KR100413899B1 - A hygro-sensor assembling structure of air guide for microwave-oven - Google Patents

Abstract

The present invention relates to a humidity sensor coupling structure of an exhaust port for a microwave oven, wherein a conical curved portion 1 is formed on the front surface of the exhaust port 10, and exhaust air is directed to the outside of the curved portion 1. A rectangular ventilation hole 3 is formed to be discharged, and a sensor coupling hole is formed such that a humidity sensor S is coupled to one side of an upper flat surface 5 partitioned from the outside by a shielding wall 7 formed vertically from a periphery. It consists of the structure which formed 5A).

The present invention as described above through the humidity sensor (S) before the discharged air to the outside, it is possible to accurately detect the amount of water vapor contained in the discharged air.

In addition, the present invention is smoothly discharged because the air is discharged in a shape that is diffused backward through the curved portion (1).

Description

A hygro-sensor assembling structure of air guide for microwave-oven}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave oven, and in particular, a conical curved portion is formed in front of an exhaust port of a microwave exhaust panel, and a ventilation hole is formed in a surface facing the curved portion of the exhaust port, while humidity is provided on the flat surface. It is configured to accurately sense the humidity emitted through the exhaust port by coupling the sensor, and more particularly relates to the humidity sensor coupling structure of the exhaust port for microwave ovens suitable for a microwave oven.

In general, microwaves are prepared by heating microwaves inside and outside the food by irradiating microwaves with magnets, using frictional heat caused by the translational movement of water molecules in the food. The high thermal efficiency significantly reduces the cooking time of food and reduces the loss of nutritional value during cooking, thawing and warming.

In addition, when cooking by a microwave, it is widely used in recent years because it can be conveniently used by directly cooking food while stored in a container.

In particular, recently developed microwave ovens can be combined with cooking appliances such as stoves and ovens by adding a hood function to minimize the installation space of the microwave oven and make cooking of food more convenient and efficient. To lose.

Microwave oven as described above can perform a unique function, such as cooking food by microwave, of course, when using a gas stove or oven, such as steam or smoke discharged during the cooking process of the duct To be discharged to the outside.

On the other hand, when cooking food by a microwave, a large amount of water vapor is generated due to its characteristics. In a microwave oven having a conventional structure, the amount of water vapor generated is linked to the cooking mode and operation start time of the microwave oven according to the moisture increase and decrease rate. Determine the cooking of food.

1 is a humidity sensor (S) for detecting the amount of water vapor generated from food as described above, and providing an installation space of the humidity sensor (S), while the exhaust port for providing a discharge path of air including water vapor ( As a perspective view of 110, the exhaust port 110 is coupled to the upper cooking chamber of the microwave oven is formed on one side of the upper side of the exhaust panel 150 to perform the duct function.

A rectangular opening 101 is formed at the front of the exhaust port 110, and a through hole 103 is formed at an upper portion thereof so that the humidity sensor S is coupled thereto.

Such a conventional exhaust port 110, the humidity sensor (S) coupled to the upper portion of the exhaust port 110 during the operation of the microwave oven as shown in FIG. 2 to the amount of water vapor in the air discharged to the outside through the opening 101 It detects and transmits an electrical signal proportional to the amount of water vapor to the microcomputer of the controller. The microcomputer interlocks with the cooking mode and the start time of operation to determine the cooking degree of the food according to the rate of moisture increase and control the amount of irradiation of the microwave.

However, in the conventional exhaust port 110 as described above, since the means for guiding the exhaust air to the humidity sensor S is not provided in the process of discharging the exhaust air including water vapor to the outside, most of the exhaust air is the humidity sensor. Accurate humidity detection is difficult by being discharged directly through the opening 101 without passing through (S).

In addition, as the exhaust efficiency is lowered by the inclined surface 102 formed at the lower portion of the opening 101, there is a problem that the air does not flow smoothly.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and the technical problem of the present invention is to form a conical curved surface in front of the exhaust port of the microwave exhaust panel, and to form a rectangular surface opposite the curved portion of the exhaust port. While forming the air vents, the upper part of the flat surface is combined with a humidity sensor to provide a means for accurately sensing the humidity emitted through the exhaust port.

Technical problem of the present invention as described above, in the coupling structure of the humidity sensor coupled to the exhaust port of the exhaust panel for inducing the discharge of air to detect the amount of water vapor in the exhaust air,

A conical curved portion is formed in front of the exhaust port, and a rectangular vent hole is formed on the opposite surface of the curved portion so that the exhaust air is discharged to the outside.

It is achieved by providing a humidity sensor coupling structure of the exhaust port for the microwave oven, characterized in that the sensor coupling hole is formed so that the humidity sensor is coupled to one side of the upper flat surface partitioned from the outside by a shielding wall formed vertically from the peripheral portion.

Hereinafter, the humidity sensor coupling structure of the exhaust port for a microwave oven according to the present invention will be described in detail with the accompanying drawings.

1 is a perspective view of main parts of an exhaust panel having an exhaust port of a conventional structure;

2 is a cross-sectional view showing a state in which the humidity sensor is coupled to the conventional exhaust port shown in FIG.

3 is a perspective view of main parts of the humidity sensor coupling structure according to the present invention;

4 is a cross-sectional structural view of the present invention shown in FIG.

5A and 5B illustrate the operation of the present invention.

<Explanation of symbols for main parts of drawing>

1 curved part 3: aeration hole

5: flat surface 5A: sensor coupling hole

7: shielding wall 10: exhaust port

50: exhaust panel S: humidity sensor

Figure 3 is a perspective view of the main portion of the humidity sensor coupling structure according to the present invention, Figure 4 is a cross-sectional structural view of the present invention shown in Figure 3, the present invention is on top of the exhaust panel 50 coupled to the cooking chamber top of the microwave oven. It is formed to induce the discharge of air introduced from the lower, while providing a combined space of the humidity sensor (S) for sensing the amount of water vapor in the air.

The present invention forms a curved portion 1 having a conical shape in front of the exhaust port 10 to guide the steam-containing air introduced from the lower side in accordance with the operation of the blower fan not shown, and the curved portion described above. The rectangular vent hole 3 for discharging air to the outside is formed in the back surface located in the opposing surface of (1).

The vent hole 3 is formed in a state of downwardly extending from the flat surface 5 formed at an upper portion by an extended portion ('L' portion in the drawing) at a predetermined interval, so that the exhaust air introduced from the lower portion is formed in the vent hole 3. ) To prevent direct discharge to the outside.

Subsequently, a sensor coupling hole 5A is formed at one side of the upper flat surface 5 partitioned from the outside by a vertically shielded wall 7, and is contained in exhaust air inside the sensor coupling hole 5A. A disk-shaped humidity sensor S that detects the amount of water vapor and converts it into an electrical signal and delivers it to the microcomputer of the controller is combined.

The operation and effects of the present invention described above will be described below.

The humidity sensor coupling structure of the exhaust port for a microwave oven according to the present invention is formed on the upper side of one side of the exhaust panel 50 to induce the flow of the exhaust air introduced from the bottom in the microwave oven for hood to discharge the air introduced from the bottom On the other hand, it provides a coupling space of the humidity sensor (S) for sensing the amount of water vapor in the air.

The present invention as described above is the action of the extension formed in the upper portion of the vent hole 3 in the process of the exhaust air containing water vapor is introduced from the lower portion of the exhaust port 10 and discharged to the outside through the vent hole 3 as shown in FIG. By the vent hole 3 is not directly discharged to the outside, it is via the humidity sensor (S) coupled to the flat surface (5).

Therefore, the present invention can measure the exact amount of water vapor contained in the exhaust air, so that the control of the microwave is made more effective.

In addition, since the air is discharged in the shape of being diffused backward through the curved portion 1 as shown in Figure 5b in the process of air is discharged through the vent hole 3 according to the above-described process is smoothly discharged.

As described above, the present invention constitutes a front surface of the exhaust port 10 of the microwave exhaust panel 50 with a conical curved surface, and has a rectangular vent hole on the surface facing the curved portion 1 of the exhaust port 10. (3), the exhaust air discharged through the exhaust port (10) is coupled to the humidity sensor (S) on top of the flat surface (5) partitioned by the shielding wall (7). Via.

Therefore, the present invention accurately detects the amount of water vapor contained in the exhaust air.

In addition, the present invention is discharged in a shape in which the discharge air is diffused to the rear by the curved portion 1 of the exhaust port 10 in the process of the air is discharged through the vent (3), such as the smooth discharge of air There are many effects.

The present invention has been shown and described with respect to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the gist of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (1)

In the coupling structure of the humidity sensor (S) coupled to the exhaust port 10 of the exhaust panel 50 for inducing the discharge of air to sense the amount of water vapor in the exhaust air, A conical curved portion 1 is formed on the front side of the exhaust port 10, and a rectangular vent hole 3 is formed on the opposite surface of the curved portion 1 so that the exhaust air is discharged to the outside. An exhaust port for a microwave oven, characterized in that a sensor coupling hole 5A is formed at one side of an upper flat surface 5 partitioned from the outside by a shielding wall 7 formed vertically from a peripheral portion so that the humidity sensor S is coupled. Humidity sensor coupling structure.