KR20020042348A - A humidity sensing apparatus for micro wave oven - Google Patents

Abstract

PURPOSE: A humidity detecting apparatus of a microwave oven is provided to detect humidity in a cooking chamber accurately by discharging air from the cooking chamber with driving force of an exhaust fan assembly, and by installing a humidity sensor. CONSTITUTION: A humidity detecting device of a microwave oven is composed of a cavity(20) having a cooking chamber(22), an intake port(25) sucking air to the cooking chamber, and an exhaust port(28) discharging air form the cooking chamber; a humidity sensor(42) placed in the air flow passage from the exhaust port; and an exhaust fan assembly(50) forcibly discharging air from the cooking chamber to the exhaust port. A sensor duct(40) is installed in the exhaust port, and a connecting hole(44) is formed in the sensor duct to flow air from the exhaust fan assembly to the sensor duct. Humidity is detected accurately with mounting the humidity sensor in the sensor duct.

Description

A humidity sensing apparatus for micro wave oven

The present invention relates to a microwave oven, and more particularly, to a humidity sensing apparatus of a microwave oven for sensing humidity in a cooking chamber of a microwave oven.

1 shows that the humidity sensing device is installed in a microwave oven according to the prior art. As shown in the drawing, the cooking chamber 3 is formed inside the cavity 1 serving as a frame of the electronic lane. In the cooking chamber 3, food is input and cooking is performed while being heated by heat of a microwave or a heater.

One side of the cavity 1 is provided with an electrical equipment chamber 5 in which various electronic components for oscillation of microwaves are installed. One side wall of the cavity 1 of the electric compartment 5 is equipped with a magnetron 7 for oscillating microwaves. The magnetron 7 scans microwaves into the cooking chamber 3. In addition to the magnetron 7, a plurality of electric component parts are installed in the electric compartment 5.

On the other hand, on the side wall of the cavity 1 partitioning the electric compartment 5 and the cooking compartment 3, an inlet for transferring some of the outside air sucked into the electric compartment 5 into the interior of the cooking compartment 3; (8) is formed. The intake port 8 is formed next to the magnetron 7, and the air passing through the magnetron 7 is guided and delivered by a separate guide duct (not shown).

In addition, a discharge port 9 is formed at one side of the cavity 1, that is, an opposite side wall of the electric chamber 5 so that the air circulates inside the cooking chamber 3 and contains and discharges water vapor generated during cooking. have.

Next, the sensor bracket 10 is installed to be mounted on one side wall of the cavity 1 in which the discharge hole 9 is formed. The sensor mounting hole 11 is drilled in the sensor bracket 10, and the humidity sensor 12 is mounted in the sensor mounting hole 11. At this time, the humidity sensor 12 is installed to face the discharge port (9). When the humidity sensor 12 performs automatic cooking in a microwave oven, the humidity sensor 12 detects humidity caused by water vapor generated in the cooking chamber 3 and provides a signal for determining the progress of cooking.

However, the microwave oven according to the prior art as described above has the following problems.

The humidity sensor 12 is to detect the moisture contained in the air discharged through the discharge port (9). However, the air in the cooking chamber 3 is discharged by natural convection through the discharge port 9. Therefore, air that may reflect the humidity of the inside of the cooking chamber 3 is not continuously discharged through the discharge port 9.

In this case, accurate humidity inside the cooking chamber 3 is not detected by the humidity sensor 12, which does not properly detect the progress of automatic cooking, thereby preventing cooking.

Therefore, an object of the present invention is to solve the problems of the prior art as described above, to more accurately detect the humidity of the interior of the cooking chamber.

1 is a partial cutaway perspective view showing a configuration of a microwave oven according to the prior art and the humidity sensing device installed therein.

Figure 2 is an exploded perspective view showing the configuration of a preferred embodiment of the humidity sensor of the microwave oven according to the present invention.

3 is an operating state diagram illustrating an operating state of an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

20: cavity 22: cooking chamber

24: front plate 24i: suction part

24e: discharge portion 25: inlet port

27: upper plate 28: exhaust port

30: battlefield 40: sensor duct

42: humidity sensor 44: communication hole

50: exhaust fan assembly

According to a feature of the present invention for achieving the object as described above, the present invention is provided with a cooking chamber therein and an intake port for sucking outside air into the cooking chamber and an exhaust port for exhausting air circulated through the cooking chamber to the outside. It comprises a cavity, a humidity sensor positioned on the flow of air discharged through the exhaust port, and the exhaust fan assembly for forcibly exhausting the air in the cooking chamber through the exhaust port.

The humidity sensor is mounted to a sensor duct installed to shield the exhaust port of the cavity, the sensor duct is formed with a communication hole for communication with the air flow formed in the exhaust fan assembly.

The exhaust port is preferably formed on the upper surface of the cavity.

According to the present invention having such a configuration, while installing the humidity sensor in the exhaust flow while forcibly exhausting the air in the cooking chamber, there is an advantage that it is possible to more accurately detect the humidity state inside the cooking chamber.

Hereinafter, a preferred embodiment of the humidity sensing device of the microwave oven according to the present invention as described above will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the cooking chamber 22 is provided in the cavity 20 forming the frame of the microwave oven. The cooking chamber 22 is a portion where cooking is performed by heat of a microwave or a heater therein.

The front surface of the cavity 20 is formed by the front plate 24, the front plate 24 is a portion corresponding to the cooking chamber 22 is open and the suction portion 24i and the upper and lower portions thereof, respectively; The discharge part 24e is formed. The suction unit 24i is a portion that serves as a passage for sucking external air into the microwave oven, and the discharge unit 24e discharges air that has undergone heat radiation while passing through the inside of the microwave oven to the outside. It is a part.

On the other hand, the inlet port 25 is formed on the side wall of the cavity 20 that divides the cooking chamber 22 and the electric compartment 30 to be described below. The intake port 25 is a portion through which air for sucking air into the cooking chamber 22 and discharging water vapor generated during cooking to the outside.

The upper plate 27 is installed on the upper surface of the cavity 20. An exhaust port 28 through which the air circulated in the cooking chamber 22 is discharged is formed on the upper plate 27. In addition, various components including a heater (not shown) are installed on the upper plate 27.

One side of the cavity 20 is provided with an electrical equipment room 30. The electrical equipment room 30 is provided with various electronic components for providing microwaves into the cooking chamber 22. Examples of the electrical components installed therein include a magnetron, a high voltage capacitor, a high voltage transformer and the like.

The sensor duct 40 is installed to shield the exhaust port 28 formed on the upper surface of the cavity 20. The sensor duct 40 is formed in a substantially rectangular parallelepiped shape, and the humidity sensor 42 is installed on one side wall. The humidity sensor 42 is for sensing the humidity inside the cooking chamber 22. And a communication hole 44 is formed on one side of the upper surface of the sensor duct 40. Such communication hole 44 is formed long in a rectangular shape.

Meanwhile, an exhaust fan assembly 50 is installed on the upper plate 27 corresponding to one end of the cavity 20. The exhaust fan assembly 50 forms a flow of air in the microwave oven, and the air is discharged in the circumferential direction of the rotating fan by suctioning air through both ends of the fan, and the side of the cavity 20. To be guided down through.

Hereinafter, the operation of the humidity sensing device according to the present invention having the configuration as described above will be described.

When cooking is performed in the cooking chamber 22, some of the air sucked into the electric chamber 30 is transferred to the cooking chamber 22 through the inlet 25. The air is discharged through the exhaust port 28 by containing steam generated during cooking in the cooking chamber 22.

On the other hand, the exhaust fan assembly 50 is operated together when cooking is started in a microwave oven, thereby forming a flow of air in the microwave oven by the driving.

At this time, the air inside the sensor duct 40 is discharged through the communication hole 44 by the air flow formed by the exhaust fan assembly 50. That is, the air containing the water vapor in the cooking chamber 22 flows from the cooking chamber 22 to the sensor duct 40 through the exhaust port 28 by the airflow formed by the exhaust fan assembly 50. Is discharged, and is again discharged to the outside of the sensor duct 40 through the communication hole 44 in the interior of the sensor duct 40.

In addition, the air discharged to the outside of the sensor duct 40 is indicated by dotted lines in one side of the cavity 20 and in FIG. 3 along the air flow formed by the exhaust fan assembly 50. It is moved to the lower part of the microwave oven through the outer case, and is discharged to the outside through the discharge part 24e.

In this configuration, the air inside the cooking chamber 22 is forcedly discharged into the sensor duct 40 by the airflow formed by the exhaust fan assembly 50. Therefore, the air inside the cooking chamber 22 is always discharged in the sensor duct 40 at that time. This means that air that can reflect the humidity of the inside of the cooking chamber 22 is always delivered to the inside of the sensor duct 40.

As a result, the humidity sensor 42 is in the flow of the air flow that can reflect the internal state of the cooking chamber 22 is to be able to always detect the exact humidity state.

The humidity sensor device of the microwave oven according to the present invention as described in detail above to allow the air in the cooking chamber to be discharged by using the driving force of the exhaust fan assembly to form a flow of air in the microwave oven, the flow of the discharged air Since the humidity sensor is installed inside the sensing chamber to sense the humidity, the humidity inside the cooking chamber can be detected relatively accurately.

Claims (3)

A cavity having a cooking chamber formed therein and having an inlet for sucking outside air into the cooking chamber and an exhaust port for exhausting air circulated through the cooking chamber to the outside; A humidity sensor positioned on a flow of air discharged through the exhaust port; And an exhaust fan assembly configured to forcibly exhaust the air inside the cooking chamber through the exhaust port. The method of claim 1, wherein the humidity sensor is mounted to a sensor duct installed to shield the exhaust port of the cavity, the sensor duct is characterized in that the communication hole for communication with the air flow formed in the exhaust fan assembly is formed Range humidity sensor. The humidity sensing device of the microwave oven according to claim 1 or 2, wherein the exhaust port is formed on an upper surface of the cavity.