KR20050104130A - Microwave oven - Google Patents

Abstract

The present invention relates to a microwave oven, and more specifically, to improve the shape of the cavity, to perform a more smooth cleaning of the cooking chamber and to make the microwave radiation to the cooking as uniform as possible To provide a microwave oven.

The present invention for this purpose; And provided in the main body to form a cooking chamber, forming a rear surface of the cooking chamber has a semi-circular curved portion in plan view, and has a side portion forming both sides of the cooking chamber, the point where the curved portion and the side portion meet There is provided a microwave oven including a cavity having a recess portion formed to be recessed toward a center side in the cooking chamber.

Description

Microwave oven

The present invention relates to a microwave oven, and more particularly, to a structure of a microwave oven having a cooking chamber capable of performing a more smooth cleaning, the microwave radiation to the food can be made as uniform as possible.

In general, a microwave oven (MWO) is a device for cooking food by the heat of intermolecular friction generated by disturbing the molecular arrangement of food by using a high frequency (about 2,450 MHz per second) as a heating source.

As shown in FIGS. 1 and 2, the microwave oven includes a main body 10 including a front plate 11, an outer case 12, and a rear plate 13, and a cavity for forming a cooking chamber. (20) And it is comprised including the electrical equipment room in which various electrical components are installed.

At this time, the front plate 11 is mounted to the front of the front casing forming the front of the main body 10, the cavity door 14 for opening and closing the inside of the cavity 20 is mounted.

In addition, the out case 12 forms both sides and an upper surface of the main body 10 to protect the cavity 20 and the electric compartment together with the front plate 11 and the rear plate 13 from an external environment.

The electric chamber is a magnetron 31 for generating microwaves, a high voltage transformer 32 for supplying a high voltage to the magnetron 31, and a blowing fan for cooling various electric components inside the main body 10. Various components including a 33 and a fan motor 34 for driving the blowing fan are mounted.

At this time, the fan motor 34 is fixed to the rear plate 13, the shroud 35 is mounted around the blowing fan 33 to guide the flow of air.

However, in the conventional microwave oven configured as described above, since the shape of the cavity 20 is made of a quadrangle as shown in FIG. 2, the inside of the cooking compartment is also made of a quadrangle. Since the reflection angle of the wave must be limited, there is a problem that uniform heating of the food is difficult.

In other words, the excessively made portion of each portion of the food is affected by the microwave as much as possible, while the portion is less affected by the microwave, the problem is that the cooking could not be made.

 In addition, since the inside of the cooking chamber is formed in a quadrangle, it is not easy to clean each corner of the inside of the cooking chamber.

Therefore, there is a problem that the dissatisfaction of the consumer is caused by the contamination inside the cooking chamber.

In addition, since the distance between the food and the inner wall surface of the cavity 20 is not constant, the design feeling inside the cooking chamber that the consumer visually feels is deteriorated considerably, which causes a problem of dissatisfaction of the consumer. .

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object of the present invention is to provide a microwave oven having a new type cavity so that the corner portion in the cooking chamber can be minimized.

In addition, another object of the present invention is to optimize the structure and arrangement of the various electrical components according to the shape of the improved cavity described above to facilitate the air flow to the inside of the main body of the microwave oven, as well as the space for the installation of additional products An object of the present invention is to provide a microwave oven having a structure that is easy to secure.

According to an aspect of the present invention for achieving the above object, a body for forming an appearance; And provided in the main body to form a cooking chamber, forming a rear surface of the cooking chamber has a semi-circular curved portion in plan view, and has a side portion forming both sides of the cooking chamber, the point where the curved portion and the side portion meet The present invention provides a microwave oven including a cavity having a concave concave portion formed to concave toward a center side in a cooking chamber.

Hereinafter, each embodiment of the present invention will be described in detail with reference to FIGS. 3 to 9.

First, FIGS. 3 to 5 show a structure according to the first embodiment of the present invention.

As described above, the microwave oven according to the first embodiment of the present invention includes a main body, a cavity 200, a waveguide 300, a magnetron 400, a fan motor 500, a blowing fan 600, and The shroud 700 is configured to be included.

The main body forms an exterior, and includes an out case 110 forming both sides and an upper surface, a rear plate 120 forming a rear surface, and a front plate 130 forming a front surface.

The rear side portion of the space in which the cavity 200 is mounted among the portions of the rear plate 120 constituting the main body protrudes toward the rear side such that the rear side portion does not contact the rear portion of the cavity 200.

At this time, the space formed between the rear plate 120 and the rear of the cavity 200 serves to smoothly circulate the air discharged from the inside of the cavity 200.

In addition, a plurality of air suction holes 121 are formed in the rear plate 120 to suck air into the body.

In this case, each of the air intake holes 121 is formed in a portion where the fan motor 500 is provided.

The cavity 200 is formed in the main body to form a cooking chamber, and includes a curved surface portion 210 forming a rear surface and side surfaces 220 forming both sides.

The curved portion 210 forms a rear side of the cooking chamber along with a rear surface of the cavity 200, and is formed in a semi-circular shape when viewed in plan view.

In addition, the side portion 220 forms both side surfaces of the cavity 200.

At this time, the side portion 220 is formed extending in a substantially straight line from both ends of the curved portion 210 toward the front side of the cooking chamber.

Of course, the side portion 220 may be formed to be inclined at a predetermined angle so that the space constituting the cooking chamber gradually narrows from the front side to the rear side.

The structure of the above-described cavity 200 may be formed more uniformly than the structure in which the inside is formed in a quadrangle like the conventional cavity 20 to form a right angle thereof.

However, when the cavity 200 is formed only by the curved portion 210 and the side portion 220, as shown in FIGS. 4 and 5, the smaller the point where the curved portion 210 and the side portion 220 meet. The predetermined edge (C) is inevitably formed, which causes a problem that the heating of the food may not be uniform.

Therefore, in the first embodiment of the present invention, as shown in FIG. 6, the corner C is a portion where the curved portion 210 and the side portion 220 meet each other so that the edge C may be removed as much as possible. The mouth 230 is further formed.

At this time, the portion shown as the dotted line portion in the enlarged portion shown in the drawing in the shape where the concave portion 230 meets the shape between the curved portion 210 and the side portion 220 when the concave portion 230 does not exist This is shown for comparison.

The concave portion 230 is formed as a round surface having a predetermined radius of curvature, and is formed to be concaved more toward the inside of the cooking chamber than a point where the curved portion 210 meets the side portion 220.

At this time, the radius of curvature of the round formed by the concave portion 230 is preferably smaller than the curvature radius constituting the curved portion 210, but does not reach the plane.

Of course, although not shown, the concave portion 230 may be formed by extending in multiple rounds close to the plane.

Therefore, the inside of the cooking chamber can obtain a visually stable effect as shown in FIG.

In addition, a plurality of air inlet holes 201 and air outlet holes 202 communicating with a space inside the cooking chamber formed by the cavity 200 are formed at side surfaces of the cavity 200, respectively.

At this time, each of the air inlet hole 201 is formed on the front side of any one side of the side of the cavity 200, the electrical compartment is located, each of the air outlet hole 220 of the cavity 200 It is preferably formed on the rear side of the other side of the side portions. Of course, each of the air outlet holes 202 may be formed on the concave inlet portion 230 or the curved portion 210 on the side opposite to the portion where the air inlet hole 201 is formed.

In addition, an air discharge hole 111 is formed at one side surface adjacent to a portion where the air outlet hole 202 is formed among both sides of the outer case 110 so that the air flowing out through the air outlet hole 202 is It is made to be discharged to the outside through the air discharge hole 111.

The waveguide 300 is mounted on one side of the cavity 200 in the other space in the main body, that is, the space in which the electric field chamber is formed, and guides the microwave to the cooking chamber.

Here, the waveguide 300 is approximately mounted at the central portion (or rear side portion) of the cavity 200.

Of course, the waveguide 300 may be more advantageously formed on the front side of any one side of the side portions 220 of the cavity 200.

However, in this case, since the space on the front side of the space forming the electrical equipment chamber is reduced by the mounting position of the waveguide 300, it is impossible to attach to an auxiliary device such as a toaster or a coffee maker, which is not shown. The development of the equipped composite product is difficult.

Therefore, the waveguide 300 and the magnetron 400 mounted to the waveguide 300 are preferably positioned to the rear side of the electric compartment.

For this reason, in the first embodiment of the present invention, the front side of the waveguide is mounted on the side portion, and the rear side of the waveguide 300 is the recessed portion 230 or the curved portion 210 or the recessed portion 230 and the curved surface. It is characterized in that the mounting between the portion (210).

At this time, considering that the concave portion 230 and the curved portion 210 is formed in a curvature state, the side portion that is a front side of the portion of the waveguide 300 based on the central portion of the cavity 200. The surface to be mounted on the 220 is formed to form a flat surface, and the recessed portion 230 or the curved portion 210 or the surface mounted between the recessed portion 230 and the curved portion 210 is the recessed portion 230 or , It is preferable that the curved portion 210 is formed to be round as much as the curvature formed.

The magnetron 400 is provided on a space in which the electric field chamber is formed, and one end thereof is connected to the waveguide 300 to generate microwaves.

In addition, the fan motor 500 is fixedly mounted to the rear plate 120 on the rear side space of the magnetron 400.

In addition, the blower fan 600 is axially coupled to the fan motor 500 to suck the air from the outside of the main body while rotating by the drive of the fan motor 500, and then toward the side where the magnetron 400 is located. It serves to blow the sucked air.

The shroud 700 is provided along the periphery of the blower fan 600, and the rear of the shroud 700 is mounted along the periphery where the air suction hole of the rear plate 120 is formed. It serves to guide the flow of air formed by the 600 to be discharged smoothly toward the magnetron 400.

As a result, according to the first embodiment of the present invention as described above, since only the edges of the inner wall of the cavity constituting the cooking chamber are extremely fine, the microwaves radiated into the cooking chamber through the waveguide 300 when the food is cooked are the corners. Uniform spinning into the food is achieved with little effect on the food.

In addition, by the structure according to the first embodiment of the present invention the flow of air circulating in the microwave is also made smoothly, the process of this will be described in more detail as follows.

First, if the microwave oven is operated by the user's need, the fan fan 500 is driven while the blowing fan 600 is rotated.

Accordingly, the air suction force is generated, and the outside air of the microwave oven is blown through the air suction holes 121 formed in the rear plate 120 by the air suction force generated by the fan motor 500 and the blowing fan 600. It is sucked into the mounted space.

And, the air sucked as described above is discharged to the site where the magnetron 400 in the space forming the electric chamber under the guide of the earth output and the shroud 700 of the blowing fan 600, the magnetron ( Heat radiation 400).

At this time, since the magnetron 400 generates a microwave for cooking food in the cooking chamber, a lot of heat is generated, but it can be understood that heat is radiated by the flow of air.

Then, the air passing through the magnetron 400 is flowed to the front side of the interior of the space forming the electric chamber, and then into the cooking chamber through each air inlet hole 201 formed on the side front side of the cavity 200 Inflow.

Here, the air introduced into the cooking chamber includes the smell and moisture generated when cooking the food while flowing inside the cooking chamber, and then through a plurality of air outlet holes 202 formed at the rear side of the other side of the cavity 200. It flows out of the cooking chamber.

Subsequently, the air is discharged to the outside of the microwave oven through the air discharge hole 111 formed at the side of the outer case 110.

At this time, some of the air that is not discharged to the outside of the microwave oven flows through the main body of the microwave oven by the continuous blowing force of the fan 600, in the process of the curved portion of the cavity 200 The magnetron 400 flows through the space formed between the rear surface and the rear plate 120 and is piggybacked on the air discharged while passing through the shroud 700.

Therefore, the air flowing in the microwave oven can be smoothly circulated in a state in which vortex generation is minimized due to collision with the air being sucked into the portion and the microwave oven.

Meanwhile, FIG. 8 is a diagram illustrating a structure according to a second embodiment of the present invention.

That is, the second embodiment of the present invention is characterized in that the concave portion 230 constituting the cavity 200 is formed to have an approximately planar shape in the structure according to the first embodiment of the present invention described above.

Of course, a predetermined edge may be formed at a portion where the concave portion 230 and the side portion 220 and the concave portion 230 and the curved portion 210 meet each other, but only the side portion 220 and the curved portion 210. Compared to the structure directly connecting the liver has the advantage that the edge can be eliminated as much as possible.

Therefore, the microwave radiated into the cooking chamber through the waveguide when cooking the food may minimize irregular radiation due to the edges in the cooking chamber, thereby allowing uniform cooking of the food.

Of course, the concave indentation 230 according to the second embodiment of the present invention may be formed by extending in multiples at an inclination close to the plane.

In particular, the corner portion (C1) is rounded because the microstructures may be generated even at the connection portion between the curved portion 210 and the side portion 220 which are both ends of the recessed portion 230 in the structure of the second embodiment. More preferably formed.

Meanwhile, FIG. 9 shows a structure according to a third embodiment of the present invention.

That is, in the third embodiment of the present invention, the concave portion 230 forming the cavity of the structure according to the first embodiment of the present invention is manufactured separately from the curved portion 210 and the side portion 220, and thus the curved portion (210) and the side portion 220 is characterized in that it is mounted on the site where the meeting.

At this time, the method of mounting the concave portion 230 between the curved portion 210 and the side portion 220 may be performed by welding or other various coupling structures.

As described above, the microwave oven according to the present invention has the following effects.

First, in the microwave oven according to the present invention, since the rear side of the cavity is formed in a circular shape, the interior of the cooking chamber may also be formed in a circular shape, and thus, each corner portion of the cooking chamber does not exist, thereby causing the inside of the cooking chamber. Cleaning can be made easily.

Therefore, it is possible to solve the problem that the inside of the cooking chamber is contaminated, there is an effect that can improve the consumer satisfaction.

Second, it is possible to minimize the corner portion formed in the cooking chamber by the structure of the concave portion according to the embodiment of the present invention also has the effect that it is possible to uniform food heating.

In other words, if the microwave has a characteristic of being radiated by being biased toward the edge portion, evenly the radiation can be made since the edge portion does not exist.

In particular, the user's dissatisfaction visually felt by the reduction of the edge portion also has an effect that can be solved.

1 is an exploded perspective view showing a general structure of a conventional microwave oven

2 is a plan view schematically showing the internal structure of a conventional microwave oven

3 is an exploded perspective view showing the structure of a microwave oven according to the first embodiment of the present invention;

4 is a plan view schematically showing one embodiment of the internal structure of the microwave oven according to the first embodiment of the present invention;

FIG. 5 is a front perspective view illustrating the interior of the cooking chamber according to the structure of FIG. 4; FIG.

6 is a plan view schematically showing an improved form of the internal structure of the microwave oven according to the first embodiment of the present invention;

FIG. 7 is a front perspective view illustrating the interior of the cooking chamber according to the structure of FIG. 6; FIG.

8 is a plan view schematically showing the form of the internal structure of the microwave oven according to the second embodiment of the present invention;

9 is a plan view schematically showing the form of the internal structure of the microwave oven according to the third embodiment of the present invention;

Explanation of symbols for the main parts of the drawings

110. Out case 120. Back plate

130.Front plate 200.cavity

201.Air inlet 202.Air outlet

210. Curved section 220. Side section

230. Indentation 300. Waveguide

400. Magnetron 500. Fan motor

600.Blowing Fan 700.Shroud

Claims (9)

A body forming an appearance; And, The cooking chamber is provided in the main body to form a cooking chamber, the rear side of the cooking chamber has a semi-circular curved portion in plan view, and has side portions that form both sides of the cooking chamber, and forms a point where the curved portion and the side portion meet. And a cavity having a recess portion formed to be recessed toward the center side of the body. The method of claim 1, The recess of the cavity Microwave oven characterized in that formed in a round surface having a predetermined radius of curvature. The method of claim 2, The recess of the cavity Microwave oven, characterized in that formed by extending in a multi-stage round close to the plane. The method of claim 2, The radius of curvature of the round formed by the recess is Microwave oven, characterized in that made larger than the radius of curvature of the curved portion of the cavity. The method of claim 1, The recess of the cavity Microwave oven, characterized in that formed to form a substantially flat. The method of claim 5, The recess of the cavity Microwave oven characterized in that formed by extending in multiple stages in a slope close to the plane. The method according to claim 1 or 5, Microwave oven, characterized in that the connection portion between the curved portion and the side portion of the recess in the cavity is formed round. The method of claim 1, The recess of the cavity Microwave oven, characterized in that the cavity is manufactured separately from the curved portion and the side portion of the cavity is mounted on the portion where the curved portion and the side portion. The method of claim 1, And a side portion of the cavity is inclined at a predetermined angle so that the space constituting the cooking chamber gradually narrows from the front side to the rear side thereof.