KR200165206Y1 - Structure for cooling microwave oven range - Google Patents

Abstract

The present invention relates to an electric chamber cooling structure of a microwave oven, and a magnetron for generating high frequency, a high voltage transformer and a high voltage condenser for generating voltage and DC high voltage necessary for the operation of the magnetron, and a high frequency generated from the magnetron are distributed to the cooking chamber. In the microwave electric equipment room in which the wave guide or the like is installed, an upper inlet 11 is formed in the cabinet upper plate 10, and a cooling fan 12 that introduces external air into the lower side of the upper inlet 11. Is installed, the air outlet 13 is formed in the rear plate 6 of the cabinet, characterized in that the discharge fan 14 for discharging the heat-exchanged air to the outside of the air outlet 13 is installed.

According to the present invention, the fan is installed at the air inlet and the air outlet, respectively, so that the outside air is introduced or the internal air is discharged to the outside of the battlefield room, so that the air circulation inside the battlefield room is smooth. Therefore, the cooling efficiency of the electrical room is improved to reduce the heat loss of the magnetron and the transformer, thereby preventing the performance degradation and improving the output efficiency of the microwave oven.

Description

Electronic structure cooling structure of microwave oven {STRUCTURE FOR COOLING MICROWAVE OVEN RANGE}

The present invention relates to a microwave oven, and more particularly, to an electric chamber cooling structure of a microwave oven capable of reducing heat loss generated in a magnetron and a transformer generating high frequency by improving the cooling efficiency of the electric chamber.

A microwave oven is a cooking apparatus in which food is cooked by frictional heat caused by water molecule movement inside the microwave by irradiating the microwave with microwaves generated from the magnetron.

Accordingly, the cabinet of the microwave oven is divided into a cooking chamber into which food is put and a driving chamber in which various electric appliances for driving the food cabinet are installed, and FIG. 1 illustrates the interior of the microwave oven cabinet.

As shown, therefore, the electrical chamber of the microwave includes a magnetron 1 for oscillating high frequency, a high voltage transformer (2) and a high voltage capacitor (3) for generating a voltage and direct current high voltage necessary for the operation of the magnetron 1; , A wave guide (4) for distributing high frequency oscillated from the magnetron (1) to a heating chamber, and a cooling fan assembly (5) for cooling them.

Accordingly, when power is applied to the high voltage transformer 2, a magnetic field is formed in the core, and a high voltage is generated by the induced electromotive force generated by the magnetic field. This high voltage is applied to the magnetron 1 through the condenser 4, and a high voltage fuse (not shown) is provided between the high voltage transformer 2 and the condenser 3 to prevent the introduction of overcurrent due to voltage fluctuations in the process. This prevents damage due to overcurrent.

Therefore, the interior of the electrical room is heated to a considerable temperature by the electronics, including the magnetron (1), if the temperature of the electrical room is excessively increased, there is a risk of product damage and fire, as well as the magnetron (1) and transformer (2) The heat loss occurs in) and the like, and the performance is deteriorated. Therefore, it is necessary to properly cool the inside of the electric room.

In the conventional cooling method, the outside air is cooled by introducing external air from the fan 5 mounted on the rear plate 6 of the cabinet, and the heat exchanged internal air is discharged through the air outlet 8 of the lower plate 7 of the cabinet. The way it is. In this manner, although the inflow of air is smooth, there is a disadvantage that it is not easy to let out the air once introduced into the outside on the position of the air outlet (8).

That is, considering the flow of air, the new air can be introduced and cooled only once the air is introduced to the outside, but the conventional structure is newly introduced air because the outside air is introduced in the state that the air is not outflowed. Cooling effect is reduced by.

In the case of a general microwave oven, the efficiency of the output is about 60%, whereas the heat energy loss reaches about 20% to 30%, and thus there is a problem that the loss of energy used for cooking food becomes large.

The present invention is devised to solve the conventional problems as described above, the present invention is to provide an electric chamber cooling structure of the microwave oven that can be made smoothly the inflow and outflow of air.

The present invention for achieving the above object is a magnetron for oscillating high frequency, a high voltage transformer and a high voltage condenser for generating the voltage and DC high voltage necessary for the operation of the magnetron, and a waveguide for dispersing the high frequency oscillated from the magnetron to the cooking chamber. In the electric equipment room of a microwave oven in which a lamp is installed, an upper inlet is formed in the upper part of the cabinet, and a cooling fan for introducing external air is provided below the upper inlet, and an air outlet is formed in the rear of the cabinet. Characterized in that the discharge fan for discharging the heat-exchanged air to the outside.

According to a preferred embodiment of the present invention as described above, an air guide is provided below the cooling fan to guide the flow of air introduced from the upper inlet.

According to another embodiment of the present invention, the lower inlet is formed in the cabinet lower plate.

According to the present invention as described above, when the fan rotates, external air is introduced from the upper inlet of the upper part of the cabinet to be heat exchanged in the inside of the electrical equipment room, and then discharged to the outside through the air outlet of the rear of the cabinet. In this way, the fan is installed at the air inlet and the air outlet, respectively, so that the outside air is introduced or the inside air is discharged to the outside of the electrical equipment room, so that the air circulation inside the electrical equipment room is smoothed and cooling efficiency is improved.

1 is a schematic view showing a full length room cooling structure of a conventional microwave oven,

Figure 2 is a schematic diagram showing a cooling room electrical structure of the microwave oven according to the present invention.

≪ Description of Codes for Major Parts of Drawings>

1: magnetron 2: high voltage transformer

3: condenser 4: waveguide

6: cabinet back plate 7: cabinet bottom plate

10: cabinet top plate 11: top inlet

12 cooling fan 13 air outlet

14: exhaust fan 15: air guide

16: lower inlet

Such a characteristic configuration and the effect according to the present invention will be more clear through the detailed description of the embodiments with reference to the accompanying drawings.

Figure 2 shows the electric room cooling structure of the microwave oven according to the present invention.

As shown, the electrical chamber includes a magnetron 1 for oscillating high frequency, a high voltage transformer 2 and a high voltage capacitor 3 for generating a voltage and a direct current high voltage necessary for the operation of the magnetron 1, and a magnetron 1; Wave guides 4 and the like are installed to disperse high-frequency oscillated from the cooking chamber (not shown). When power is applied to the high-voltage transformer 2, a magnetic field is formed in the core, and thus induced electromotive force ( High voltage is generated by the magnetron and is applied to the magnetron 1 through a capacitor (not shown).

Accordingly, a cooling structure is provided in the electric compartment to prevent the temperature rise by the electronics including the magnetron 1, thereby preventing the performance deterioration of the magnetron 1 and the transformer 2, and the like.

In the electric chamber cooling structure according to the present invention, the upper inlet 11 is installed in the cabinet upper plate 10, and a cooling fan 12 for introducing external air into the lower side of the upper inlet 11 is installed. An air outlet 13 is formed in the cabinet rear plate 6, and a discharge fan 14 for discharging the heat-exchanged air to the outside of the air outlet 13 is provided.

Accordingly, while the microwave oven is operated, the cooling fan 12 and the discharge fan 14 rotate to introduce external air from the upper end of the cabinet, and discharge the internal air to the rear side of the cabinet.

At this time, the air guide 15 is installed on the lower side of the cooling fan 12 to guide the flow of external air introduced into the battlefield chamber through the upper inlet 11 toward the magnetron 1 and the transformer 2 to improve heat exchange efficiency. You can.

On the other hand, in another embodiment of the present invention by forming a lower inlet 16 in the cabinet lower plate 7 it is also possible to allow the outside air to flow in both the upper and lower sides.

According to this, in the related art, the fan is installed only at the air inlet side, so that the air is not discharged smoothly. However, in the present invention, both the air inlet 11 of the upper end and the air outlet 13 of the rear plate 6 are both. By installing the fans 12 and 14, the circulation of air in the electrical equipment room is smoothed, and thus the cooling efficiency can be improved.

As described above, according to the present invention, the cooling efficiency of the electrical room is improved, thereby reducing the heat loss of the electronics such as the magnetron and the transformer, thereby preventing performance degradation and improving the efficiency of the microwave output. .

Claims (3)

In the electrical equipment room of a microwave oven, a magnetron oscillating high frequency, a high voltage transformer and a high voltage condenser for generating the voltage and DC high voltage necessary for the operation of the magnetron, and a waveguide for dispersing the high frequency oscillated from the magnetron in the cooking chamber are provided. , The upper inlet 11 is formed in the cabinet top plate 10, Cooling fan 12 for introducing outside air in the lower side of the upper inlet 11 is installed, An air outlet 13 is formed in the rear plate 6 of the cabinet, and an exhaust fan 14 for discharging the heat-exchanged air to the outside of the air outlet 13 is installed. . 2. The electric compartment cooling structure of a microwave oven according to claim 1, wherein an air guide (15) is provided below the cooling fan (12) to guide the flow of air introduced from the upper inlet (11). 3. The electric chamber cooling structure of a microwave oven according to claim 1 or 2, wherein a lower inlet port (16) is formed in the cabinet lower plate (7).