KR200232522Y1 - Exhaust structure of air in cavity for ventilation hooded microwave oven - Google Patents

Abstract

The present invention relates to a microwave oven, and more particularly to a high air discharge structure of a microwave oven with a hood.

The present invention, the vent hole 50 formed on one side of the cavity 45 and the flow path guide portion for guiding the air discharged through the vent hole 50 to the front exhaust port 70 and the rear exhaust motor assembly 90 Each air duct is formed.

According to the present invention as described above, it is possible to smoothly discharge the air in the cavity 45, to prevent the explosion of the stagnant gas and the condensation of water vapor in the door.

Description

Exhaust structure of air in cavity for ventilation hooded microwave oven}

The present invention relates to a microwave oven, the humidity sensor is installed relatively adjacent to the vent hole, and the air flow structure of the high-temperature air discharge of the microwave oven with hood flows divided into the front and exhaust motor assembly.

Various kinds of apparatuses have been proposed to date as heating apparatuses for heating foods. The most basic heating device has a container in intimate contact with the heat source, it is possible to cook food by putting the contents to be cooked in such a container and applying heat.

In addition, many types of cooking apparatuses that use electric energy directly or indirectly have been developed. As an example, a microwave oven using microwaves as a heating source can be cited. A microwave oven is a cooking apparatus that generates microwaves using electricity to infiltrate a cooking object and heat the cooking object by causing molecular motion therein.

In such a microwave oven, a hood-use microwave oven is installed on the wall of the upper portion of the gas oven range and exhausts heat and smoke generated in the gas oven range.

Hereinafter, a basic configuration of the hood-use microwave oven (hereinafter, simply referred to as a microwave oven) will be described with reference to the accompanying drawings.

As shown in Figure 1, the air duct (3) is installed on the upper surface of the cavity (1) where the food is placed. The air duct 3 includes a first air duct 5 serving as a passage for discharging gas generated in the cavity 1 to the outside, and a second air duct guiding gas generated in the gas oven range to the outside of the microwave oven. (7) and a suction duct 11 which serves as a passage when suctioning outside air into the electrical equipment chamber 9.

An exhaust motor assembly 13 is mounted to the rear of the air duct 3. Intake ports 15 are provided at both ends of the exhaust motor assembly 13 to serve as a passage for sucking gas generated in the gas oven range.

In addition, the exhaust motor assembly 13 is provided with a discharge port 17 to discharge the air sucked through the inlet port 15 to the outside. The discharge port 17 formed in the exhaust motor assembly 13 may adjust the direction of the discharge port 17 to the upper part of the microwave oven or to the front side according to the direction of the gas discharged to the outside of the microwave oven.

In addition, when looking at the cavity assembly 19 forming the body of the microwave oven for hood, the left side is formed with a cavity (1) on which food is placed, and the electric compartment 9 is provided on the right side of the cavity (1). It is. The electric field chamber 9 is provided with a magnetron (not shown) and a high voltage transformer (not shown) for generating microwaves. In addition, a plurality of vent holes 20 communicating with the first air duct 5 are formed on the upper surface of the cavity 1.

The front plate 21 is formed on the front surface of the cavity assembly 19, and the front plate 21 is the first discharge port 23 through which the gas generated in the cavity 1 is discharged on the left side of the front plate 21. Is formed in the center, and a second discharge port 25 through which gas generated in the gas oven range is discharged, and a suction part 27 for introducing external air into the electric chamber 9 on the right side. .

In such a microwave oven, the smoke and heat generated from the cavity 1 during cooking are raised to the upper part of the cavity 1 through the air vent 20, and the first discharge port 23 formed on the front surface along the first air duct 5. It is guided to and discharged to the outside.

Here, the shape of the first air duct 5 related to the air discharge in the cavity 1 will be described with reference to the drawings.

As shown in FIG. 2, the first air duct 5 is provided with a lower surface 30 having a through hole 29 formed thereon at an upper portion of the cavity 1 formed therein. The side surface 32 is formed along the edge of the lower surface 30 except for the front surface, and the upper surface 34 is positioned on the upper side of the side 32 to form a space in which an opening is formed only in the front surface. do.

The upper surface 34 is formed with a through-hole corresponding to the vent 20, the humidity sensor mounting portion 36 is provided with a bolt fastening hole around. The humidity sensor mounting unit 36 is equipped with a humidity sensor 38, the humidity sensor 38 is cooked by sensing the content of moisture in the air discharged from the cavity (1) when automatic cooking is performed in the microwave oven It provides a signal for determining the progress of the.

In addition, the exhaust motor assembly 13 is mounted on the rear surface of the air duct 3 to suck the surrounding air and discharge the air outside.

Air flow in the first air duct consisting of the above configuration is as follows.

Smoke and heat generated in the cavity 1 during microwave cooking come out through the vent hole 20 formed on the upper left side, and rises upward through the through hole 29 formed on the bottom surface of the first air duct 5.

In this way, the air raised to the first air duct 5 flows toward the front surface. This is because the air flow is partitioned by the lower surface 30, the side 32 and the upper surface 34 is formed a space above the vent hole 20 except the front surface.

Air toward the front is discharged to the outside through the first discharge port 23 formed on the front plate (21).

At this time, the humidity sensor 38 mounted on the upper surface humidity sensor mounting part 36 measures the moisture contained in the air rising from the cavity 1 through the through hole 29 and sends it to the control unit.

In detail, the humidity sensor 38 measures the amount of moisture generated when the food is heated in the cavity 1, and serves to send a signal to the control unit. By the signal transmitted to the control unit, the control unit detects the cooking progress and gives an operation command.

However, the following microwave ovens have the following problems.

The air raised through the first air duct hole 29 may not be discharged to the first discharge port 23 formed on the front surface thereof, but may be stagnant in the microwave oven. This phenomenon is due to the relatively narrow space of the first air duct 5, the air inside the first air duct 5 has a higher pressure than the air in the cavity (1).

In detail, the space inside the first air duct 5 formed by the upper surface 34, the lower surface 30, and the side surface 32 is relatively narrow, and the direction of the discharged air flow path is limited to the front surface. As a result, high air discharge through the first air duct 5 does not occur smoothly.

As a result, water vapor and gas generated during cooking in the cavity 1 may not be discharged and condensation may occur on the door. In addition, the stagnant gas in the cavity 1 is exploded to act as a threat to the safety of the user.

In addition, the position of the humidity sensor 38 mounted on the humidity sensor mounting portion 36 is mounted at a certain distance from the ventilation hole 20 formed on the cavity 1, thereby measuring the accuracy of the humidity sensor 38. Degrades. As a result, the humidity sensor 38 transmits an incorrect measurement value to the control unit, thereby causing a malfunction of the device such as stopping the operation of the microwave oven even when cooking is not completed.

Accordingly, an object of the present invention is to solve the conventional problems as described above, and to provide a high internal air discharge structure of a microwave oven for hood that is smoothly discharged air in the cavity.

Another object of the present invention is to provide a high air discharge structure of a microwave oven for a hood that is configured to improve the detection degree of the humidity sensor when measuring the moisture of the air discharged from the cavity by the humidity sensor.

1 is an exploded perspective view showing a main part of the related art for an air flow path in a microwave oven.

Figure 2 is a perspective view of the air duct is mounted to the top of the conventional vent guide the air flow path.

Figure 3 is a perspective view showing a top surface of the air duct mounted on the vent hole according to the embodiment of the present invention.

Figure 4 is a perspective view showing the left side of the air duct according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

45. Cavity 50. Aeration

52. Discharge port 60. Curved top surface

70. Right side 71. First through hole

80. Horizontal wall 81. Second hole

85. Upper side 86. Third through hole

90. Exhaust motor assembly 100. Exhaust port

The high air discharge structure of the hood-only microwave oven according to the present invention for achieving the above object, the ventilation hole formed on one side of the upper cavity, and guides the air discharged to the ventilation hole to the front exhaust port and the rear exhaust motor assembly The flow guide is composed of air ducts respectively formed.

The lower portion of the air duct is formed with a humidity sensor mounting portion for mounting the humidity sensor adjacent to the vent hole.

According to the configuration as described above, by the air pressure in the air duct is formed lower than the conventional water vapor and gas is smoothly discharged, a relatively accurate measurement is made by a humidity sensor installed in close proximity to the vent.

Hereinafter, preferred embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

3 and 4 show an air duct above the vent pertaining to the exhaust of air inside the cavity.

A cavity 45, which is a space where food is heated, is formed inside the microwave oven. The cavity 45 is provided with a ventilation hole 50 on the upper left side to discharge the steam and gas generated when cooking. In addition, a discharge port 52, which is a passage through which air exited to the vent hole 50 is discharged, is integrally formed with the cavity 45 on the upper front surface of the cavity 45.

The upper portion of the vent 50 has a predetermined curvature and a convex space in the shape of a dome is formed by the curved upper surface 60 inclined upward. The curved upper surface 60 is located on the left side and the upper left side of the vent 50.

The right side surface 70 is located perpendicular to the upper surface of the cavity 45 at the right side of the vent hole 50. The right side surface 70 is shaped like a plate, and a lower end portion is formed with a first through hole 71 through which an air passage passes.

The horizontal wall 80 formed perpendicular to the right side surface 70 is installed to increase the structural strength of the air duct, and also has a second through hole 81 having a predetermined space through the lower portion.

In addition, the upper side surface 85 is positioned at the upper right side of the vent hole 50 and perpendicular to the upper surface of the cavity 45. The third through part 86 serving as a passage is formed. An exhaust motor assembly 90 is mounted to the rear of the air duct adjacent to the third through part 86 to inhale ambient air and discharge the outside air.

The humidity sensor mounting portion 95 in which the humidity sensor mounting groove and the fastening hole are formed in a rectangular shape is located near the vent hole 50 on the upper side 85. In addition, the humidity sensor mounting unit 95 is equipped with a humidity sensor 97 for measuring the moisture contained in the air coming from the cavity 45.

The upper opening portion 98 is formed at the upper portion of the air duct by the upper and right side surfaces 71 and the upper side surfaces 85 of the curved upper surface 60. The upper opening 98 is shielded by an outer case when the microwave oven is assembled, and is formed for the expansion of the upper space of the vent hole 50.

The exhaust port 100, which is a passage through which air is discharged to the outside, communicates with a space above the vent hole 50 formed by the curved upper surface 60, the right side surface 71, and the upper side surface 85. Is formed. The exhaust port 100 is inserted into the discharge port 52 formed above the cavity 45.

Air flow in the air duct having the above configuration is as follows.

In the cavity 45, the air including the gas and the water vapor rises upward through the vent hole 50 to reach a space formed by the curved upper surface 60, the right side 70, and the upper side 85.

The air has two directions of flow in order to be discharged to the outside.

The first airflow is a straight channel that flows to the front. In detail, the air raised through the vent 50 flows toward the front surface and is discharged to the front of the microwave oven through the exhaust port 100 integrated with the air duct on the front surface.

In addition, the second air flow is sucked into the exhaust motor assembly 90 and has a flow path discharged to the outside. In detail, the air raised to the upper portion of the cavity 45 through the air vent 50 is formed in the lower portion of the right side surface 70 and the second through portion 81 formed at the bottom of the horizontal wall 80. ) In order to pass through the upper side third through hole (86). Then, the exhaust motor assembly 90 is sucked into the intake port formed at one end and discharged to the outside.

On the other hand, the humidity sensor 97 mounted on the humidity sensor mounting portion 95 is improved in accuracy by being located adjacent to the ventilation hole 50 than before, thereby sending more accurate moisture content of the air exhausted from the cavity to the control unit. It becomes. Based on this information, the control unit judges the cooking state of the food and issues an operation command.

As described above, the flow of air discharged from the cavity 45 is smoothed by the high air discharge structure according to the present invention.

For this reason, first, an air flow toward the exhaust motor assembly 90 is further formed, thereby preventing the phenomenon of air stagnation in the upper portion of the vent hole 50.

Secondly, the pressure inside the air duct is lower than that of the related art by expanding the flow area of air flowing out of the air vent 50 and passing through the air duct. Therefore, the air of the cavity 45 is smoothly discharged through the vent hole 50.

In addition, the humidity sensor 97 is installed adjacent to the vent hole 50 from which the air rises from the cavity 45, so that the detection degree of the humidity sensor 97 is improved, so that accurate information is transmitted to the control unit. This can prevent the malfunction of the equipment.

The high internal air discharge structure of the hood-use microwave oven according to the present invention as described in detail above is formed by relatively large internal area of the air duct formed in the upper part of the air vent, and the air flow flows into the front and the exhaust motor assembly. There is an effect that the air including the gas and water vapor in the cavity is discharged smoothly.

In addition, the humidity sensor is installed adjacent to the ventilation hole, it is possible to obtain the effect that it is possible to relatively accurately detect the humidity value inside the cooking chamber.

Claims (2)

A vent formed on one side of the cavity, The air discharge structure of a high-temperature hood for a microwave oven, characterized in that it comprises an air duct formed in each of the flow path guide portion for guiding the air discharged through the vent hole to the front exhaust port and the rear exhaust motor assembly. According to claim 1, Under the air duct is a high air discharge structure of a microwave oven hood, characterized in that the humidity sensor mounting portion is mounted to the humidity sensor adjacent to the vent is formed.