KR100286026B1 - microwave - Google Patents

Abstract

The present invention relates to a microwave oven having an inner casing which forms a component chamber in which a cavity for forming a cooking space and a magnetron for outputting high frequency to the cavity are installed, and an outer casing disposed to surround the inner casing. The outer casing is characterized in that a plurality of air discharge holes are formed through the plate surface so that the component chamber is in communication with the outside. Thereby, a microwave oven is provided which can effectively cool the electric parts by allowing the heated air of the electric parts installation region to be smoothly discharged.

Description

microwave

The present invention relates to a microwave oven, and more particularly, an inner casing for forming a component chamber in which a cavity for forming a cooking space and a magnetron for outputting high frequency to the cavity are installed, and arranged to surround the inner casing. It relates to a microwave oven having an outer casing.

The microwave oven is a device that allows food to be cooked by dielectric heating by outputting microwaves to food contained in a cavity forming a cooking space.

4 is an exploded perspective view of a conventional microwave oven, and FIGS. 5 and 6 are front and side cross-sectional views of FIG. 4, respectively. As shown in these figures, the microwave oven includes an outer casing 101 having an inverted " U " shape for forming an appearance, and an inner casing 103 for forming a cooking cavity 105 and a component chamber 107. Have The inner casing 103 has a front plate 111, a back plate 113, and a bottom plate 115 which are respectively coupled to the front, rear, and bottom surfaces of the outer casing 101, and these front plate 111 and the back plate. It is coupled to the 113 and the bottom plate 115 and has a cavity casing 117 to form a cavity 105 therein.

The door 106 is hinged to the left edge of the front plate 111 to open and close the front opening of the cavity 105, and the opening of the component chamber 107 is formed in the right region. On the front of the opening, a control panel 108 equipped with a plurality of operation buttons for selecting a cooking menu or the like is coupled.

The magnetron 120 for outputting microwaves into the cavity 105 is installed in the component chamber 107, and a cooling fan 121 for cooling the magnetron 120 is installed at one side of the magnetron 120. In the bottom region of the component chamber 107, a high voltage transformer 123 and a high voltage capacitor 125 are respectively installed to stably supply high voltage to the magnetron 120.

On the other hand, in the outer casing 101 and the inner casing 103, an air flow path is formed to cool an electric component including the magnetron 120 and the like. An intake hole 114 is formed in the component compartment of the rear plate 113 to penetrate the plate surface to allow air to flow into the component compartment 107, and the exhaust plate 115 penetrates the plate surface to form a plurality of exhaust holes. 116 is formed. The lower duct member 127 is coupled to the lower side of the bottom plate 115 to guide the air discharged through the exhaust hole 116 to the front, and the lower duct member 127 is opened to the front of the lower duct member 127. The discharge hole 128 is formed.

A plurality of communication holes 130 are formed on the sidewalls of the cavity casing 117 that partitions the component chamber 107 and the cavity 105 so that the cavity 105 and the component chamber 107 communicate with each other. On one side of the duct member 131 is coupled to allow the heat-exchanged air to flow into the cavity 105 through the communication hole 130 while passing through the magnetron 120.

A plurality of air passing holes 133 are formed in the hinge side wall of the cavity casing 117 so that the air in the cavity 105 can be discharged to the outside, and the front and rear of the cavity casing 117 are formed above the cavity 133. The partition plate 135 which is arrange | positioned along the direction and partitions the exhaust region formed in the upper part of the component chamber area | region and the cavity 105 is provided. The partition plate 135 blocks the air discharged through the air passage hole 133 provided at one side of the cavity 105 from entering the component chamber side.

An exhaust port 137 is formed in the cavity area of the outer casing 101 so as to discharge the air discharged through the air passage hole 133. The exhaust port 137 is coupled to the upper duct member 139 for guiding the discharged air forward.

By such a configuration, the food to be cooked in the cavity 105 is accommodated, and when the cooking menu is selected, the magnetron 120 oscillates to output microwaves into the cavity 105. At this time, air is introduced into the component chamber 107 through the intake hole 114 of the rear plate 113 by the driving of the cooling fan 121, and some of the introduced air passes through the magnetron 120. The magnetron 120 is cooled.

The air cooled by the magnetron 120 is guided to the communication hole 130 by the duct member 131 and flows into the cavity 105. The air introduced into the cavity 105 circulates in the cavity 105 and passes through the air passing hole 133 together with the smoke generated during cooking, and is discharged through the exhaust port 137 of the outer casing 101. The discharged air is guided forward by the upper duct member 139. Some of the air in the component chamber 107 passes through the exhaust hole 116 of the bottom plate 115 and is discharged forward through the lower duct member 127.

On the other hand, the air in the component chamber 107 whose temperature is raised by the magnetron 120 or the like moves to the upper region in the component chamber 107.

By the way, in such a conventional microwave oven, part of the air in the parts chamber is discharged through the cavity and part is discharged through the exhaust hole formed in the bottom plate, so that relatively high temperature air existing in the upper region is not discharged. It will remain the same. When high temperature air remains in the upper region, the magnetron and the high voltage transformer can easily generate heat, and accordingly, there is a problem that the life of the magnetron and the high voltage transformer as well as other electrical components can be shortened.

Accordingly, an object of the present invention is to provide a microwave oven capable of effectively cooling an electric component by allowing the heated air of the electric component installation region to be smoothly discharged.

1 is an exploded perspective view of a microwave oven according to the present invention;

2 and 3 are front and side cross-sectional views of the guide member region of the microwave oven of FIG. 1, respectively;

4 is an exploded perspective view of a conventional microwave oven,

5 and 6 are front and side cross-sectional views of the microwave oven of FIG. 4, respectively.

* Explanation of symbols for the main parts of the drawings

1: outer casing 5: cavity

7: parts compartment 11: front panel

13: rear panel 14: intake hole

17: cavity casing 20: magnetron

21: cooling fan 30: communication hole

31: duct member 33: air passage

37 exhaust port 39 exhaust duct member

41: air discharge hole 43: guide member

According to the present invention, there is provided, according to the present invention, an inner casing for forming a component chamber in which a cavity for forming a cooking space and a magnetron for outputting high frequency to the cavity are installed, and an outer casing disposed to surround the inner casing. In the microwave,

The outer casing is achieved by a microwave oven, characterized in that a plurality of air discharge holes are formed through the plate surface so that the component chamber communicates with the outside.

Here, it is preferable to further include a guide member coupled to the outer casing to surround the air discharge hole to guide the flow of air discharged through the air discharge hole.

In addition, the guide member may be effective to guide the air discharged through the air discharge hole toward the front of the outer casing.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

1 is an exploded perspective view of a microwave oven according to the present invention, and FIGS. 2 and 3 are front and side cross-sectional views, respectively, of the microwave oven of FIG. 1. As shown in these figures, the microwave oven according to the present invention is similar to the conventional microwave oven, the microwave oven has an outer "U" shaped outer casing 1, the cooking cavity 5 and It has the inner casing 3 which forms the component chamber 7. The inner casing (3) has a front plate (11) and a back plate (3) and a bottom plate (15) coupled to the front, rear, and bottom of the outer casing (1), respectively. (3) and the bottom plate (15), respectively, and has a cavity casing (17) which forms a cavity (5) therein.

The door 6 is hinged to the left side of the front plate 11 so as to rotate the opening and closing of the front opening of the cavity 5, and the magnetron 20 for outputting microwaves into the cavity 5 is installed in the right side. The opening of the component chamber 7 is formed. In this opening, a control panel 8 equipped with a plurality of operation buttons for selecting a cooking menu or the like is coupled.

A magnetron 20 for outputting microwaves into the cavity 5 is provided in the component chamber 7, and a cooling fan 21 for cooling the magnetron 20 is provided on one side of the magnetron 20. The high voltage transformer 23 and the high voltage capacitor 25 are respectively provided in the bottom region of the component chamber 7 so as to stably supply high voltage to the magnetron 20.

In the outer casing 1 and the inner casing 3, an air flow path is formed to cool the electric parts including the magnetron 20, and the like. An intake hole 14 is formed in the component compartment of the rear plate 13 to penetrate the plate surface so that air can flow into the component compartment 7.

A plurality of communication holes 30 are formed on sidewalls of the cavity casing 17 that divides the component chamber 7 and the cavity 5 so that the cavity 5 and the component chamber 7 communicate with each other, and the magnetron 20 One side of the) is coupled to the duct member 31 to allow the heat exchanged air to flow into the cavity 5 through the communication hole 30 while passing through the magnetron 20.

A plurality of air passing holes 33 are formed in the hinge side wall of the cavity casing 17 so that air in the cavity 5 can be discharged to the outside, and the front and rear of the cavity casing 17 are formed above the cavity 5. The partition plate 35 which is arrange | positioned along the direction and partitions the exhaust region formed in the upper part of the component chamber area | region and the cavity 5 is provided. The partition plate 35 blocks air discharged through the air passage hole 33 provided at one side of the cavity 5 from entering the component chamber side.

An exhaust port 37 is formed in the cavity area of the outer casing 1 so as to discharge the air discharged through the air passage hole 33. An exhaust duct member 39 for guiding the discharged air forward is coupled to the exhaust port 37.

On the other hand, in the region of the component chamber 7 side of the outer casing 1, a plurality of air exhaust holes 41 are formed through the plate surface. In the circumferential region of the air discharge hole 41, a rectangular cylindrical guide member 43 opened toward the front side is engaged. The guide member 43 guides the air discharged through the air discharge hole 41 toward the front of the outer casing 1.

With this configuration, the food to be cooked in the cavity 5 is accommodated, and when the cooking menu is selected, the magnetron 20 oscillates to output microwaves into the cavity 5. At this time, air is introduced into the component chamber 7 through the intake hole 14 of the rear plate 13 by the driving of the cooling fan 21, and a part of the introduced air is passed through the magnetron 20. The magnetron 20 is cooled.

The air cooled by the magnetron 20 is guided to the communication hole 30 by the duct member 31 and flows into the cavity 5. The air introduced into the cavity 5 circulates in the cavity 5 and passes through the air passage hole 33 together with the smoke generated during cooking, and is discharged through the exhaust port 37 of the outer casing 1. The discharged air is guided forward by the exhaust duct member 39.

On the other hand, the air whose temperature rises by the heat generation of an electric component etc. in the component chamber 7 moves to the inner upper area | region of the component chamber 7. At this time, by being discharged to the outside through the air discharge hole 41 formed in the outer casing (1), the inside of the component chamber 7 is smoothly circulated air to improve the cooling effect of the electrical components such as the magnetron (20) Will be. Air discharged through the air discharge hole 41 is guided toward the front of the outer casing (1).

In the above-described and illustrated embodiments, the air discharge hole formed in the component chamber area of the outer casing is formed in the front area so that the discharged air is guided forward. However, in some cases, the air discharge hole is formed in the rear area. Of course, it can be configured to be configured to guide the discharge to the rear region or side region.

As described above, according to the present invention, a microwave oven is provided which can efficiently cool an electric component by smoothly discharging the heated air of the electric component installation region.

Claims (3)

An inner casing forming a cavity for forming a cooking space, a cavity casing for forming the cavity, a component chamber in which a magnetron for outputting high frequency to the cavity is installed, and an outer casing disposed to surround the inner casing; In the microwave, A plurality of communication holes are formed on the sidewall of the cavity casing so that the cavity and the component chamber communicate with each other. And a plurality of air discharge holes formed in the outer casing through the plate surface so that the component chamber communicates with the outside. The method of claim 1, Microwave oven further comprises a guide member coupled to the outer casing to surround the air discharge hole for guiding the flow of air discharged through the air discharge hole. The method of claim 2, The guide member is a microwave oven, characterized in that to guide the air discharged through the air discharge hole toward the front of the outer casing.