KR910000722Y1 - Air duct of micro wave oven - Google Patents

Abstract

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Description

Air duct of microwave oven

1 is a state diagram of air duct assembly for a conventional microwave oven.

2a and 2b are operational state diagrams for a conventional air duct.

3 is an installation state of the air duct according to the present invention.

4 is an airflow state diagram for the air duct in the present invention.

* Explanation of symbols for main parts of the drawings

1: microwave oven 4: air duct

5 suction port 6 magnetron

W: Width of magnetron W ¹ : Width of air duct inlet

The present invention relates to an air duct of a microwave oven, and more particularly, to an air duct that provides a structure for uniform heat distribution in a refrigerator when a heater operation and a microwave operation are periodically operated.

In a microwave oven equipped with a conventional air duct, when the heater operation and the microwave operation are periodically performed, that is, when performing the Combi function, the wind from the brower motor during the microwave function cools the magnetron. The entire air was then sucked into the cavity through the air duct.

When the blower motor is operated in the heater function, the heat inside the exhaust gas is discharged into the atmosphere through the exhaust port, which reduces the thermal efficiency.In the heater function, the solenoid connected to the air duct is attached to the air duct to prevent the wind flowing into the air. As shown in FIGS. 1 to 2, the inlet port 5 having the same width as that of the magnetron 6 is provided at the front end, and the rear end is inclined to switch the wind toward the inlet port of the cavity. A damper bracket 12 is inserted into the photo space, whereby the torsion spring 11 is fitted to the hinge pin 10, and the solenoid 8 and the rod 9 are connected to each other. It was installed between (2) and magnetron (6).

In the above configuration, the rod 9 of the solenoid 8 pushes the damper bracket 12 by an electric action when the microwave function is operated during the combi function in the microwave oven with a heater. The passage of (4) was opened to allow the wind to enter the chamber, and when the heater function was operated, the damper bracket 12 was pulled as shown in FIG. 2A by the solenoid (8) to prevent the wind from flowing into the chamber.

However, many parts are required to open and close the passage of the air duct, and there are problems in that a lot of materials and time are required to manufacture and assemble the parts, and a problem of cost increase. Functional problems have occurred.

Therefore, in order to solve the various problems of the present invention, the inlet width of the air duct is less than 1/2 of the width of the magnetron, so that related parts such as solenoid and damper bracket are eliminated, and moderate wind is introduced into the cavity. In order to circulate the stagnant heat it will be described in detail with the accompanying drawings as follows.

3 is an installation state of the air duct according to the present invention, the inlet port width (W ') of the air duct (4') having the inlet port (5) at the front end and inclined rear end width (W) of the magnetron (6) The air duct 4 is formed by forming a width of 1/2 or less, and the air duct 4 having such a configuration is installed between the magnetron 6 and the inlet port 2a of the cavity 2.

By forming and installing the air duct 4 in this way, when the blower motor 7 is operated, the wind does not always enter the cavity 2, but only a part of it, and most of the air flows into the electric compartment around the cavity 2, and thus each part of the electric field. The heat loss is reduced even if the cooling function and the boiling function during the combi function are operated.

That is, the wind passing through the magnetron 6 is introduced into the air through the inlet 5 of the air duct 4 having a width of W ¹ , and the water vapor generated by the food heating during the microwave function is discharged out of the air. It is possible to prevent condensation in the air by flowing into the atmosphere through the exhaust port formed in the.

And the wind not introduced into the air duct (4) cools the various electrical components on the battlefield side and then circulates to the upper side is also leaked to the atmosphere through the exhaust vent of the back cover.

In addition, since the size of the air duct inlet is only half the size of the magnet rom and the fan of the blower motor 7 does not operate during the heater function operation, there is no influence on the inside of the refrigerator.

However, since the heater and the microwave function are periodically repeated during the combination function, the operating time of the fan in the microwave function is 10 seconds or less, so the fan is turned and the air is properly introduced into the air through the air duct 4 for 10 seconds or less. By circulating the heat that has flowed in and stagnated in the furnace, the heat distribution in the oven is increased to increase the heating effect of the microwave oven.

As described above, the present invention does not attach the damper bracket and solenoid parts while making the air inlet width of the air duct smaller than the width of the magnetron, thus reducing the cost of components, thereby eliminating the factors of cost increase, and simplifying the work and assembly. It is convenient for the airflow and the increase of the cooling efficiency, especially suitable air flow is increased to increase the uniform heating performance and also has the advantage of improving the quality.

Claims (1)

In forming the air duct 4 of the microwave oven 1 in which the heat transfer device is incorporated, the inlet port 5 width W ¹ of the air duct 4 is less than 1/2 of the width W of the magnetron. The air duct of a microwave oven characterized by being formed small.