KR101798579B1 - Microwave oven - Google Patents

Abstract

An invention on a microwave oven is disclosed. The disclosed microwave oven includes: a cavity; a first magnetron for irradiating a microwave to the upper side of the cavity; a second magnetron for irradiating a microwave to the lower side of the cavity; and a blower for cooling the first magnetron and the second magnetron .

Description

MICROWAVE OVEN

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave oven, and more particularly, to a microwave oven in which cooling of a magnetron and a cavity is performed more efficiently.

Generally, a microwave oven is driven by the application of a current to generate a microwave.

The microwave enters the cavity, which is the heating space, and heats the object to be heated.

The side of the cavity is provided with an electric field chamber in which a magnetron and a high-pressure transformer are installed. The temperature of the electric field chamber is raised due to the operation of the magnetron, and the cooling fan that dissipates the electric field chamber is connected to the fan motor.

The front surface of the cavity is provided with a door member, and the cavity is opened and closed by the rotation of the door member.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

Since the microwave is supplied to one side of the cavity, the heating of the object to be heated is not uniformly performed, and the operation reliability of the device is deteriorated.

In addition, since separate fan units are used for the cooling of the magnetron and the cooling of the cavities, the production cost is increased. Therefore, there is a need to improve this.

The object of the present invention is to provide a microwave oven which uniformly irradiates a microwave with a cavity to uniformly heat the object to be heated.

Another object of the present invention is to provide a microwave oven capable of reducing the number of parts used for cooling the magnetron and cooling the cavity, thereby reducing the production cost.

A microwave oven according to the present invention includes: a cavity; a first magnetron for irradiating a microwave to the upper side of the cavity; a second magnetron for irradiating a microwave to the lower side of the cavity; and a blower for cooling the first magnetron and the second magnetron .

In addition, it is preferable that a ventilating portion is provided on the rear side of the cavity, a first magnetron is located on the upper side of the airflow portion, and a second magnetron is located on the lower side of the airflow portion.

The present invention also includes a first waveguide and a second magnetron which connect the first magnetron and the upper side of the cavity to guide the movement of the microwave, and a second waveguide that connects the lower side of the cavity to guide the movement of the microwave desirable.

The air blowing portion may include a first blowing fan located below the first magnetron and forcing an air flow to be moved to the cavity through the first magnetron, an air blowing fan disposed above the second magnetron, And a motor member for driving the first blowing fan and the second blowing fan.

In addition, the present invention preferably includes a first housing surrounding the first blowing fan and guiding the flow of air, and a second housing surrounding the outside of the second blowing fan and guiding the flow of air.

The present invention further includes a suction portion provided at a lower front side of the cavity and forming a passage through which air is sucked, and a suction pipe portion communicating with the suction portion and guiding the flow of air moved to the blower portion along the lower side of the cavity desirable.

It is also preferable that the present invention further comprises an upper conduit portion for guiding the flow of air moved to the door member through the first magnetron, the upper conduit portion being spaced from the upper side of the cavity.

In the microwave oven according to the present invention, since microwaves are supplied to the upper and lower sides of the cavity to cook the object to be heated, heating of the object to be heated is uniform, and the operation reliability of the device can be improved.

In addition, since the cooling of the first magnetron and the cooling of the second magnetron and the cooling of the cavity are performed at the same time by the operation of the single blown part, the number of parts used for cooling is reduced, thereby improving the productivity and reducing the production cost. have.

FIG. 1 is a perspective view schematically showing a configuration of a main part of a microwave oven according to an embodiment of the present invention.
FIG. 2 is a left side view showing a flow of air for cooling the upper side of the first magnetron and the cavity according to the embodiment of the present invention. FIG.
FIG. 3 is a right side view illustrating a flow of air for cooling the lower side of the second magnetron and the cavity according to the embodiment of the present invention. FIG.
4 is a plan view showing an installation position of a first waveguide according to an embodiment of the present invention.
5 is a plan view showing an installation position of a second waveguide according to an embodiment of the present invention.

Hereinafter, an embodiment of a microwave oven according to the present invention will be described with reference to the accompanying drawings. For convenience of explanation, a microwave oven used for industrial purposes will be described as an example. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view schematically showing a configuration of a substantial part of a microwave oven according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a flow of air for cooling an upper side of a first magnetron and a cavity according to an embodiment of the present invention. 3 is a right side view illustrating a flow of air for cooling a lower side of a second magnetron and a cavity according to an embodiment of the present invention. FIG. 4 is a right side view of a first waveguide according to an embodiment of the present invention, FIG. 5 is a plan view showing an installation position of a second waveguide according to an embodiment of the present invention.

1 to 5, a microwave oven 1 according to an embodiment of the present invention includes a cavity 20, a first magnetron 30 for irradiating a microwave on the upper side of the cavity 20, A second magnetron 40 for irradiating a microwave to the lower side of the cavity 20; and a blower 50 for cooling the first magnetron 30 and the second magnetron 40.

An electric field chamber 17 in which a first magnetron 30 and a second magnetron 40 are provided and a microwave is irradiated inside the casing 10 forming the outer shape of the microwave oven 1, The cavity 20 is formed.

The electric field chamber 17 is opened and closed by the operation of the door member 15 provided on the front surface of the electric field chamber 17. [

The electric field chamber 17 is disposed in contact with the rear surface 26 of the cavity 20 and the first waveguide 32 connected to the first magnetron 30 is installed on the upper surface 22 of the cavity 20, The second waveguide 42 connected to the second magnetron 40 is installed on the lower side surface 24 of the cavity 20.

A tray 28 spaced upward from the lower side surface 24 of the cavity 20 to lift the object to be heated is provided.

The edge of the tray 28 is inserted into the packing portion 29 fixed to the inside of the cavity 20 to restrict the movement. The packing portion 29 is formed of a rubber material or a silicon material and can be deformed into various shapes within the technical idea of fixing the tray 28. [

The tray 28 can be used fixedly and can be used as a rotary type as the tray 28 used in the domestic microwave oven 1.

The upper conduit portion 80 including the upper portion 22 of the cavity 20 and the guide partition wall 82 spaced apart from the upper portion 22 of the cavity 20 moves the air flowing through the first magnetron 30 to the door member 15 Guide.

One side of the guide wall 82 is fixed to the rear face 26 of the cavity 20 and the other side of the guide wall 82 is spaced apart from the door member 15.

The rear surface 26 of the cavity 20 in contact with the upper conduit portion 80 is provided with a through hole for the movement of the air discharged from the air supply portion 50.

The air introduced to the upper side of the cavity 20 from the air blown out from the first blowing fan 52 is guided toward the door member 15 to remove water droplets that may be generated inside the door member 15 The shape of the upper channel portion 80 can be variously modified.

The electric field chamber 17 is provided on the rear side of the cavity 20 and the air flow portion 50 is provided in the middle of the electric field chamber 17. [ The first magnetron 30 is located above the airflow 50 and the second magnetron 40 is located below the airflow 50.

The blowing unit 50 is operated by the operation of the motor member 59 and various blowing apparatuses are used within the technical idea of simultaneously cooling the first magnetron 30 and the second magnetron 40.

The blowing unit 50 according to an embodiment includes a first blowing fan 52 positioned below the first magnetron 30 and forcing an air flow to be transferred to the cavity 20 through the first magnetron 30, A second air blowing fan 56 and a first air blowing fan 52 which are positioned on the upper side of the second magnetron 40 and forcing the air flow to be moved to the cavity 20 through the second magnetron 40, And a motor member 59 installed between the two blowing fans 56 to supply a driving force.

The first blowing fan (52) and the second blowing fan (56) are provided with a plurality of blades radially, and suck air to the center to discharge air to the outside.

A motor member 59 is provided between the first blowing fan 52 and the second blowing fan 56 to rotate the first blowing fan 52 and the second blowing fan 56 simultaneously.

The first housing 60, which surrounds the first blowing fan 52, guides the flow of air from the first blowing fan 52. A second housing 64 is also installed on the outer side of the second blowing fan 56 to guide the flow of air from the second blowing fan 56.

The direction of the first outlet portion 62 in the first housing 60 is set in the upward direction toward the first magnetron 30 and the direction of the second outlet portion 66 in the second housing 64 is set in the second direction And is installed in the downward direction toward the magnetron 40.

The first waveguide 32 for guiding the microwave generated in the first magnetron 30 to the upper side of the cavity 20 connects the first magnetron 30 and the upper side of the cavity 20 to move the microwave Guide.

The second waveguide 42 for guiding the microwave generated in the second magnetron 40 to the lower side of the cavity 20 connects the second magnetron 40 and the lower side of the cavity 20 to move the microwave Guide.

The outside air supplied to the air supplying portion 50 can be supplied in various directions including the side surface of the electric chamber 17.

The microwave oven 1 according to the embodiment is provided at a lower front side of the cavity 20 and communicates with the suction unit 70 and the suction unit 70 that form a passage through which air is sucked, And a suction pipe passage portion 72 for guiding the flow of the air that is moved to the air discharge portion 50 along the inner circumferential surface.

The position and shape of the suction portion 70 and the suction pipe passage portion 72 have various shapes and installation positions in a technical concept of forming a flow path for air into the airflow portion 50.

Hereinafter, an operation state of the microwave oven 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The air sucked into the first blowing fan 52 is referred to as a first suction air 90 and the air discharged from the first blowing fan 52 is referred to as a first cooling air 92 . The air sucked into the second blowing fan 56 is referred to as a second suction air 95 and the air discharged from the second blowing fan 56 is referred to as a second cooling air 97. [

When microwaves are generated by operating the first magnetron 30 and the second magnetron 40, microwaves are supplied to the upper and lower portions of the cavity 20 through the first waveguide 32 and the second waveguide 42 do.

The airflow 50 is operated to cool the first magnetron 30 and the second magnetron 40 and to cool the cavity 20.

The first blowing fan 52 and the second blowing fan 56 are rotated by the operation of the motor member 59 to suck air through the first suction port 54 and the second suction port 58. [

The first suction air 90 and the second suction air 95 are sucked through the suction portion 70 formed at the lower portion of the electric field chamber 17 and the first suction air 90 is sucked through the first suction hole 90, (54), and the second suction air (95) is sucked into the second suction port (58).

A part of the first cooling air 92 exiting through the first outlet portion 62 cools the first magnetron 30 and is exhausted to the outside of the microwave oven 1. The rest of the first cooling air 92 flows into the upper portion of the cavity 20 and moves along the upper conduit portion 80 toward the door member 15.

The first cooling air 92 moved to the door member 15 removes water droplets or the like formed on the inside of the door member 15 and cools the upper portion of the cavity 20 and is exhausted to the outside of the microwave oven 1 .

A part of the second cooling air 97 discharged through the second outlet portion 66 by the operation of the second blowing fan 56 cools the second magnetron and is exhausted to the outside of the microwave oven 1. The rest of the second cooling air 97 flows into the lower portion of the cavity 20 to cool the cavity 20 under the tray 28 and then is exhausted to the outside of the microwave oven 1.

According to the above-described configuration, since the microwave is supplied to the upper and lower sides of the cavity 20 to cook the object to be heated, the heating object is uniformly heated, It is possible to improve the reliability of the operation.

Also, since the cooling of the first magnetron 30 and the second magnetron 40 and the cooling of the cavity 20 are simultaneously performed by the operation of the single blowing fan 50, the number of components used for cooling is reduced, And the production cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Also, although a microwave oven used for industrial purposes has been described as an example, the microwave oven used in the present invention is merely an example, and a microwave oven according to the present invention can be used for various purposes including home use.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

1: Microwave oven 10: Case part
15: door member 17: electric field chamber
20: cavity 22:
24: lower side 26: rear side
28: Tray 29: Packing part
30: first magnetron 32: first waveguide
40: second magnetron 42: second waveguide
50: a blowing part 52: a first blowing fan
54: first suction port 56: second blowing fan
58: second suction port 59: motor member
60: first housing 62: first outlet portion
64: second housing 66: second outlet portion
70: Suction section 72: Suction tube section
80: upper channel portion 82: guide partition wall
90: first intake air 92: first cooling air
95: second intake air 97: second cooling air

Claims (7)

Cavity;
A first magnetron for irradiating a microwave onto the cavity;
A second magnetron for irradiating a microwave to a lower side of the cavity;
A power supply for cooling the first magnetron and the second magnetron;
A first waveguide connecting the first magnetron and the upper side of the cavity to guide movement of the microwave;
A second waveguide connecting the second magnetron and the lower side of the cavity to guide movement of the microwave; And
And an upper conduit portion provided to be spaced apart from an upper surface of the cavity and guiding a flow of air moved to the door member through the first magnetron,
The air blowing unit is installed on the rear side of the cavity,
Wherein the first magnetron is positioned on the upper side of the airflow rich portion, the second magnetron is located on the lower side of the airflow rich portion,
The blower
A first blowing fan located below the first magnetron and forcing an air flow to be transferred to the cavity through the first magnetron;
A second blowing fan located above the second magnetron for forcing an air flow to be transferred to the cavity through the second magnetron; And
And a motor member for driving the first blowing fan and the second blowing fan,
The upper conduit portion,
And a guide partition wall having one side fixed to the rear surface of the cavity and the other side spaced apart from the door member, wherein the guide partition wall has air introduced from the air blown out of the first blowing fan to the upper side of the cavity To the door member so as to remove water droplets generated inside the door member.
delete delete delete The method according to claim 1,
A first housing which surrounds the outside of the first blowing fan and guides the flow of air; And
And a second housing that surrounds the outside of the second blowing fan and guides the flow of air.
The method according to claim 1,
A suction unit installed at a lower front side of the cavity to form a passage through which air is sucked; And
Further comprising a suction pipe portion communicating with the suction portion and guiding a flow of air moving to the blower portion along a lower side of the cavity.
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