KR200345957Y1 - Microwave chiller - Google Patents

Abstract

The present invention relates to a cooling device for a microwave oven having a light emitting lamp.

The cooling device according to the present invention, the light emitting lamp 30 is installed on the bottom of the cavity, the cooling fan 20 for generating an air flow for cooling the light emitting lamp, and the air flow by the cooling fan Concurrently with the lamp, through the guide portion 40 formed in the middle portion, the air guide 32 for supplying a part of the air flow toward the turntable motor 34 is installed in the lower portion of the cavity bottom do. Therefore, the cooling fan 20 may be used to cool the light emitting lamp 30 as well as the turntable motor 34.

Description

Microwave chiller

The present invention relates to a cooling apparatus for a microwave oven, and more particularly, a microwave oven configured to perform cooling of a turntable motor such as cooling of a light emitting lamp in a microwave oven having a light emitting lamp, which is a separate heating source, on the bottom of the cavity. It relates to a cooling device of.

A microwave oven is a cooking apparatus in which microwaves are generated using electricity, and the microwaves penetrate the object to be cooked, causing molecular motion inside the object, and thereby heating. Such microwave ovens are widely used for simple heating, for example, a thawing process for dissolving frozen food or a device for heating food such as milk to a predetermined temperature due to its simple configuration and ease of use. It is used.

However, the microwave oven cannot be said to be suitable for heating various objects due to the disadvantages in use due to the heating method and the limitation of its output. That is, the conventional microwave oven using only microwaves as a heating source is pointed out that there is a problem in that it is not possible to provide fast and high-quality cooking because of the unity of the heating method by the microwave and its output. . For example, when heated by microwave, the object is heated both inside and outside together, but this advantage is a significant disadvantage depending on the cooking object. When cooking pizza as described later, it is judged that heating by microwaves is not suitable due to the properties of the object. In addition, it is also pointed out that in the case of heating by a microwave oven, too much moisture is removed from the object.

For these current microwave ovens, various types of microwave ovens using different heat sources have been developed. For example, a microwave oven using light waves as a heating source has been proposed. This means installing a light emitting lamp that generates an appropriate ratio of visible light and infrared wavelengths, and using the light emitting lamp as another heating source. By appropriately using the visible light and infrared rays emitted from the light emitting lamp, the surface and the inside of the heating object can be heated while making full use of their respective characteristics. Examples of such light emitting lamps include halogen lamps.

The difference between the wavelengths of the infrared light and the visible light is represented by the difference in the heating method by the different wavelengths applied to the object, and the outside and the inside of the object are heated in different forms by this difference. Using such a light emitting lamp, for example, in the case of a pizza, it is possible to obtain a cooking state in which the outside has a crunchy heating degree and the inside is sufficiently heated and softly heated with a predetermined moisture. .

1 shows a microwave oven using the above-described light emitting lamp as another heating source. As shown, light emitting lamps 6a and 4a are provided on the upper surface 6 and the lower surface 4 of the cavity 2 of the microwave oven, respectively. Light energy from the light emitting lamps 6a and 4a is supplied into the cavity 2 to heat food.

In the case of heating using such a light emitting lamp, it is substantially heated to a considerable temperature around the light emitting lamps 6a and 4a. Since the part heated in this way is overheated, for example to 1000 degreeC or more, the said light emitting lamp and its peripheral parts must be cooled. In order to dissipate the light emitting lamps 6a and 4a, cooling fans are installed at upper and lower portions of the electric compartment 8 of the microwave oven, respectively.

FIG. 2 exemplarily shows an installation state of a cooling fan 10 for cooling the light emitting lamp 4a installed on the bottom surface 4 of the microwave oven. The cooling fan 10 is installed on the bottom plate 8a which forms the bottom surface of the electric compartment 8 to form a cooling air flow toward the light emitting lamp 4a. The air flow generated from the cooling fan 10 is guided by the air duct 12 to the light emitting lamp 4a to cool the light emitting lamp 4a.

In FIG. 2, reference numeral 14 denotes a turntable motor. The turntable motor 14 is a bottom surface 4 of the cavity installed in the lower portion of the cavity 2 and is installed inside the cavity 2 to generate power for rotating the rotary tray used for placing food. Therefore, while the heating source including the light emitting lamp 4a operates and the heating of the food is started, the turntable motor 14 rotates to rotate the rotary tray. When the turntable motor 14 starts to operate, heat is naturally generated.

According to the conventional structure as described above, since the air flow generated in the cooling fan 10 is guided by the air guide 12, only the light emitting lamp 4a is cooled. However, the high temperature generated by the light emitting lamp 4a is naturally transmitted to the turntable motor 14, and there is a high possibility that the turntable motor 14 may be overheated due to the operation heat generated by the turntable motor 14 itself. . That is, the turntable motor 14 may be thermally damaged by the operating heat of the turntable motor 14 and the heat conducted by the light emitting lamp 4a.

However, according to the conventional structure as described above, there is substantially no cooling device for cooling the turntable motor 14. In addition, installing a separate cooling fan to cool the turntable motor 14 has the disadvantage of causing an increase in the production cost as well as an increase in the number of parts.

An object of the present invention is to provide a cooling apparatus capable of simultaneously cooling a turntable motor installed in a lower portion of a cavity by using a cooling fan for cooling a light emitting lamp. This invention will be able to cool the turntable motor efficiently, without additional parts.

1 is an exemplary perspective view showing the configuration of a general microwave oven.

Figure 2 is a bottom explanatory view showing a conventional cooling structure.

Figure 3 is an explanatory bottom view showing a cooling structure of the present invention.

Explanation of symbols on the main parts of the drawings

20 ..... cooling fan 24 ..... bottom of cavity

30 ..... Luminous Lamp 32 ..... Air Guide

40 ..... Information

Microwave cooling apparatus according to the present invention for achieving the above object, the light emitting lamp is installed on the bottom of the cavity; A cooling fan generating an air flow for cooling the light emitting lamp; And an air guide for guiding the air flow by the cooling fan to the light emitting lamp and supplying a part of the air flow toward the turntable motor installed at the bottom of the cavity bottom through the guide formed in the middle portion. It is composed.

According to the present invention as described above, it is expected to be convenient to cool the turntable motor by using an airflow by a cooling fan for cooling the light emitting lamp.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

As shown in FIG. 3, according to the present invention, a guide unit 40 for guiding air toward the turntable motor 34 is provided in the air guide 32 for guiding the air flow formed by the cooling fan 20. Molding is a technical point.

The cooling fan 20 is provided in the bottom plate 22 which is the bottom of the electric compartment of the microwave oven. However, the cooling fan 20 may be installed at any part as long as it is a part capable of cooling the light emitting lamp 30 through the air guide 32.

The light emitting lamp 30 is installed at the bottom of the cavity bottom 24 to supply light energy to the inside of the cavity. In addition, an air guide 32 for guiding the air flow for cooling the light emitting lamp 30 toward the light emitting lamp 30 is provided to surround the light emitting lamp 30.

According to the present invention, the air guide 32, such as to guide the air flow generated in the cooling fan 20 toward the light emitting lamp 30, a part of the air flow inside the air guide 32 turntable The function of guiding toward the motor 34 is simultaneously performed. That is, by forming the guide part 40 on one side of the air guide 32, a part of the cooling air flow flowing into the air guide 32 is guided to the turntable motor 34.

The guide portion 40 is formed by opening a part of the air guide 32 corresponding to the portion adjacent to the turntable motor 34. Therefore, the cooling airflow flowing inside the air guide 32 flows to the outside of the air guide 32 in the guide part 40, and thus the air flows out through the guide part 40. Substantially reaches the turntable motor 34. The guide portion 40 has a slit 42 formed on one side of the air guide 32 at an acute angle with respect to the flow direction of air. The slit 42 serves to guide substantially part of the air toward the turntable motor 34 by guiding the air flowing in the air guide 32 toward the guide part 40. will be.

Next, the cooling operation by the air flow formed by the cooling fan 20 will be described as the heating proceeds.

As the light emitting lamp 30 emits light, heating of food in the cavity will start, and at the same time, the cooling fan 20 will operate to generate a cooling airflow for cooling the light emitting lamp 30. .

The cooling airflow generated in the cooling fan 20 is guided by the air guide 32 to flow while passing through the light emitting lamp 30. Thus, while the cooling airflow flows through the light emitting lamp 30, the light emitting lamp 30 is cooled. A part of the airflow flowing through the air guide 32 is guided to the turntable motor 34 by the guide part 40. The cooling airflow guided to the turntable motor 34 will cool the turntable motor.

As described above, according to the present invention, it can be seen that the gist is configured to simultaneously cool the turntable motor by using an air flow generated from a cooling fan for cooling the light emitting lamp.

According to the present invention as described above, it can be seen that the light emitting lamp and the turntable motor are simultaneously cooled without any additional parts. Therefore, without economical or structural addition, it is possible to sufficiently prevent the temperature and rise phenomenon caused by the light emitting lamp mounted as another heating source in the microwave oven, and at the same time, the light emitting lamp itself can be sufficiently cooled. have.

Claims (1)

A light emitting lamp installed on the bottom of the cavity; A cooling fan generating an air flow for cooling the light emitting lamp; And And an air guide for guiding the air flow by the cooling fan to the light emitting lamp and supplying a part of the air flow toward the turntable motor installed under the cavity bottom through the guide formed in the middle portion. Chiller of microwave oven.