KR100861948B1 - Electromagnetic wave shielded apparatus of a heating cooker - Google Patents

Abstract

The present invention relates to an electromagnetic shielding device of a heating cooker, and more specifically, to prevent the leakage of electromagnetic waves flowing out through a heater used as a heating source, such as a microwave oven, electromagnetic waves easily leak out of the portion in which the heater is mounted. The electromagnetic wave shielding apparatus of the heating cooking apparatus which shields the electromagnetic wave which leaks to the outside by attaching a choke to the part.

The present invention is formed on one surface of the cavity and the cover is mounted heater; And a choke installed on at least one outer surface of the cover to prevent electromagnetic leakage emitted through the heater.

Description

Electromagnetic wave shielded apparatus of a heating cooker

1 is an illustration of an electromagnetic shielding device for a heater provided in a heating cooking appliance according to an embodiment of the present invention,

2 is a front view of a heating cooker according to an embodiment of the present invention,

3 is a detailed view of a heating cooking apparatus equipped with a choke according to an embodiment of the present invention;

4A is a bottom view of a choke in accordance with an embodiment of the present invention,

4B is a side view of a choke in accordance with an embodiment of the present invention,

4C is a front view of a choke in accordance with an embodiment of the present invention,

4D is a perspective view of a choke in accordance with an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: main body 20: cavity

40: battlefield room 50: cover

60: quartz tube heater 70: chalk

The present invention relates to an electromagnetic shielding device of a heating cooker, and more particularly, to a portion of which a heater is easily leaked in a portion in which a heater is mounted to shield electromagnetic waves flowing out through a heater used as a heating source such as a microwave oven. The present invention relates to an electromagnetic shielding device for a heating cooker that shields electromagnetic waves leaking to the outside by mounting a choke having a predetermined sized hole.

In general, a microwave oven is divided into a cavity and an electrical equipment room, and the foods of the cavity are cooked by operating various devices installed in the electrical equipment room.

Looking at the structure of the cavity of the microwave oven, a tray rotated by a motor is installed at the bottom of the cavity to disperse the high frequency irradiated to the cavity through the waveguide, and the cooking time such as meat in the upper portion of the cavity A heater is installed to cook long foods and used to cook the inside of the meat with radiant heat, and the outside is brown. Types thereof include sheath heaters and quartz tube heaters.

The quartz tube heater is composed of hot wire, quartz tube, insulator, and terminal.The hot wire wound with spring shape is inserted into the quartz tube, and the insulated terminal is installed at both ends of the quartz tube to join the hot wire and the terminal. It is made up.

In addition, the heating wire is formed by winding the width between heating wires in a constant winding manner. The heating wire is made of nichrome, and when electricity is applied, electrons in the heating wire do not progress properly and the number of collisions with metal atoms increases, resulting in high heat. It is generated, and the food is cooked using this high heat.

Therefore, after the quartz tube heater is installed on the cavity top of the microwave oven, when the microwave oven is operated, electricity is applied to the quartz tube heater to generate high heat from the heating wire therein, so that the food placed on the tray of the cavity is ripe and the skin The part is browned well.

Such a quartz tube heater forms a predetermined portion of the upper plate of the cavity 10 to form a heater cover, and installs a quartz tube heater in which a spring-shaped hot wire is installed on the heater cover.

When the heater heat is radiated, the heater cover reflects the heater heat radiated toward the top of the cavity to radiate downward, thereby securing more heater heat applied to the food, thereby shortening the cooking time of the food, and cooking effect of the food. In order to further increase, the top surface is flat and the sides are inclined to the roof shape so that the heater heat is well radiated to the food placed in the center of the cavity.

In this way, the quartz tube heater installed in the heater cover to increase the radiation effect of the heater heat as the cavity is supported and installed by the hole of the heater cover and the heater bracket.

That is, the quartz tube heater is inserted into the holes formed in the walls of both sides of the heater cover to protrude the insulators at both ends thereof, and then the insulator is inserted into the insertion hole of the heater bracket, and the heater bracket is fixed to the cavity upper plate by screws. .

This type of microwave oven exposes electromagnetic waves to the user when the quartz tube heater is operated, and also affects the printed circuit board (PCB) that controls the operation of the microwave oven according to the exposure of the electromagnetic wave. There is a problem.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to cancel the electromagnetic wave generated during the microwave operation to take out the coil of the quartz heater by the choke formed a hole of a predetermined size Provided is an electromagnetic shielding device that can prevent leakage to the outside or leakage to the printed circuit board.

Technical means according to the present invention for achieving the above object is formed on one surface of the cavity and the heater is mounted; And a choke installed on at least one outer surface of the cover to prevent electromagnetic leakage emitted through the heater.

According to the present invention, the electromagnetic wave generated during the operation of the heating cooker and taken out of the coil of the quartz heater may be canceled by the choke having a predetermined size of hole to prevent it from leaking out or going out to the printed circuit board.

In addition, since the choke is mounted by the flange provided in the choke without welding or screwing, the workability is improved, the productivity increase effect is excellent, and the product competitiveness by cost reduction can be increased.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a microwave oven in a heating cooker according to an embodiment of the present invention, Figure 2 is an exemplary view showing the configuration of an electromagnetic shield mounted on the heater cover of the microwave oven according to an embodiment of the present invention, Figure 3 2 is an enlarged perspective view illustrating part A of FIG. 2 and will be described with reference to FIGS. 4A and 4D.

A microwave oven is a device that oscillates a microwave by using a current supplied, and heats the microwave by irradiating the microwave with food.

The microwave oven includes a main body 10 including a front plate 11 and an outer case 12, a rear plate 13, a cavity 20 in which food is cooked, and various electrical components. It is configured to include an electrical equipment room 40 to be installed.

Here, the front plate 11 forms a front surface of the main body 10 with its front surface and is equipped with a door 14 for opening and closing inside the cavity 20.

The out case 12 forms both side surfaces and the top surface of the main body 10 to protect the front plate 11, the out case 12, the cavity 20, and the electric compartment 40 from the external environment.

With respect to such a type of adiabatic heating by microwaves, a heater is provided inside to provide more various types of heating methods.

Microwave ovens with built-in heaters can provide a wider variety of heating methods by using the heat of the heaters as another heating source, and provide food at a higher temperature than a single heating method using microwaves. It can be heated, browning the surface of the food (browning) has the advantage.

The heater in this embodiment is described with an example of a quartz tube heater having excellent heat resistance, good thermal efficiency, and easy quenching and quenching.

That is, the quartz tube heater 60 is comprised from the filament which generate | occur | produces by application of an electric current, and the quartz tube of the state which contacted the outer peripheral surface of the filament. The filaments are provided in uniform contact with the inner circumferential surface of the quartz tube.

The quartz tube heater 60 is installed inside the cover 50, and both end portions 61 of the quartz tube in the portion where the terminal 62 is installed are penetrated through a hole formed in the side of the cover. Is mounted.

At this time, the end portion 61 of the quartz tube heater is penetrated by a predetermined length through the hole of the cover, the electromagnetic wave is discharged to the outside through the end portion 61 of the penetrated quartz tube heater.

Here, the cover 50 is formed on the upper surface of the cavity 20, that is, of the structure which is formed in a part protruding shape with respect to the upper surface of the cavity 20, or mounted on the opening portion formed on the upper surface of the cavity 20 Formed by either method.

The choke 70 is installed on at least one side surface of the cover 50 formed on the upper surface of the cavity 20. The choke 70 contacts both the upper surface of the cover 50, the side surface of the cover 50, and the upper surface of the cavity 20. It is formed in the structure to make.

The choke 70 is to prevent the leakage of electromagnetic waves flowing through the quartz tube heater 60 penetrated through the side hole of the cover 50, the choke 70 as shown in Figures 4a to 4d, It consists of the first surface 71, the second surface 72, the third surface 73 and the locking surface 74, the first surface 71 and the second surface 72, the second surface 72 and The third surface 73, the first surface 71, and the locking surface 74 are bent to each other. A more detailed description is as follows.

The first surface 71 is in contact with the upper surface of the cover 50, the first surface 71 is formed with a first coupling groove (h11), the upper surface of the cover 50, the first coupling groove (h11) The first coupling protrusion is formed at a position corresponding to the first coupling protrusion, and the first coupling protrusion of the cover 50 when the upper surface of the cover 50 contacts the first surface 71 contacts the first coupling groove of the first surface 71. The choke 70 is fixed by being inserted into and coupled to the choke.

The second surface 72 is installed at a predetermined distance from the side surface of the cover 50 through which the end 61 of the heater penetrates. The second surface 72 has a plurality of through holes at a position corresponding to the mounting position of the heater. (h1, h2) are formed, and the terminal 62 of the heater protrudes outward through the through holes h1, h2.

At this time, the predetermined distance is the distance of the length of the end 61 of the heater penetrating the cover 50, and the terminal 62 of the heater penetrates through the through holes h1 and h2 formed in the second surface 72. It is preferable to exclude the length of the terminal 62 of the heater.

In addition, the second surface 72 has a plurality of offset holes h21 to h25 between the through holes h1 and h2, and electromagnetic waves emitted through the heater are canceled through the offset holes to prevent leakage to the outside. prevent.

The offset holes h21 to h25 are formed to have a size of about 4 mm * 12 mm. The electromagnetic waves emitted from the heaters do not pass through the offset holes h21 to h25 and are canceled according to the characteristics of the wavelength of the electromagnetic waves.

The numerical value of the offset holes h21 to h25 is an optimal data value obtained by experiments, and can effectively cancel the electromagnetic wave emitted from the heater. In addition, when there is no offset hole or the width of the offset hole is 7mm or more, the electromagnetic wave is more leaked through the heater, which is an optimal value considering the advantage.

In addition, the offset hole discharges the heat collected in the inner space of the choke generated by the mounting of the choke during the heater operation to the outside.

The third surface 73 is in contact with the upper surface of the cavity 20 of the microwave oven, the third surface 73 is formed with a plurality of second coupling grooves (h31, h32), the upper surface of the cavity 20 A second coupling protrusion is formed at a position corresponding to each of the plurality of second coupling grooves h31 and h32, so that the second coupling protrusion of the cavity is in contact with the top surface of the cavity 20 and the third surface 73. The choke 70 is fixed by being inserted into the second coupling groove of the surface.

Here, it is preferable that at least one or more first coupling grooves and second coupling grooves formed on the shield cover are selectively formed.

The engaging surface 74 is formed on both sides of the first surface 71 and in contact with the upper surface of the cavity 20, the end of the engaging surface 74 is formed with a flange 75 bent from the end, the cavity A locking groove (not shown) is formed at a position corresponding to the flange 75 on the upper surface of the 20 so that the flange 75 is inserted into the locking groove and fixedly mounted.

At this time, the width of the engaging surface 74 is the length of the end 61 of the heater penetrating the cover 50, thereby preventing the leakage of electromagnetic waves flowing out through the quartz tube heater 60.

That is, the locking surface 74 is formed in a concave-convex shape, and a plurality of offset holes h41 to h42 are formed when the flange 75 of the locking surface is fixedly mounted to the upper surface of the cavity 20.

Electromagnetic waves emitted through the heaters are canceled through the offset holes h41 to h42 to prevent leakage to the outside, and the size of the offset holes is formed to be about 4 mm * 11 mm. Electromagnetic waves emitted by the light do not pass through the offset hole and are canceled.

Like the offset hole formed on the second surface, the size value of the offset hole formed on the locking surface is also an optimal data value obtained by experiments, and can effectively cancel the electromagnetic wave emitted from the heater.

In addition, the hole is for discharging the heat collected in the inner space of the choke generated by the mounting of the choke during the heater operation to the outside.

According to this configuration, the electromagnetic wave generated during operation of the heating cooker and taken out of the coil of the quartz heater may be canceled by the choke to prevent it from leaking out or going out to the printed circuit board.

In addition, since the choke is mounted by the flange provided in the choke without welding or screwing, the workability is improved, the productivity increase effect is excellent, and the product competitiveness by cost reduction can be increased.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

As described in detail above, the present invention can be prevented from leaking to the outside or out of the printed circuit board by offsetting the electromagnetic waves generated during the operation of the heating cooker coming out of the coil of the quartz heater through the choke formed with a plurality of holes. have.

In addition, since the choke is mounted by a flange provided in the choke without welding or screwing, the workability is improved, the productivity increase effect is excellent, and the product competitiveness by cost reduction can be increased.

Claims (7)

delete delete delete A cover formed on one surface of the cavity and mounted with a heater; And And a choke installed on at least one outer surface of the cover to prevent leakage of electromagnetic waves emitted through the heater.  The choke may include a first surface in contact with one surface of the cover, a second surface through which a terminal of the heater penetrates and a plurality of offset holes are formed, a third surface in contact with one surface of the cavity, and a first surface of the first surface. Electromagnetic shielding device of the heating cooker comprising a locking surface formed in the concave-convex shape at both corners, each surface is bent to each other. The method of claim 4, wherein The locking surface has a flange, and one surface of the cavity has a locking groove formed at a position corresponding to the flange, so that the flange is inserted into and fixed to the locking groove, and the flange is inserted into and fixed to one surface of the cavity. Locking surface is electromagnetic shielding device of a heating cooking apparatus, characterized in that a plurality of holes are formed. The method of claim 4, wherein The first surface has a first coupling groove is formed, one surface of the cover is formed with a first coupling protrusion at a position corresponding to the first coupling groove, the first coupling groove and the first coupling protrusion is coupled Electromagnetic shielding device of the heating cooker, characterized in that the. The method of claim 4, wherein Width of the engaging surface is the electromagnetic wave shielding device of the heating cooker, characterized in that the same as the end length of the heater passing through the cover.

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