric field chamber 20 includes a magnetron 22 that oscillates microwaves, a high voltage transformer 24 for applying a high pressure to the magnetron, and a heat radiator for radiating the magnetron 22 and the high voltage transformer 24. A blowing fan assembly 26 and the like are provided. The blower fan assembly 26 is composed of a fan 26a that generates airflow by rotation substantially, and a fan guide 26b that rotatably supports the fan. In addition, a porous portion 28a is formed in the back plate 28 that forms the rear surface of the electric compartment 20 so that outside air is introduced into the electric compartment 20 by the operation of the fan 26a. do.

The magnetron 22 is fixed to the side of the electric chamber 20 using a screw or the like, and the high voltage transformer 24 is fixed to the upper surface of the base plate 21. The surface shown by 23 is the surface which forms one side surface of the electric chamber 20, and forms one side surface of the heating chamber 12. As shown in FIG.

A plurality of inflow holes 23a are formed in one side 23 of the heating chamber 12 in contact with the electric field chamber 20, and a duct 25 is provided at an outer portion of the inflow hole 23a. have. Next, the overall operation of the microwave oven will be described.

When the microwave oven starts to be driven, the magnetron 22 and the high voltage transformer 24 for generating microwaves are driven, and thus heating is performed while microwaves are supplied into the heating chamber 12. In addition, the blower fan assembly 26 is also driven to generate an airflow toward the front of the electric compartment 20.

The airflow moves forward to dissipate the magnetron 22 and the high voltage transformer 24. Part of the airflow is guided by the duct 25 and flows into the heating chamber 12 through the inlet hole 23a.

The air introduced into the heating chamber is exhausted from the heating chamber through a plurality of exhaust holes 12a on the opposite side of the heating chamber 12, such as water vapor and smoke generated from food during heating.

According to the conventional microwave oven having such a configuration, the duct 25 is made of a separate member such as an iron plate, and then attached to the cavity assembly 10. For example, one side of the duct 25 may be fixed to the upper surface 10a of the cavity assembly 10 by a screw, and the other side of the duct 25 may be fixed to the upper surface of the magnetron 22 by using a screw. .

In order to guide the air into the heating chamber 12 as described above, separately making the duct 25 and fixing it to the cavity assembly 10 becomes substantially complicated in the manufacturing process. That is, the process of manufacturing a separate duct 25 is required and at the same time an increase in the number of parts by the duct 25 itself and a mechanical element for fixing the duct 25 to the cavity assembly 10 are necessary. Will be. Therefore, according to the conventional structure as described above, it can be seen that there are disadvantages such as an increase in the number of parts and complicated assembly process.

SUMMARY OF THE INVENTION The present invention has been made to solve the above disadvantages, and an object of the present invention is to provide a cavity assembly which is simpler and can easily guide an air flow in an electric chamber.

According to the present invention for achieving the above object, it comprises a heating chamber which is opened and closed by a door, the electrical compartment is divided by one side of the heating chamber, the electrical compartment is a magnetron for generating a microwave and the high pressure to the magnetron In the cavity assembly of the microwave oven having a high-pressure transformer for supplying the air blower fan assembly for cooling the magnetron and the high-pressure transformer by generating an air flow from the rear to the front; And an air duct having a rear open inlet to integrally form an air duct in the blower fan assembly to an inlet formed by a plurality of holes on one side thereof with an upper surface of the cavity assembly. do.

According to the embodiment of the present invention, the inlet of the air duct is provided adjacent to the front side of the magnetron.                     

In addition, according to the embodiment of the air duct, the upper surface portion continuous from the upper surface and the side portion which extends downward from the upper surface portion and inclined with respect to the front and rear direction to have a rear inlet.

In another embodiment, the air duct further includes a bottom portion extending from the side portion to the side portion.

According to the present invention as described above, the effect of being able to expect the advantage that the number of parts as a whole decreases and the assembly process becomes simpler.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings. 2, the cavity assembly 100 according to the present invention is shown. As shown in the drawing, the cavity assembly 100 according to the present invention includes a heating chamber 11 and a space for forming the electrical component chamber 120 on an adjacent side surface of the heating chamber 11. have.

The cavity assembly 100 is covered by the outer casing 130. The outer casing 130 having a lower surface opening substantially forms an upper surface and both side surfaces of the microwave oven. In the interior of the electrical compartment 120, a magnetron for generating a microwave portion, a high voltage transformer and a high voltage capacitor for applying high pressure to the magnetron, and a blower fan assembly for dissipating these parts are installed in the same manner as in the related art. However, for convenience of illustration, the illustration of these parts is omitted.

According to the present invention, the air duct 150 for guiding a part of the air flow generated in the blower fan assembly installed at the rear of the electrical equipment chamber into the heating chamber 110 is integrally formed with the cavity assembly 100. Have.

The air duct 150 is integrally formed with the upper surface 112 of the cavity assembly 100, and substantially extends a part of the upper surface 112 of the cavity assembly 100, and has an air duct shape. It is a part formed by bending it.

The air duct 150 includes an upper surface portion 152 that is continuous with the upper surface 112 of the cavity assembly 100, and a side portion 154 that is bent downward from the upper surface portion 152. The side portion 154 is formed to have a predetermined inclined surface in order to shape the shape of the air duct 150, and is configured so that air can be easily introduced through the opening inlet 156 formed at the rear.

The bottom portion 158 may be formed by bending the lower end portion of the side portion 154 of the air duct 150. The air duct 150 of the present invention is formed by bending the upper surface 112 of the cavity assembly 100 substantially. In this case, the air duct 150 according to the present invention is cut when the upper surface 112 is cut. Of course it will be necessary to cut the iron plate to form a.

Air duct 150 according to the present invention can be any configuration as long as it can be configured to guide a part of the air blown forward from the rear of the electrical equipment room 120 into the electrical equipment room through the inlet portion (114a). Of course, within the scope of such a configuration, various shapes of deformations will be possible.

For example, by simply molding to have only the upper surface portion 152 and the side portion 154, it is also possible to simply configure to guide a portion of the air flow formed in the electric chamber 120 in the front to the inside of the cavity, Indeed, many modifications may be made to the shape of the air duct 150.

The side surface 114 on which the air duct 150 is formed substantially forms one side surface of the heating chamber 110, and a plurality of holes are formed in the side surface 114 corresponding to the inside of the air duct 150. The inflow part 114a is shape | molded.

Although not shown, a magnetron for generating microwaves may be installed at a side surface 114 adjacent to the inlet 156 of the air duct 150. In addition, an air suction part 124 is formed in the back plate 122 that forms the rear surface of the electrical equipment room 120. In addition, the back plate 122 is provided with a blowing fan assembly (not shown), the outside air can be introduced into the interior of the electrical equipment room 120 through the air suction unit 124 due to the operation.

Therefore, when the microwave oven equipped with the air duct 150 of the present invention is operated, the air flow toward the front from the rear in the interior of the electrical equipment room 120 by the blowing fan assembly installed on the back plate 122 Is formed.

A part of this airflow can be guided to the inside of the heating chamber 110 via the inlet 114a by the air duct 150 of the present invention. The air guided into the heating chamber 110 through the inlet portion 114a is exhausted to the outside through an exhaust portion (not shown) formed on an opposite side of the heating chamber, and exhausts water vapor generated during heating. It becomes possible.

As described above, according to the present invention, it can be seen that the air duct 150 formed integrally with the upper surface 112 of the cavity assembly 100 is a technical subject matter. Within the scope of the basic technical idea of the present invention, many other modifications will be possible to those skilled in the art. For example, many other modifications may be made to the shape of the air duct 150 itself within the technical spirit of being integrally formed with the upper surface 112.

According to the present invention as described above, the air duct 150 is provided integrally with the upper surface 112 of the cavity assembly 100, which is provided on one side 114 of the heating chamber for dividing the electrical equipment chamber 120. It can be seen. Therefore, the following effects can be expected as compared to the conventional one made of a separate component and attached to the side 114 separately.

First, the advantage of reducing the number of parts can be considered. That is, according to the present invention, by implementing the air duct 150 integrated with the cavity assembly 100, it is possible to expect the effect of reducing the overall number of parts of the microwave oven.

And the effect of simplifying the assembly process can be expected. That is, in the present invention, since the separate air duct does not have to be attached to the cavity assembly, the number of steps is reduced as a whole. It is also expected to eliminate the need for fasteners for fastening the air duct to the cavity assembly.

Claims (4)

The heating chamber 110 is opened and closed by a door, and the electrical chamber 120 is formed by one side 114 of the heating chamber. The electrical chamber has a high pressure to the magnetron and the magnetron to generate a microwave. A cavity assembly of a microwave oven having a high pressure transformer for supplying and a blower fan assembly for generating an airflow from the rear to the front to cool the magnetron and the high pressure transformer; An air duct 150 having an inlet 156 opened rearward to guide the air flow in the blower fan assembly to the inlet portion 114a constituted by a plurality of holes in the one side surface 114. The cavity assembly of the microwave oven, wherein the cavity assembly is formed integrally with the upper surface (112) of the cavity assembly. The cavity assembly of claim 1, wherein the inlet (156) of the air duct (150) is provided adjacent to the front side of the magnetron. The air duct of claim 1, wherein the air duct comprises: An upper surface portion 152 continuous from the upper surface 112, Cavity assembly of the microwave oven, characterized in that it comprises a side portion 154 extending downward from the upper surface portion and having an inclination with respect to the front-rear direction to have a rear entrance. The cavity assembly of claim 3, wherein the air duct further comprises a bottom portion (158) extending from the side portion to the side (114) side.

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