KR100402459B1 - Heater cooling device for ventilation hooded microwave oven - Google Patents

Abstract

The present invention relates to a cooling apparatus for more efficiently cooling a heater installed in a microwave oven for hood.

The cooling device according to the present invention includes a heater (30) installed on the upper surface (51) of the cavity (1), and passages (45a, 45b) moving upward through the side surface of the cavity from the suction portion (44) of the lower surface. ; And an exhaust fan assembly 20 installed at an upper rear side of the cavity to exhaust the air sucked through the passage to the outside via the heater. Then, the air flow generated in the cooling fan 25 provided in the electrical equipment room 24 provided on the side of the cavity is exhausted through the cavity exhaust 21 of the upper surface of the cavity through the inside of the cavity, and then the front surface is passed through the heater. To exhaust. Therefore, by simultaneously cooling the heater 30 by the cooling fan 25 and the exhaust fan assembly, the heater can be cooled more efficiently.

Description

Heater cooling device for hooded microwave oven {Heater cooling device for ventilation hooded microwave oven}

The present invention relates to a device for cooling a heater mounted in a microwave oven with hood, and more particularly, to a cooling device configured to sufficiently cool the heater using an exhaust fan assembly mounted in the hood microwave oven. .

The hood-use microwave oven is provided in the upper part of a gas oven range, and has an exhaust function which exhausts the heat | fever etc. which generate | occur | produce in a gas oven range. In recent years, microwave ovens have been equipped with a heater in order to have a variety of heating functions. For example, in order to brown the surface of a heating object, it has been developed to provide a separate light emitting heater.

Based on FIG. 1 and FIG. 2, a hood-use microwave oven (hereinafter, simply referred to as a microwave oven) having such a heater will be described.

1 is a plan view illustrating a top surface of a microwave oven with the outer case of the microwave oven removed; As shown, the exhaust fan assembly 2 is provided at the upper rear end of the microwave oven. The exhaust fan assembly 2 introduces air through the lower end of the microwave oven, passes through the inside of the microwave oven, and then forms a flow of air to exhaust the outside of the microwave oven. Such an exhaust fan assembly 2 is used only when exhausting heat or the like generated in a gas oven range provided substantially below.

As can be seen with reference to Figure 2, the heater 4 is provided on the upper surface of the microwave oven adjacent to the exhaust fan assembly (2). The heater 4 may be constituted by, for example, a halogen heater, and provides proper heating to provide a high temperature heat required for heating the food in the cavity 1 in a short time, or to provide a suitable heating to brown the surface of the food. It will perform the function of adding to.

The heater 4 is blocked at the top by the heater cover 6 as shown. The heater cover 6 has a function of reflecting light and heat energy generated from the heater into the lower cavity 1 and at the same time, so that the heat from the heater 4 is not conducted upward. .

The heat generated by such a heater 4 is relatively very high temperature. Therefore, the heater 4 and the heater cover 6 should be sufficiently cooled to prevent thermal deformation of the peripheral parts thereof, as well as to secure safety.

The conventional structure for cooling the heater 4 will be described. Reference numeral 8 is a cooling fan provided in the upper part of the electrical equipment chamber 9 to form a downward airflow, and to radiate the magnetron and the high pressure transformer (not shown) installed in the electrical equipment chamber. As shown in FIG. 1 and FIG. 2, the heater 4 is cooled by using a part of the air flow generated by the cooling fan 8.

The flow of the airflow for cooling the heater 4 will be described. The air pro generated in the cooling fan 8 first flows downward in the electric chamber 9 to cool the magnetron and the high pressure transformer therein. At this time, the air introduced into the electric compartment 9 by the driving of the cooling fan 8 is introduced through the right intake portion 10b of the grill 10 installed in the upper front of the microwave oven. Part of the flow of air introduced by the cooling fan 8 is introduced into the cavity 1 through the cavity inlet 10 formed by a plurality of vent holes on the right side of the cavity 1.

The air flow circulated inside the cavity 1 is exhausted like water vapor generated during heating in the cavity. The exhaust from the inside of the cavity to the outside comes out through the exhaust portion 1a formed on the upper surface of the cavity. In this way, the airflow which came out of the upper part of the cavity 1 is exhausted through the grill 10a of the front surface of a microwave oven via the part where the said heater 4 is installed.

According to the conventional cooling method configured as described above, since only a part of the heater 4 and the heater cover 6 passes through, there is a disadvantage in that the heater and the heater cover cannot be sufficiently cooled.

According to the conventional structure as described above, there was a disadvantage that the heater 4 and the heater cover 6 are not sufficiently cooled. To compensate for this disadvantage, that is, the heater 4 and the heater cover 6 are sufficiently cooled. In order to achieve this, a separate airflow is required, and for this airflow, it is required to install a separate cooling fan.

However, it is not practical to install a separate cooling fan in the upper part of the cavity of the hood-use microwave oven as well as structurally complicated, resulting in an increase in manufacturing cost.

An object of the present invention is to provide a cooling apparatus capable of sufficiently cooling a heater of a microwave oven by using an exhaust fan assembly without providing a separate cooling fan.

1 is a plan view of a conventional microwave oven.

2 is a cross-sectional view showing a front configuration of a conventional microwave oven.

3 is a plan view of a microwave oven according to the present invention;

Figure 4 is a cross-sectional view showing a front configuration of a microwave oven according to the present invention.

Figure 5 is a partial perspective view showing the structure of the heater portion according to the present invention.

Explanation of symbols on the main parts of the drawings

1 ..... Cavity 24 ..... Battlefield

25 ..... cooling fan 30 .... heater

32 ..... Heater cover 45 ..... Passage

In order to achieve the above object, there is provided a cooling apparatus for a microwave oven according to the present invention comprising: a heater installed on an upper side surface of a cavity; A passage through which air sucked in through the bottom of the microwave is moved upwardly through the side of the cavity; An exhaust fan assembly installed at an upper rear side of the cavity to exhaust air sucked through the passage to the outside through the heater; And a cooling fan installed in the electrical equipment room provided at the side of the cavity and exhausting the airflow generated therethrough through the cavity exhaust portion of the upper surface of the cavity through the inside of the cavity, and then exhausted to the front via the heater. do.

According to the present invention as described above, by cooling the heater by using an exhaust fan assembly that sucks the air down from the microwave oven and exhausts it to the outside, there is an advantage that the heater that generates heat in a high temperature state can be sufficiently cooled.

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

Referring to Figures 3 and 4 will be described for the cooling air flow according to the present invention. As shown, according to the present invention, the basic idea is to cool the heater 30 installed above the cavity by further using the exhaust fan assembly 20 provided above the rear of the microwave oven.

According to this invention, it is comprised so that sufficient cooling is possible by using two airflows in order to cool the heater 30 provided in the upper side of the cavity 1. The two airflows for cooling the heater 30 are the cooling fan 25 installed above the electric chamber 24 and the exhaust fan assembly 20 installed at the upper rear end of the microwave oven. .

First, the cooling air flow by the cooling fan 25 installed in the electrical equipment room 24 will be described. As shown in the figure, a cooling fan 25 is provided in the electrical equipment room 24 provided on the right side of the cavity 1. The cooling fan 25 is installed inside the electrical equipment room 24 to cool a heat generating component that generates heat when the microwave oven is driven, for example, a magnetron generating microwaves and a high pressure transformer for applying high pressure. will be. And the flow of air for cooling the heater 30 by using a part of the air flow generated in the cooling fan 25 is the same as the conventional. In brief, a part of the air flow generated from the cooling fan 25 is transferred from the electrical equipment room 24 to the cavity 1 through the cavity inlet 23 formed on the side surface 1a of the cavity 1. Inflow. Here, the airflow generated by the operation of the cooling fan 25 flows in through the suction part 42 of the grill 40 installed in the upper end of the microwave oven.

And exhausted from inside the cavity is via the cavity exhaust part 21 which makes the some ventilation hole in the upper surface 1b of a cavity. The airflow exiting the upper portion of the cavity through the cavity exhaust portion 21 is drawn out through the exhaust portion 41 formed on the left side of the grill 40 installed in the upper front of the microwave oven. As shown in FIG. 3, since the air flow exiting the exhaust portion 41 of the grill 40 from the cavity exhaust portion 21 comes into contact with a part of the heater 30 and the heater cover 32, This allows the heater 30 to be cooled.

As described above, according to the present invention, the heater 30 is primarily cooled by using a part of the air flow generated by the cooling fan 25 installed in the electrical equipment room 24.

Next, another air flow for cooling the heater 30, that is, the air flow generated by the exhaust fan assembly 20 will be described. In fact, the airflow formed by the exhaust fan assembly 20 is a much stronger flow of air than the airflow formed by the cooling fan 25 installed in the electrical equipment chamber 24. Therefore, it is a matter of course that the air flow formed by the exhaust fan assembly 20 can cool the heater 30 more efficiently, and the present invention focuses on this point.

When the exhaust fan assembly 20 is operated, air at the bottom of the microwave oven flows into the microwave oven, and is then exhausted to the outside of the microwave oven. On the bottom of the microwave oven, a suction unit 44 into which air from below is introduced is formed. The airflow introduced through the suction part 44 moves upward along the passages 45a and 45b formed between the inner surface of the cavity 1 and the outer casing of the microwave oven. At this time, the passage 45a is formed at the bottom of the cavity 1, and the passage 45b extends upward through the side portion of the cavity 1.

The airflow moved upward along the passages 45a and 45b is moved from the upper end side of the microwave oven to the rear side where the exhaust fan assembly 20 is installed, and the airflow moving along this path. As shown by the arrow, while passing through the heater 30 and the heater cover 32 is to cool them.

The air moved to the exhaust fan assembly 20 is exhausted to the outside of the microwave oven. The exhaust to the outside of the microwave oven is exhausted through the grill 40 on the front side according to the type of the microwave oven. It is also possible to be configured to be exhausted to the outdoor side along the passage that is guided to the rear of the exhaust fan assembly 20 to the outdoor side in the portion where the microwave oven for hood is installed.

5 shows the flow of air for cooling the heater 30 by the exhaust fan assembly 20 and the flow of air for cooling the heater 30 by the cooling fan 25 as shown above. It is. As shown, the heater 30 and the heater cover 32 are provided in the upper surface 50 of the cavity. An exhaust fan assembly 20 is installed at a rear side, and a cavity exhaust 21 in which air in the cavity 1 is exhausted to the outside is formed at a plurality of vents on the front side of the exhaust fan assembly 20. It is.

And the air duct member 52 is provided to surround the upper portion of the heater 30 and the heater cover 32. The air duct member 52 allows the air flow for cooling the heater 30 and the heater cover 32 to pass through the inner surface thereof, whereby the air flow is applied to the heater 30 and the heater cover 32. It's going to flow closer. The air duct member 52 is actually installed in a horizontal shape so as to occupy the upper portion of the heater 30 and the heater cover 32, both sides thereof are in an open state, and as shown by arrows, the air flow is It is supposed to flow inside. In addition, by being actually installed in a horizontal state with a predetermined interval with respect to the heater 30, the airflow flowing therein is configured to form a more smooth air flow closer to the heater.

As shown in the drawing, the airflow generated in the cooling fan 25 and introduced into the cavity 1 and exiting through the cavity exhaust 21 is heated at the upper surface 51 of the cavity, as shown. It flows through the 30 and the part of the heater cover 32, and exits through the exhaust part 41 of the grill 40 in the front of a microwave oven. At this time, the right side of the air duct member 52 installed in the upper portion of the heater 30 enters the inside thereof, and actually flows closer to the heater cover 32, so that the heater 30 and the heater cover more smoothly. Cool 32.

And the flow of air by the exhaust fan assembly 20, the air flow moved upward through the passage 45b formed between the outer case on the left side of the cavity, the exhaust fan assembly 20 from the side Will flow to the side. This airflow actually flows to the exhaust fan assembly 20 while passing through the inside from the left side of the air duct member 52. In this way, while flowing from the side passage (45b) toward the exhaust fan assembly 20 which is installed at the rear side, and further flows through the inside of the air duct member 52, the heater 30 and the heater cover 32 are concentrated. It will be appreciated that it will be possible to cool.

Looking at the two air flows as described above, it can be seen that the air exiting the cavity exhaust portion 21 and exhausted to the exhaust portion 41 of the grill 40 mainly cools the front portion of the heater 30. . And it can be seen that the air flow formed by the exhaust fan assembly 20 mainly cools the rear part of the heater 30.

As described above, according to the present invention, it is a basic technical idea to cool the heater by simultaneously using the cooling fan 25 installed in the electrical equipment room and the exhaust fan assembly provided at the rear end of the upper surface.

Many other modifications will be possible to a person skilled in the art within the scope of the basic technical spirit of the present invention, and the present invention may not be limited by these modifications.

According to the present invention as described above, by cooling the heater using the exhaust fan assembly in a microwave oven with a hood, the effect that can sufficiently cool the heater and the heater cover will be expected. When the high temperature heating part sufficiently cools the heater and the heater cover, it becomes possible to prevent overheating of the entire microwave oven and to sufficiently secure the reliability of the operation.

Claims (3)

A heater installed on an upper side of the cavity; A passage through which air sucked in through the bottom of the microwave is moved upwardly through the side of the cavity; An exhaust fan assembly installed at an upper rear side of the cavity to exhaust air sucked through the passage to the outside through the heater; And It is installed in the electrical equipment room provided on the side of the cavity, and the air flow generated by the exhaust through the cavity exhaust portion of the upper surface of the cavity through the cavity, and comprises a cooling fan to be exhausted to the front via the heater Heater cooling device for hood and microwave oven. delete 2. The heater cooling apparatus of claim 1, further comprising an air duct member disposed on a horizontal plane at an upper portion of the heater to further bring the air flow flowing toward the heater closer to the heater side. .