KR200183830Y1 - Convention device for microwave oven - Google Patents

Abstract

The present invention relates to a convection device for supplying the heat from the heater to the inside of the cavity as a whole.

Convection apparatus according to the present invention, the heater 34a, 34b provided in the heater chamber provided on the upper side of the cavity; A fan 32 installed inside the heater chamber to circulate heat in the heater into the cavity; A suction part 22 formed on an upper surface of the cavity below the fan to suck air inside the cavity to the heater chamber by the fan; A supply unit (24a, 24b) formed on one side of the upper surface of the cavity to supply the air sucked through the suction unit by the fan via the heater and then into the cavity; And it is installed on one side of the cavity, and includes a secondary fan 40 for inducing high temperature heat downward by the fan to the central portion of the cavity. The auxiliary fan 40 guides the heat downward by the fan 32 to the center of the cavity, thereby providing a smooth flow of air in the cavity as a whole.

Description

Convection device for microwave oven {Convention device for microwave oven}

The present invention relates to a microwave oven, and more particularly, to a convection apparatus of a microwave oven configured to transmit heat uniformly throughout the cavity by convection the heat of the heater throughout the cavity in the microwave oven in which the heater is built. .

A microwave oven is an apparatus which heats a heating object using a microwave. In recent years, other heating methods have been added in order to provide more various functions to the microwave oven. As an example, the installation of another heater and heating using the heat which generate | occur | produces it are mentioned.

In Fig. 1, a hood-use microwave oven (OTR) is shown as a conventional example in which a heater is built as a separate heating source. With reference to this, the configuration of a conventional microwave oven will be described. As shown in the drawing, a heater chamber 4 incorporating heaters 6a and 6b is provided above the cavity 2, which is a space where food is built in and heated in a microwave oven.

In addition, a fan 10 is installed at a central portion of the heater chamber 4, and the fan 10 is configured to rotate by a motor M installed above. On the upper surface of the cavity 2 corresponding to the bottom surface of the heater chamber 4, the suction part 8 and the supply parts 9a and 9b for circulating air by the said fan 10 are provided.

That is, the suction part 8 for inhaling air in the cavity 2 is provided in the center part of the said fan 10. In the portion corresponding to the edge of the fan 10, supply parts 9a and 9b are provided for supplying air sucked through the suction part 8 back into the cavity 2. The suction part 8 and the supply parts 9a and 9b are generally molded into a plurality of vent holes.

When the heating using the heaters 6a and 6b is to be performed in the microwave oven as described above, power is applied to the heaters 6a and 6b to generate heat and at the same time, the fan 10 operates. do. As the fan 10 is driven, air flowing from the cavity 2 through the suction part 8 is exhausted through the supply parts 9a and 9b, and at this time, heat generated inside the heater chamber 4 is generated. Heat from the heaters 6a and 6b is supplied into the cavity 2.

However, according to the conventional convection heating method configured as described above, the following disadvantages are pointed out.

First, referring to a form in which heat is convection, the heat circulating in the heater chamber 4 and the cavity 2 is formed by the suction part 8 and the supply part 9a formed on the bottom surface of the heater chamber 4. 9b). That is, the air flow circulating in the cavity passes through the suction part and the exhaust part formed on the upper surface of the cavity 2 and always passes through a predetermined route, so that the flow of air uniformly throughout the cavity 2 is maintained. Will not form.

Therefore, according to the conventional convection method, since the convection air passing through the cavity is not uniform as a whole, there is an area where the temperature distribution is not uniform inside the cavity. In particular, the central upper portion of the cavity, which can be said to be adjacent to the fan 10, has a smooth convection air flow, but the convection air flow is not smoothly at the lower edge of the cavity. There are disadvantages.

As described above, according to the flow of air discharged by the suction part 8 and the supply parts 9a and 9b directly below the fan 10 and sucked again, the flow of convection air as a whole is not smooth. Therefore, there is a disadvantage that the hot air from the heater chamber does not reach the food and is sucked again.

An object of the present invention is to provide a convection device that can flow uniformly throughout the interior of the cavity.

In this way, by forming a uniformly uniform air flow inside the cavity, it will be possible to uniformly heat the food heated in the cavity.

1 is a cross-sectional view showing the configuration of a conventional microwave oven.

Figure 2 is a cross-sectional view showing the configuration of a microwave oven of the present invention.

Explanation of symbols on the main parts of the drawings

20 ..... Cavity 22 ..... Suction

24a, 24b ..... Supply part 30 ..... Heater chamber

32 ..... fans 34a, 34b ..... heaters

40 ..... Auxiliary Fan

Convection apparatus of the microwave oven according to the present invention for achieving the above object, the heater is provided in the heater chamber provided on the upper side of the cavity; A fan installed inside the heater chamber to circulate heat from the heater into the cavity; A suction part formed on an upper surface of the cavity below the fan to suck air inside the cavity to the heater chamber by the fan; A supply unit formed on one side of an upper surface of the cavity to supply air sucked through the suction unit by the fan via the heater and into the cavity; And it is provided on one side of the cavity, and comprises a secondary fan for directing the hot air downward by the fan to the central portion of the cavity.

Therefore, according to the present invention, the secondary fan circulates the high temperature heat downwardly into the cavity by the fan of the heater chamber toward the central part of the cavity, thereby providing a smooth flow of air in the cavity. It will be possible to heat uniformly.

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

As shown in FIG. 2, the heater chamber 30 is provided at an upper portion of the cavity 20 in the microwave oven according to the present invention. The heater chamber 30 is provided with heaters 34a and 34b which operate as another heating source in the microwave oven, and a fan 32 for transferring heat from the heater into the cavity.

And the upper surface of the cavity 20 corresponding to the bottom surface of the heater chamber 30, the suction portion 22 formed in the central portion of the heater chamber 30, and is formed in the edge portion of the heater chamber 30 Supply sections 24a and 24b are provided.

The suction part 22 is for suctioning air from the cavity 20, and the supply parts 24a and 24b are the air sucked into the heater chamber 30 by the suction part 22. After the heat exchange with the 34a, 34b is the part to be supplied into the cavity 20 again. It will be common for these supply and suction sections to consist of a plurality of vents.

According to the present invention, a separate housing 44 is provided in the lower portion of the cavity 20, and an auxiliary fan 40 is provided inside the housing 44. Of course, the auxiliary vent hole 42 is formed in the side surface of the cavity 20 of the portion where the auxiliary fan 40 is installed, so that the air flow formed by the auxiliary fan 40 is inside the cavity 20. It is configured to be introduced.

And as in the general configuration, the lower surface of the cavity 20 is provided with a rotary tray 46 for placing food. The rotary tray 46 is to rotate in a state where the food is placed, so that the heat from the microwave or the heater (34a, 34b) can be uniformly irradiated to the food.

Next will be described the overall driving relationship of the microwave oven according to the present invention configured as described above.

First, when the heating is to be performed using the heaters 34a and 34b in the microwave oven, power is applied to the heaters 34a and 34b to generate heat and at the same time, the fan 32 operates. When the fan 32 is operated in this way, the air in the cavity is sucked into the heater chamber 30 through the suction part 22, and then heat exchanges with the heaters 34a and 34b therein to generate a high temperature. It becomes the heat of.

The hot air is again supplied into the cavity 20 through the outer supply parts 24a and 24b by the centrifugal force generated by the rotation of the fan 32. In addition, according to the present invention, at the same time as the rotation of the fan 32, the auxiliary fan 40 provided on the side of the cavity 20 also starts to rotate. When the auxiliary fan 40 is rotated, an air flow is formed through the rotary tray 46 at the lower portion of the cavity 20, and the air flow is heated downward through the supply part 24b. It is possible to send enough to the rotary tray 46 side.

Therefore, looking at the air flow according to the present invention, the air flow is formed in the auxiliary fan 40 is applied to the heat coming down the cavity 20 by the fan 32, the rotary tray 46 It can be seen that there is sufficient airflow to be directed.

According to the present invention as described above, by supplementing the air flow toward the rotary tray 46 to the side of the cavity 20, the entire smooth inside, especially the rotary tray 46 inside the cavity 20, It can be seen that the basic technical idea is to allow a sufficient airflow to be molded.

Within the technical scope of the present invention, of course, many other variations are possible to those skilled in the art. For example, the auxiliary fan 40 according to the present invention, the installation position and the like within the technical range that can add the air flow toward the rotary tray 46, that is, the central portion of the cavity descending downwards Many other variations are possible.

According to the present invention as described above, it can be seen that the high temperature heat directed downward from the inside of the cavity by the fan 32 is configured such that the auxiliary fan 40 is directed toward the central portion of the cavity. Therefore, according to the present invention, the auxiliary fan 40 generates a sufficient airflow toward the center of the cavity, and thus the airflow inside the cavity 20 can be formed as a whole. Due to this configuration, the food placed on the rotary tray can be heated uniformly as a whole, and the airflow via the heater chamber 30 can be expected to have an advantage that the entire cavity can be circulated smoothly. .

Claims (1)

A heater installed in a heater chamber provided above the cavity; A fan installed inside the heater chamber to circulate heat from the heater into the cavity; A suction part formed on an upper surface of the cavity below the fan to suck air inside the cavity to the heater chamber by the fan; A supply unit formed on one side of an upper surface of the cavity to supply air sucked through the suction unit by the fan via the heater and into the cavity; And It is installed on one side of the cavity, the convection device of the microwave oven, characterized in that it comprises an auxiliary fan for directing the hot heat downward by the fan to the central portion of the cavity.