KR100737782B1 - Magnetron for steam generation and microwave oven using the same - Google Patents

Abstract

A magnetron for steam generation and a microwave oven using the same are provided to simplify constitution of the microwave oven, reduce manufacturing cost, and prevent excessive discharge of moisture from foods to be cooked. A magnetron for steam generation includes an anode(210), a steam generation part(220), and cooling pins(230a,230b). The anode is high frequency heated during operation of the microwave oven to generate heat and radiate the heat through an antenna. The steam generation part is disposed to surround the anode and generates steam using the heat generated from the anode. The cooling pins are disposed on or/and under the steam generation part. The steam generation part includes a water inlet port(223), a connection pipe, and a steam injection port(227).

Description

MAGNETRON FOR STEAM GENERATION AND MICROWAVE OVEN USING THE SAME}

1 is a cross-sectional view showing the structure of a magnetron applied to a conventional microwave oven.

2 is a view showing an exemplary configuration of a magnetron for steam generation according to the present invention.

3A to 3C are views showing an exemplary configuration of a steam generator in the steam generator magnetron according to the present invention.

4 is a view showing an assembly example of a magnetron for steam generation according to the present invention;

<Description of the symbols for the main parts of the drawings>

100: magnetron 110: anode

130: cooling fin 210: anode

220: steam generator 223: inlet

227: steam nozzle 230: cooling fin

The present invention relates to a steam generating magnetron and a microwave oven using the same, and more particularly, by generating steam using heat generated according to the ultra-high frequency dielectric heating of the magnetron, a heat source for generating a separate steam in the microwave oven or The steam function can be implemented without external addition, and the use of cooling fins can be maintained while maintaining the cooling efficiency, which can simplify microwave configuration, reduce manufacturing costs, and prevent excessive discharge of food from the high temperature heating of the magnetron. It relates to a steam generating magnetron and a microwave oven using the same.

As is well known, a microwave oven is a cooking device that heats or cooks food by heating it with frictional heat caused by the movement of water molecules contained in the food by irradiating microwaves oscillated in the magnetron with food in the cooking chamber. .

1 is a cross-sectional view showing an exemplary structure of a magnetron applied to a conventional microwave oven.

Referring to FIG. 1, a conventional magnetron 100 includes an anode 110 and a cooling fin 130.

During operation of the magnetron, the anode 110 is heated to a high temperature by ultra-high frequency dielectric heating. In this case, a plurality of air-cooled cooling fins 130 are used for cooling the anode 110. Although not shown, the cooling fin 130 as well as the cooling fan (not shown) are maintained to maintain the temperature of the anode 110 during magnetron operation, for example, to maintain the temperature of the anode at approximately 150 ° C to 250 ° C during normal microwave operation. Some configurations may be adopted.

In the microwave oven using the conventional magnetron, there is a possibility that the moisture of the food may be excessively discharged by the ultra-high frequency dielectric heating by the magnetron.

In addition to the conventional microwave oven, a multifunctional type microwave oven, which is additionally equipped with a heater or a steam generator, has an oven function, a grill function, and a steam generation function added thereto. It is being released.

However, in order to implement a steam generating function in such a conventional microwave oven, a configuration for mounting a separate steam generating device in the microwave oven is required. In other words, the steam is generated by heating the water supplied separately from the conventional microwave oven, and the steam is generated and sprayed to generate the steam and provide the steam to the cooking chamber in the microwave oven. However, the configuration of adding such a separate steam generator increases the cost of manufacturing microwave ovens and may also cause the failure due to the complicated structure associated with water heating.

An object of the present invention is to generate steam by using the heat generated according to the ultra-high-frequency dielectric heating of the magnetron enables the steam function to be implemented without adding a heat source for generating separate steam to the inside or outside of the microwave oven and the use of cooling fins It is possible to maintain the cooling efficiency while reducing the cost, simplify the microwave configuration and reduce the manufacturing cost, and to provide a magnetron for steam generation to prevent excessive discharge of water from the cooking due to the high temperature heating of the magnetron.

Another object of the present invention to provide a microwave oven using the magnetron for steam generation.

In order to achieve the above technical problem, the present invention is a magnetron used in a microwave oven, the anode heated in the operation of the microwave oven, and arranged in the form surrounding the anode and steam using the heat generated when the anode is heated It provides a magnetron for steam generation including a steam generator for generating a.

In the magnetron for steam generation according to the present invention, the steam generator may further include a cooling fin disposed above or below the steam generator.

In addition, in the steam generating magnetron according to the present invention, the steam generating portion, the inlet receiving water from the external water supply tank, the connection pipe for heating the water provided from the inlet through the inside to generate steam, It is preferable to include a steam injection hole for injecting the generated steam.

In addition, in the steam generating magnetron according to the present invention, the steam generating unit is a cylindrical form having a hole in which the anode can be disposed therein, the inlet and the steam injection port can be implemented to be arranged opposite to each other of the cylindrical form. have.

In addition, in the steam generating magnetron according to the present invention, the connection pipe, it is preferable to be disposed in any one or both of the cylindrical form that can be divided into the inlet and the steam injection port.

In addition, in the steam generating magnetron according to the present invention, the steam generating unit is a cylindrical form having a hole in which the anode can be disposed therein, the inlet and the steam injection port can be implemented to be arranged on the same side of the cylindrical form. Can be.

In addition, in the steam generating magnetron according to the present invention, the connection pipe is preferably disposed to maximize the length of the connection pipe between the inlet port and the steam injection port.

In addition, in the steam generating magnetron according to the present invention, the steam generating unit is preferably disposed corresponding to the middle portion in the longitudinal direction of the anode.

In addition, the present invention provides a microwave oven including a steam generating magnetron according to the present invention, and a water supply tank for supplying water to the steam generating portion of the steam generating magnetron.

Hereinafter, the magnetron for generating steam of the present invention and a microwave oven using the same will be described in more detail with reference to the accompanying drawings.

2 is a view showing an exemplary configuration of a magnetron for steam generation according to the present invention.

As shown, the magnetron for steam generation according to the present invention includes an anode 210 and a steam generator 220, and may further include cooling fins 230a and 230b.

The anode 210 is configured to generate heat and radiate it through an antenna (not shown) during operation of a microwave oven, as in the conventional anode.

The steam generator 220 is disposed in a form surrounding the anode 210 and generates steam using heat generated when the anode 210 is heated by the operation of the microwave oven.

To this end, the steam generator 220 is heated by passing water through the water inlet 223 and the water provided from the water inlet 223 and the water inlet 223 disposed in the microwave oven to generate steam. And a steam inlet 227 for injecting the generated steam.

In the case of the magnetron for steam generation according to the present invention, since the heat generated during the heating of the anode 210 can be cooled through the steam generator 220, a separate cooling fin according to the related art may not be used.

However, the steam generating magnetron according to the present invention may further include cooling fins 230a and 230b to increase the cooling efficiency of the anode 210.

These cooling fins 230a, 230b are arranged at the top of the steam generator 220 (for example 230a) or at the bottom of the steam generator 220 (for 230b) or at the top, as shown. It can be placed at both bottoms (when both 230a and 230b are included).

However, even when the magnetron for steam generation according to the present invention includes such cooling fins 230a and 230b, the cooling fins of the anode 210 can be implemented even if the number of the cooling fins is much smaller than that used in the conventional magnetron. Can be.

3A to 3C are views showing an exemplary configuration of the steam generator in the steam generator magnetron according to the present invention.

3A to 3C, the steam generator 220 is formed in a cylindrical shape having a hole formed therein so as to be surrounded by the anode 210 implemented in, for example, a cylindrical shape.

3A illustrates an example in which the water inlet 223 and the steam inlet 227 are disposed on the same side of the cylindrical steam generator 220 having a hole.

In this case, the connecting pipe (not shown) transmits the water provided from the inlet 223 to the steam inlet 227 in the direction of the arrow shown to maximize the surface area between the inlet 223 and the steam inlet 227. It is preferable.

That is, disposed along the steam generator 220 having a cylindrical shape in the direction indicated by the arrow, it is configured to absorb the heat generated from the anode 210 as much as possible.

3B illustrates an example in which the inlet 223 and the steam inlet 227 are disposed on the same side of the cylindrical steam generator 220 having a hole, and in FIG. 3A, the inlet 223 and the steam inlet 227. Is spaced apart from side to side, in FIG. 3B, the inlet 223 and the steam injection port 227 are spaced vertically apart.

This configuration can be used in particular to avoid spatial limitations in the assembly of the steam generating magnetron according to the invention.

3C illustrates an example in which the water inlet 223 and the steam injection hole 227 are disposed on opposite sides of the cylindrical steam generator 220 having a hole.

In this case, the connecting pipe is configured to transfer water provided from the inlet 223 to the steam jet port 227 in the arrow A direction or the arrow B direction or in both the arrow A direction and the arrow B direction.

That is, it is possible to configure the connector to be transmitted in the arrow A direction or the arrow B direction using only one direction, or to be configured to transmit in both the arrow A direction and the arrow B direction using the connector in both directions.

The configuration of the water inlet 223, the steam injection port 227 or the connection pipe of Figure 3a to 3c is selected according to the design of the steam generating magnetron according to the present invention or a microwave oven using the same, or a combination thereof Modifications are also possible.

4 is a view showing an example of assembling the magnetron for steam generation according to the present invention.

As shown, the assembly can be completed by placing the cooling fin 230b on the anode 210 first, inserting the steam generator 220 thereon, and arranging the cooling fin 230a thereon, thereby simplifying the assembly. Assembly is possible.

In this case, the steam generator 220 is disposed corresponding to the middle portion in the longitudinal direction of the anode 210 to allow the cooling fins 230a and 230b to be disposed above and below.

This can reduce component and assembly costs compared to conventional steam-generating microwave ovens equipped with separate steam generating configurations. In addition, in the case of a microwave oven capable of generating steam, a configuration for preventing overheating of the anode or a control configuration for controlling generation of steam is required, but in the case of the microwave oven according to the present invention, when the anode rises above a predetermined temperature, As steam is generated, it is not necessary to control the steam generation, and at the same time, the overheating of the anode can be effectively prevented.

In another aspect, the present invention provides a microwave oven using the magnetron for steam generation according to the present invention.

The microwave oven according to the present invention includes a water supply tank for supplying water to the steam generating magnetron according to the present invention, and the description of other matters is described with reference to the steam generating magnetron according to the present invention described with reference to FIG. Duplicate description will be omitted.

Although the present invention has been described in detail, this is for illustrative purposes only, and the protection scope of the present invention is not limited thereto, and the protection scope of the present invention is defined through the description of the claims.

As described above, according to the present invention, steam is generated using heat generated according to the ultra-high frequency dielectric heating of the magnetron, and thus the steam function can be implemented without adding a heat source for generating steam to the inside or outside of the microwave oven. Cooling efficiency can be maintained while reducing the use of cooling fins, simplifying microwave oven configuration, reducing manufacturing costs, and preventing excessive drainage of food from the high temperature heating of the magnetron.

Claims (9)

As a magnetron used in a microwave oven, An anode heated during operation of the microwave oven, A steam generating unit arranged to surround the anode and generating steam by using heat generated when the anode is heated. Magnetron for steam generation including a. The method of claim 1, Steam generation magnetron further comprises a cooling fin disposed above or below the steam generating unit. The method of claim 1, wherein the steam generating unit, An inlet provided water from an external water tank, A connection pipe for heating the water provided from the inlet through the inside to generate steam; Steam injection hole for injecting the generated steam It is to include a steam generation magnetron. The method of claim 3, The steam generating unit is a cylindrical shape having a hole in which the anode can be disposed therein, The water inlet and the steam injection port is a magnetron for steam generation is disposed opposite each other of the cylindrical form. According to claim 4, The connector, The steam generation magnetron is disposed on one or both of the cylindrical form that can be divided into the water inlet and the steam inlet. The method of claim 3, The steam generating unit is a cylindrical shape having a hole in which the anode can be disposed therein, The water inlet and the steam injection port is a steam generation magnetron is disposed on the same side of the cylindrical form. The method of claim 6, The connecting pipe is a steam generating magnetron is disposed between the inlet and the steam injection port so as to maximize the length of the connecting pipe. The method of claim 1, The steam generator is a steam generating magnetron is disposed corresponding to the middle portion in the longitudinal direction of the anode. As a microwave oven, The said steam generation magnetron in any one of Claims 1-8, Water supply tank for providing water to the steam generating portion of the steam generating magnetron Microwave including a.

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