KR200183817Y1 - A combine structure of heater of convection micro-wave oven - Google Patents

Abstract

The present invention relates to a coupling structure of a convection heater assembly for a convection microwave oven, the heat transfer heater 20 is coupled to the front of the reflector 10 installed in the cooking chamber, the cover 30 is coupled to the back of the reflector 10 In the heater assembly coupling structure of the convection microwave oven attached to the fan motor 40 by the motor bracket 35 in the rear of,

A joining surface 10A of the reflector 10 in close contact with the rear surface of the outer plate 50 is formed in the same shape as the joining surface 30A of the cover 30 and attached to the front of the outer plate 50. In the outer periphery of the inner plate 60 is made of a structure in which each of the spherical protrusions 55 of the shape protruding forward to form the screw (S) is built.

The present invention has a reflector 10 and the inner plate 60 by directly attaching the reflector 10 and the cover 30 to the outer plate 50 to provide a coupling space of the heat transfer heater 20 and the fan motor 40. It is possible to increase the thermal efficiency of the convection microwave oven by preventing the space between them.

Description

Combination structure of convection microwave heater assembly {A COMBINE STRUCTURE OF HEATER OF CONVECTION MICRO-WAVE OVEN}

The present invention relates to a microwave oven, and in particular, by attaching a reflector and a cover directly providing a coupling space of an electric heater and a fan motor to the outer plate to prevent the separation between the reflector and the inner plate, accordingly convection electronics The present invention relates to a heater assembly coupling structure of a convection microwave oven capable of increasing the thermal efficiency of a stove.

In general, microwaves that cook foods by dielectric heating using frictional heat caused by the translational movement of water molecules contained in foods are irradiated with microwaves generated from magnetrons. .

Therefore, the microwave oven can greatly reduce the cooking time of food by high thermal efficiency, reduce the loss of nutritional value during the cooking, thawing and warming of food, and can also be conveniently used by cooking food directly in the container. It is widely used recently.

In particular, recently developed microwave ovens are equipped with a heating heater using resistance heat of the heating wire, such as the back or bottom of the cooking chamber to spray hot air directly to the surface of the food along with the cooking function of the ultra-high frequency like a conventional microwave oven. This allows the cooking of foods that require adequate browning of the surface, such as bread or fish.

1 is a heat transfer heater 120 and a fan in a microwave oven of the convection function for heating the food in accordance with the heat of the heat transfer heater with the cooking of the food by the ultra-high frequency by combining the heat transfer heater inside the cooking chamber as described above. As a cross-sectional view showing the coupling portion of the motor 140, the microwave oven having a convection function as described above installs the heat transfer heater 120 in front of the reflector 110 attached to the rear of the cooking chamber, the heat transfer heater 120 The fan motor 140 is coupled with the heat generation of the electric heater 120 by coupling the fan motor 140 to the rear surface of the reflector 110 where the electric heater 120 is installed so that the blowing fan 131 is positioned in front of the fan motor 140. While discharging the hot air of the heat transfer heater 120 in front of the operation, at the same time to be cooked as the microwave is irradiated with food.

Meanwhile, as described above, the convection heater assembly including the fan motor 140 including the blower fan 131, the heat heater 120, the reflector 110, the cover 130, and the like is the reflector 110 as shown in FIG. 2. The electric heater 120 is attached to the front of the fan motor 140 by the motor bracket 135 immediately after the cover 130 coupled to the rear surface of the reflector 110 via the heat insulating material 170. The convection heater assembly 200 is installed in the inner space of the outer plate 150 by the fastening of the screw (S) to discharge the hot air to the food during the operation of the microwave oven.

Meanwhile, the outer plate 150, the cover 130, the reflector 110, the inner plate 160, and the like are manufactured by a drawing method of a plate material, and such parts have a processing error in a state in which molding is completed. As a result, when the assembly of each part is completed, deformation occurs due to spaced apart or excessive close contact of each part.

Therefore, in the conventional convection microwave oven, the reflector 110 to which the electric heater 120 is coupled is not directly fixed to the inner plate 160, and the inner plate 160 and the inner plate 160 through the cover 130 and the outer plate 150. As the machining error of each component is amplified because the coupled state is amplified, defects such as spaced between the tip of the reflector 110 and the inner plate 160 are separated from each other in the convection heater assembly 200 as shown in FIG. .

In particular, when the reflector 110 and the inner plate 160 is spaced apart as described above, the heat of the heat transfer heater 120 is the reflector 110 and the outer plate 150 during the heating process of the heat transfer heater 120. Heat dissipation is generated by being discharged to the outside through the space between the two, and as a result of the leakage of microwaves, the cooking efficiency of the microwave rapidly decreases.

The present invention is to solve the conventional problems as described above, the technical problem of the present invention, the reflector and the inner plate by directly attaching the reflector and cover providing a coupling space of the electric heater and fan motor to the outer plate. It is to provide a heater assembly coupling structure of the convection microwave oven that can prevent the separation between, and thereby increase the cooking efficiency by blocking the leakage of heat and ultra-high frequency of the electric heater.

The technical problem of the present invention as described above, the heater assembly of the convection microwave oven in which the electric heater is coupled to the front of the reflector installed in the cooking chamber, the fan motor is attached to the rear of the cover coupled to the rear of the reflector by the motor bracket. In the coupling structure of

The joining surface of the reflector in close contact with the rear surface of the outer plate is formed in the same shape as the joining surface of the cover, and the shape of the shape protruding forward so that the screw is embedded in the outer surface of the inner plate attached to the front of the outer plate. It is achieved by providing a coupling structure of the heater assembly of the convection microwave oven, characterized in that each of the spherical protrusions is formed.

Hereinafter, the heater assembly coupling structure of the convection microwave oven according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional structural view of a conventional convection microwave oven,

Figure 2 is a detailed view showing the heat transfer assembly in the conventional convection microwave oven shown in Figure 1,

3 is an exploded perspective view of main parts of a heater assembly according to one embodiment of the present invention;

Figure 4a is a cross-sectional view showing a combined state of the present invention,

FIG. 4B is a detailed view of portion B of FIG. 4A.

<Explanation of symbols for main parts of drawing>

10: reflector 10A, 30A: joint surface

20: electric heater 30: cover

35: motor bracket 40: fan motor

50: outer plate 55: spherical protrusion

60: inner plate S: screw

Figure 3 is an exploded perspective view of the main part of the heater assembly according to an embodiment of the present invention, Figure 4a is a cross-sectional view showing a combined state of the present invention, the present invention is the electric heater 20 and the reflector 10 and the motor bracket (35) and the cover 30 to provide a coupling space of the fan motor 40, etc. in the cooking process by the convection mode, the heating of the air heated by the electrothermal heater 20 at the same time as the dielectric heating of the food by the ultra-high frequency cooking chamber. In the heater assembly 100 which heats the surface of the food to be cooked by hot air by discharging it into the hot plate, the reflector 10 is closely adhered to the outer plate 50 so that unnecessary space is formed on the joint surface 10A of the reflector 10. It is configured to prevent.

The present invention is such that the bonding surface 10A of the reflector 10 attached to the rear surface of the outer plate 50 constituting the rear of the cooking chamber to concentrate the resistance heat of the heat transfer heater 20 installed in the front inner side forward. It extends in the upper and lower sides and in both directions to form the same shape as the bonding surface 30A of the cover 30 to provide a coupling space of the fan motor 40 and the motor bracket 35.

In addition, a spherical shape protruding forward to the outside of the inner plate 60 to be attached to the front of the outer plate 50 by welding to conceal the heat transfer heater 20 installed inside the front of the reflector 10. Protruding portion 55 is formed.

As described above, the spherical protrusions 55 formed on the outer side of the inner plate 60 closely contact the reflector 10 and the cover 30 to the rear surface of the outer plate 50, and the outer plate from the rear surface of the cover 30. In the state of fastening the screw (S) to the (50) provides a coupling space of the screw (S) passed through the front of the outer plate 50.

Such a spherical protrusion 55 is a screw (S) protruding toward the front of the outer plate 50 so that the inside of the spherical protrusion (55) and the front end of the screw (S) is not in contact with the screw (S) is completed. It is formed to a height exceeding the length of, and together with the cover 30 to form the same position and quantity of the screw (S) fastened to the outer plate 50, respectively.

In the drawing, reference numeral 70 denotes a heat insulating material attached to the rear surface of the reflector 10 to block heat from the heat transfer heater 20 from being transferred to the outside, and reference numeral 31 is coupled to the front end of the rotating shaft of the fan motor 40 to heat transfer heater. It is a blowing fan which discharges the air heated by 20 to the front.

The operation of the present invention made of the configuration as described above will be described below.

The heater assembly coupling structure of the convection microwave oven according to the present invention discharges the air heated by the electrothermal heater 20 to the cooking chamber at the same time as the dielectric heating of the food by the ultra-high frequency in the cooking process by the convection mode, the food requiring cooking. In the heater assembly 100 that heats the surface of the heat reflector 10 and the cover 30 by closely contacting the outer plate 50 to block the leakage of heat and ultra-high frequency of the heat transfer heater 20.

Looking at the assembly process of the present invention as described above, first, the cover 30, the installation of the fan motor 40 is completed by the reflector 10 and the motor bracket 35, the coupling of the electric heater 20 is completed in close contact with each other. Let's do it.

Subsequently, after completion of the above process, the screw S inserted through the through hole formed in the joint surface 10A of the reflector 10 and the joint surface 30A of the cover 30 is fastened to the outer plate 50. The cover 30 including the reflector 10 is coupled to the outer plate 50.

At this time, the inner plate 60 attached to the front of the outer plate 50 has a spherical protrusion 55 is formed in accordance with the fastening position of the screw (S) of the screw (S) protruding forward of the outer plate 50. The tip has a state embedded by the spherical protrusion 55 of the inner plate 60.

Therefore, regardless of the fastening degree of the screw (S), the inner plate 60 and the reflector 10 and the cover 30 respectively coupled to the front and rear surfaces of the outer plate 50 is fixed in close contact.

In addition, as shown in FIG. 4B, the inner plate 60, the reflector 10, and the cover 30 are fixed by surface contact to have a strong fixing force, and thus the heat transfer heater 20 through the joint surface between the components. Heat and ultra-high frequency leakage are prevented.

As described above, the present invention forms the reflector 10 constituting the heater assembly 100 in the same shape as the cover 30, and the reflector 10 and the cover 30 are the outer plate 50. By directly attaching to the back surface of each part, each component has a strong fixing force and is fixed in a tightly contacted state, thereby preventing unnecessary space from being formed on the joining surface 10A of the reflector 10.

Therefore, the present invention has an effect of increasing the cooking efficiency of the convection microwave oven by preventing the leakage of heat and ultra-high frequency of the heat transfer heater 20.

The invention has been shown and described with respect to a specific preferred embodiment, but the invention is not limited to the embodiment described above, the field to which the subject innovation belongs without departing from the gist of the subject innovation claimed in the utility model registration claims Anyone of ordinary skill in the art would be able to make various variations.

Claims (1)

The electric heater 20 is coupled to the front of the reflector 10 installed in the cooking chamber, and the fan motor 40 is attached to the rear of the cover 30 coupled to the rear surface of the reflector 10 by the motor bracket 35. In the assembly structure of the heater assembly of the conventional convection microwave, A joining surface 10A of the reflector 10 in close contact with the rear surface of the outer plate 50 is formed in the same shape as the joining surface 30A of the cover 30 and attached to the front of the outer plate 50. Convection microwave heater assembly structure, characterized in that the outer periphery of the inner plate (60) formed each of the spherical protrusions 55 of the shape protruding forward so that the screw (S) is built.