KR20120079360A - Convection device and cooking appliance comprising the same - Google Patents

Abstract

PURPOSE: A convection device and cooking device having thereof are provided to easily replace components of a convection fan, convection motor and convection heater by simply disjoining a fastener. CONSTITUTION: A convection device comprises a convection cover(300), a convection fan(400), a convection motor(500), and a convection heater(710.720). The convection fan is installed inside a convection chamber. The convection fan forms the air flow circulating between a cooking chamber and the convection chamber. The convection motor offers the driving force for operating the convection fan. The convection heater heats the air circulated by the convection fan. A first side cover is welded and fixed to one end part of an inner cover before the convection fan is installed. A second inner cover is fixed to the other end part of the inner cover by a fastener after the convection fan is installed.

Description

Convection device and cooking appliance comprising the same

The present invention relates to a cooking appliance.

A cooking appliance is a home appliance that heats and cooks food inside a cooking chamber using microwaves or heater heat. On the other hand, the cooking apparatus is provided with a convection device for providing a high temperature hot air into the cooking chamber. Such a convection device generally includes a convection fan in communication with the cooking compartment, a convection heater installed inside the convection chamber, and a convection fan for allowing air heated by the convection heater to circulate inside the cooking compartment and the convection chamber. And a convection motor for driving the convection fan.

It is an object of the present invention to provide a convection device and a cooking apparatus including the same, which is configured to enable more efficient cooking.

Another object of the present invention is to provide a convection device and a cooking apparatus including the same, which is configured to be more easily assembled as a convection device.

One aspect of an embodiment of a convection device according to the present invention for achieving the above object is a convection device for forming a flow of air circulating between the cooking chamber and the convection chamber in which food is cooked: an inner cover, the inner cover A convection cover including first and second side covers fixed to both ends of the convection chamber, the convection chamber being formed by the inner cover and the first and second side covers; A convection fan installed inside the convection chamber and forming a flow of air circulating between the cooking chamber and the convection chamber; A convection motor installed on an outer surface of the first side cover and providing a driving force for rotation of the convection fan; And at least one convection heater installed in the convection chamber and heating the air flowing by the convection fan. The first side cover is welded and fixed to one end of the inner cover before the convection fan is installed, and the second side cover is fastened to the other end of the inner cover after the convection fan is installed. Is fixed by.

According to an aspect of an embodiment of a cooking appliance of the present invention, a cavity provided with a cooking chamber; A door for selectively opening and closing the cooking chamber; And a convection device according to any one of claims 1 to 9 provided on one surface of the cavity. It includes.

According to the embodiment of the convection device and the cooking apparatus including the same according to the present invention as described above can be expected the following effects.

First, in the present embodiment, the assembly of the convection device is fixed to the cavity in the state of being completed. Therefore, it is possible to install the convection device more easily.

In addition, in the present invention, the replacement of parts that may be required to be repaired or replaced, such as a convection fan, a convection motor, and a convection heater, is made possible by a simple fastener removal. Therefore, it is possible to more simply provide a convenient service.

1 is a perspective view showing an embodiment of a cooking appliance according to the present invention.
Figure 2 is an exploded perspective view showing the main part of the embodiment of the present invention.
3 is an exploded perspective view showing a convection device constituting an embodiment of the present invention.
4 to 12 is an operation state showing a process of assembling the convection device in the embodiment of the cooking appliance according to the present invention.

Hereinafter, a configuration of an embodiment of a cooking appliance according to the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, an example of a cooking apparatus, in particular, a microwave oven for cooking food using microwaves will be described.

1 is a perspective view showing an embodiment of a cooking appliance according to the present invention, Figure 2 is an exploded perspective view showing the main part of the embodiment of the present invention, Figure 3 is an exploded perspective view showing a convection device constituting an embodiment of the present invention. .

First, referring to FIG. 1, the front plate 110 forms the front surface of the cavity 100 of the microwave oven, and the back plate 120 forms the rear surface of the cavity 100. In addition, an upper plate 130 and a bottom plate 140 respectively form upper and lower surfaces of the cavity 100. In addition, two side plates 150 are formed on both sides of the cavity 100. In this case, the upper plate 130, the bottom plate 140, and the side plate 150 may be formed by bending one member, or may be formed and fixed to each other.

Meanwhile, the cooking chamber 160 is provided inside the cavity 100. Substantially, the cooking chamber 160 is formed in a hexahedral shape in which a front surface thereof is opened. The back plate 120, the upper plate 130, the bottom plate 140, and the side plate 150 are formed on the rear surface, the upper and lower surfaces, and both sides of the cooking chamber 160. The cooking chamber 160 is a place where food is cooked. The cooking chamber 160 is selectively opened and closed by a door (not shown).

And one side of the cavity 100 is provided with an electrical equipment room 170. Various electrical components are installed in the electrical equipment room 170. In FIG. 1, the electrical equipment room 170 is illustrated as being provided on the right side of the cooking chamber 160, but the position of the electrical equipment chamber 170 is not limited thereto. For example, the electrical equipment chamber 170 may be located above the cooking chamber!

Meanwhile, an inlet port 121 (see FIG. 2) and an exhaust port 123 (see FIG. 2) are formed on the rear surface of the cooking chamber 160, that is, the back plate 120. The intake port 121 serves as an inlet through which air in the cooking chamber 160 is sucked into the convection chamber 301 which will be described later. The exhaust port 123 serves as an outlet through which air in the convection chamber 301 is discharged into the cooking chamber 160. In the present embodiment, the exhaust port 123 is located below the inlet port 121. In addition, the inlet port 121 and the exhaust port 123 may be formed in the form of a porous portion, respectively. This is to prevent leakage of microwaves supplied into the cooking chamber 160 and to prevent foreign substances generated during cooking of the food inside the cooking chamber 160 to flow into the convection chamber. .

The back cover 180 is installed at the rear of the back plate 120. The back cover 180 shields the convection cover 300 to be described later. In the present embodiment, the back cover 180 is formed in a polyhedral shape with a substantially front surface opening. In addition, a cooling inlet 181 is formed on the right side of the back cover 180. In addition, a cooling exhaust port 183 is formed on the left side of the back cover 180 in the drawing. The cooling intake port 181 and the cooling exhaust port 183 are places where air for cooling the convection motor 500 to be described later is sucked and discharged. In this embodiment, the cooling inlet 181 is located at the upper right side of the figure in FIG. 1 of the back cover 180 adjacent to the convection motor 500. In addition, the cooling exhaust port 183 is located at the lower left side in FIG. 1 of the back cover 180 which is relatively spaced apart from the convection motor 500. However, the positions of the cooling intake port 181 and the cooling exhaust port 183 are not limited thereto and may be anywhere as long as air flow for cooling the convection motor 500 can be made.

The microwave oven is provided with a plurality of heating sources for cooking food in the cooking chamber 160. For example, a magnetron (not shown) for supplying microwaves into the cooking chamber 160 may be installed in the electric compartment 170. In addition, an upper heater 200 may be installed in the upper plate 130 to supply energy, for example, heat or / and light, into the cooking chamber 160. Here, the upper heater 200 is a name for distinguishing it from other heating sources by its installation position. Therefore, even if a conventional heater or heating source is used, if energy is supplied to the inside of the cooking chamber 160, it may be understood as substantially the same component as the upper heater 200.

In the present embodiment, a convection device is installed at the rear of the cooking chamber 160, that is, at the rear of the back plate 120. The convection device serves to supply high temperature air into the cooking chamber 160. Referring to FIG. 3, the convection device includes a convection cover 300, a convection fan 400, a convection motor 500, a cooling fan 600, a convection heater 710, 720, and an air guide 800. Include.

In more detail, the convection cover 300 is fixed to the rear surface of the back plate 120 to form a convection chamber 301. In this case, the convection cover 300 may be substantially positioned between the back plate 120 and the back cover 180. The convection chamber 301 is a space in which the convection fan 400, the convection heater 710, 720, and the air guide 800 are installed. The convection chamber 301 is in communication with the cooking chamber 160 through the inlet port 121 and the exhaust port 123. The convection cover 300 includes an inner cover 310, an outer cover 320, and two side covers 330 and 340.

The inner cover 310 and the outer cover 320 are each formed to have a substantially U-shaped longitudinal section. The inner cover 310 and the outer cover 320 form the remaining surfaces except for both side surfaces of the convection cover 300. However, the shapes of the inner cover 310 and the outer cover 320 are not limited thereto. That is, the inner cover 310 and the outer cover 320 may have other shapes, for example, a c-shaped longitudinal cross section, as long as the inner cover 310 and the outer cover 320 can form the remaining surfaces except for both sides of the convection cover 300.

In addition, the inner cover 310 and the outer cover 320 are sequentially fixed to the rear surface of the back plate 120. Therefore, it can be said that the outer cover 320 substantially shields the inner cover 310 from the rear. In addition, the inner cover 310 and the outer cover 320 are formed with thermistor mounting holes 311 and 321, respectively. The thermistor mounting holes 311 and 321 are positioned to overlap each other up and down.

Although not shown, a heat insulating material may be provided between the inner cover 310 and the outer cover 320. The insulation serves to prevent a phenomenon in which heat of the convection heater 710 and 720 is transferred to the outside.

The side covers 330 and 340 are respectively fixed to the side surfaces of the inner cover 310. Hereinafter, for convenience of description, the right side in FIG. 3 is referred to as a first side cover 330 and the left side in FIG. 2 is referred to as a second side cover 340.

A first shaft installation hole 331 is formed in the first side cover 330. The first shaft installation hole 331 is for installation of the convection fan 400. The first heater installation hole 335 is for installation of the convection heater 710, 720. The first shaft installation hole 331 is formed by cutting a portion of the first side cover 330.

In addition, a first heater installation unit 333 is formed on the first side cover 330. A portion of the first side cover 330 is formed to protrude to the right in the drawing. In other words, a part of the first side cover 330 is formed to protrude out of the convection chamber 301.

In addition, two first heater installation holes 335 are formed in the first heater installation unit 333. The first heater installation hole 335 has a shape corresponding to an end portion of the convection heater 710 and 720 so that one end of both ends of the convection heater 710 and 720 can be inserted, for example, It may be formed in a D shape. The first heater installation hole 335 is formed by cutting a portion of the first side cover 330 and substantially a portion of the first heater installation portion 333.

In the present embodiment, the first shaft installation hole 331 is positioned relatively to the inlet 121 relative to the exhaust port 123. In addition, the first heater installation unit 333 is positioned to be relatively adjacent to the exhaust port 123 as compared to the intake port 121. Therefore, the first heater installation unit 333, that is, the first heater installation unit 333 is positioned substantially below the first shaft installation hole 331.

A second shaft installation hole 341 and two heater through holes 343 are formed in the second side cover 340. The second shaft installation hole 341 is formed at a position overlapping left and right with the first shaft installation hole 331. The second shaft mounting hole 341 is a place where the fan shaft 540 to be described later penetrates. The heater through hole 343 is for installation of the convection heater 710 and 720. The convection heater 710 and 720 are positioned inside the convection chamber 301 through the heater through hole 343. The heater through hole 343 is formed by cutting a portion of the second side cover 340 into a circle having a diameter greater than or equal to the diameter of the convection heater 710 and 720. In this case, the first heater installation hole 335 may be located inside the heater through hole 343 in the left and right direction.

The heater bracket 350 is fixed to the second side cover 340. The heater bracket 350 is substantially fixed to the second side cover 340 to shield the heater through hole 343. Therefore, the heater bracket 350 is formed to have a shape and size capable of shielding the heater through hole 343 at least. At this time, the heater bracket 350 is detachably fixed to the second side cover 340. For example, the heater bracket 350 may be fixed to the second side cover 340 by a fastener such as a bolt (not shown).

Meanwhile, a second heater installation part 351 is formed in the heater bracket 350. The second heater installation unit 351 is formed by protruding a part of the heater bracket 350 corresponding to the first heater installation unit 333 to the left side of the drawing, that is, the convection chamber 301. do. Therefore, the distance between the first and second heater installation parts 333 and 351 may be substantially increased compared to the distance between the inner surfaces of the first and second side covers 330 and 340. .

In addition, two second heater installation holes 353 are formed in the second heater installation unit 351. The other one of both ends of the convection heater 710 and 720 is inserted into the second heater installation hole 353. The second heater installation hole 353 may also be formed in a D shape corresponding to the shape of the end portions of the convection heaters 710 and 720, similarly to the first heater installation hole 335. The second heater installation holes 353 are formed at positions corresponding to the first heater installation holes 335, respectively. Therefore, the second heater installation hole 353 is located inside the heater through hole 343 in the left and right directions, similarly to the first heater installation hole 335.

The convection fan 400 is installed inside the convection chamber 301 and serves to circulate air between the cooking chamber 160 and the convection chamber 301. In this embodiment, the convection fan 400 is rotated about a horizontal axis of rotation. In more detail, the convection fan 400 allows the air in the cooking chamber 160 to be sucked into the convection chamber 301 through the inlet 121. In addition, the convection fan 400 allows the air inside the convection chamber 301 to be discharged into the cooking chamber 160 through the exhaust port 123. In this embodiment, as the convection fan 400, a cross flow fan is formed in which air intake and exhaust in a plane direction perpendicular to the rotation axis thereof is formed.

The convection motor 500 provides a driving force for the rotation of the convection fan 400 and the cooling fan 600. To this end, the convection motor 500 is provided with motor shafts 510 and 520. The motor shafts 510 and 520 extend in both directions from the convection motor 500. Hereinafter, one of the motor shafts 510 and 520 extending to the left in the drawing in FIG. 3 is referred to as the first motor shaft 510 and the one extending to the right in the drawing in FIG. 3 is called the second motor shaft 520. . Substantially, the first and second motor shafts 510 and 520 may be understood as one axis. The first motor shaft 510 extends into the convection chamber 301 through the first shaft installation hole 331. The first motor shaft 510 is coupled to one end of the convection fan 400, that is, the right end of the drawing of the convection fan 400. The second motor shaft 520 extends away from the convection chamber 301.

The convection motor 500 is fixed to the outside of the convection chamber 301 and substantially to the outer side of the first side cover 330. At this time, the convection motor 500 is fixed to the outer surface of the first side cover 330 by a motor bracket 530. Substantially, a shaft through hole 531 through which the first motor shaft 510 passes may be formed in the motor bracket 530.

In addition, the motor bracket 530 is provided with a guide portion 533. The guide part 533 serves to guide the air cooling the convection motor 500 by the rotation of the cooling fan 600. That is, the guide part 533 serves to guide the air sucked through the cooling inlet 181 to cool the convection motor 500 and to be discharged through the cooling exhaust port 183. In the present embodiment, the guide portion 533 is formed to have a substantially L-shape and is positioned to substantially surround the upper and rear of the cooling fan 600.

Meanwhile, a fan shaft 540 is provided to rotatably support the other end of the convection fan 400, that is, the left end of the drawing of the convection fan 400 to the second side cover 340. The fan shaft 540 has a predetermined length and is installed to penetrate through the second shaft installation hole 341. Thus, a portion of the fan shaft 540 is located inside the convection chamber 301, and the rest of the fan shaft 540 is located outside the convection chamber 301. A portion of the fan shaft 540 positioned inside the convection chamber 301 is coupled to the other end of the convection fan 400, that is, the left end of the drawing of the convection fan 400.

In addition, a bearing member 550 is installed at the other end of the fan shaft 540 penetrating through the second shaft installation hole 341 and protruding to the outside of the convection chamber 301. The bearing member 550 serves to rotatably support the fan shaft 540.

The bearing bracket 560 is fixed to the outer side surface of the second side cover 340. The bearing bracket 560 is for supporting the bearing member 550. To this end, the bearing bracket 560 has a fastening rib 561 and a bearing installation hole 565 is formed. The fastening rib 561 is fixed to an outer surface of the second side cover 340. The bearing member 550 is installed in the bearing installation hole 565.

The cooling fan 600 serves to flow air for cooling the convection motor 500. In this embodiment, an axial fan is used as the cooling fan 600. The cooling fan 600 is coupled to the second motor shaft 520. Therefore, the cooling fan 600 is located in the upstream side relative to the convection motor 500 in the direction in which the air sucked through the cooling inlet 181 flows.

The convection heater 710 and 720 serves to heat the air discharged from the interior of the convection chamber 301 to the interior of the cooking chamber 160 by the rotation of the convection fan 400. Substantially the convection heaters 710 and 720 are positioned relatively downstream of the convection fan 400 on the flow of air flowing by the convection fan 400. This is to prevent damage of the convection fan 400 by the air heated by the convection heater (710) (720).

In the present embodiment, the two convection heaters 710 and 720 are installed inside the convection chamber 301. The convection heater 710 and 720 may be formed in a bar type having a predetermined length and diameter. For example, as the convection heater 710 and 720, a carbon heater, a ceramic heater, a halogen heater, or the like, in which a filament is enclosed in a transparent or translucent tube, may be used. In this case, as the tube, for example, a quartz tube may be used. Such a carbon heater may be referred to as a heater which is conventionally distinguished from a sheath heater used as the convection heater 710 and 720. By the way, the said sheath heater forms the external appearance of a metal tube. Accordingly, the carbon heater may be referred to as a tube heater or a quartz heater.

Both ends of the convection heater 710 and 720 are formed to have D-shaped longitudinal cross-sections corresponding to the first and second heater installation holes 335 and 353, respectively. For example, both ends of the convection heater 710 and 720 may be provided with insulators for insulation. In addition, the end portions of the insulator portions are stepped with respect to the rest, so that both ends of the convection heater 710 and 720 may be formed in a D shape. Therefore, both ends of the convection heater 710 and 720 are inserted into the first and second heater installation holes 335 and 353, so that the convection heater 710 and 720 are first and second. The heater installation holes 335 and 353 are not penetrated to the outside of the convection chamber 301. Since the configuration of the carbon heater and the like used as the convection heater 710 and 720 is already known, a detailed description thereof will be omitted.

Meanwhile, the air guide 800 substantially divides the internal space of the convection chamber 301 into two regions. Here, the two regions are an area 303 (hereinafter referred to as an 'suction area') and the convection chamber 301 through which air sucked into the convection chamber 301 flows inside the cooking chamber 160. Refers to an area 305 (hereinafter, referred to as an 'emission area') through which air discharged into the cooking chamber 160 flows. In addition, the air guide 800, the air circulating the interior of the cooking chamber 160 and the interior of the convection chamber 301 by the rotation of the convection pan 400 evenly circulates the interior of the cooking chamber 160. It also serves to guide you.

Meanwhile, in this embodiment, one end of the air guide 800 is in contact with the rear surface of the back plate 120 corresponding to between the inlet 121 and the exhaust port 123. In this embodiment, the tip of the air guide 800 is in contact with the rear surface of the back plate 120 that is directly above the exhaust port 123. The other end of the air guide 800 is positioned adjacent to the convection fan 400. In addition, the air guide 800 may be bent at a predetermined curvature so as to partition the suction area 303 and the discharge area 305 so that the flow cross-sectional area of the discharge area 305 increases in a direction in which air flows. That is, the air guide 800 partitions the inside of the convection chamber 301 so that the flow cross section of the discharge region 305 increases from the convection fan 400 toward the exhaust port 123.

The thermistor mounting holes 311 and 321 are installed with a thermistor 900 for sensing a temperature. Substantially, the thermistor 900 senses the temperature of air sucked into the convection chamber 301 from the inside of the cooking chamber 160 through the inlet 121.

Hereinafter, the cooking process of the food in the embodiment of the cooking appliance according to the present invention will be described in more detail.

First, various heating sources are operated to cook food in the cooking chamber 160. For example, light or / and heat of the microwave or / and the upper heater 200 generated from the magnetron is supplied into the cooking chamber 160 to be used for cooking food.

On the other hand, when the convection device is operated in the cooking process of the inside of the cooking chamber 160, the air inside the cooking chamber 160 is rotated through the inlet port 121 by the rotation of the convection fan 400. ) Is sucked into the interior. The air sucked into the convection chamber 301 is discharged into the cooking chamber 160 through the exhaust port 123 by the continuous rotation of the convection fan 400.

At this time, the air suctioned into the convection chamber 301 from the inside of the cooking chamber 160 through the inlet 121 and the cooking chamber 160 through the exhaust port 123 inside the convection chamber 301. The air discharged into the inside of the air is partitioned by the air guide 800. In addition, the air discharged into the cooking chamber 160 from the inside of the convection chamber 301 through the exhaust port 123 is substantially guided by the air guide 800 to guide the inside of the cooking chamber 160. It will cycle evenly. In addition, the air discharged into the cooking chamber 160 is heated by the convection heater 710 and 720, so that hot air is substantially supplied into the cooking chamber 160 to heat the food.

Hereinafter, a process of assembling a convection device in an embodiment of a cooking appliance according to the present invention will be described in more detail with reference to the accompanying drawings.

4 to 12 is an operational state diagram showing a process of assembling the convection device in the embodiment of the cooking appliance according to the present invention.

First, referring to FIG. 4, the first side cover 330 is fixed to one end of the inner cover 310 to assemble the convection cover 300. In this case, the first side cover 330 is welded in contact with one end of the inner cover 310. This is to minimize the phenomenon that light or / and heat of the convection heater 710 and 720 leaks to the outside by preventing the formation of a gap between the inner cover 310 and the first side cover 330.

Next, referring to FIG. 5, a convection motor 500 is installed on an outer surface of the first side cover 330. In this case, the convection motor 500 may be fixed to the motor bracket 530 or to the outer surface of the first side cover 330 simultaneously with the motor bracket 530. When the convection motor 500 is fixed to the outer surface of the first side cover 330, the first motor shaft 510 may be formed in the convection chamber 301 through the first shaft installation hole 331. That is, substantially protrude into the space between the inner cover 310 and the first side cover 330. The convection motor 500 may be fixed to an outer surface of the first side cover 330 by a separate fastener (not shown).

6, the convection fan 400 and the air guide 800 are positioned in a space between the inner cover 310 and the first side cover 330. In this case, the convection fan 400 has one end thereof protruded into the space between the inner cover 310 and the first side cover 330 through the first shaft installation hole 331. Is combined at one end. In addition, one end of the fan shaft 540 is coupled to the other end of the convection fan 400. The convection fan 400 and the fan shaft 540 may be coupled to each other before or after the first motor shaft 510 is coupled to one end of the convection fan 400. The air guide 800 is fixed by a separate fastener (not shown) in a state where one end thereof is in contact with the inner surface of the first side cover 330. Of course, one end of the air guide 800 may be fixed by being welded to the inner side surface of the first side cover 330.

Next, referring to FIG. 7, in the state where the convection fan 400 and the air guide 800 are located in a space between the inner cover 310 and the first side cover 330, the inner cover 310 is located. The second side cover 340 is fixed to it. When the second side cover 340 is fixed to the inner cover 310, the other end of the fan shaft 540 penetrates through the second shaft installation hole 341 to the outside of the convection chamber 301. It protrudes.

In this case, the second side cover 340 is fixed by a separate fastener (not shown) in contact with the other end of the inner cover 310. When the second side cover 340 is fixed to the inner cover 310, substantially, the convection cover may be formed by the inner cover 310 and the first and second side covers 330 and 340. Assembly of the 300 is completed so that the convection chamber 301 is completely formed. The fastening of the second side cover 340 by the fastener is such that the second side cover 340 can be easily separated from the inner cover 310 in order to replace the convection fan 400. For sake.

Referring to FIG. 8, when the assembly of the convection cover 300 is completed, the bearing bracket 560 is fixed to the outer side surface of the second side cover 340. The bearing bracket 560 is fixed to an outer surface of the second side cover 340 by a separate fastener (not shown). The bearing member 550 is coupled to the other end of the fan shaft 540 protruding to the outside of the convection chamber 301 through the second fan installation hole 341. At this time, the bearing member 550 is coupled to the other end of the fan shaft 540 in a state fixed to the bearing bracket 560, or is coupled to the other end of the fan shaft 540 and then the bearing bracket ( 560 or fixed to the bearing bracket 560 while being coupled to the other end of the fan shaft 540.

As such, when the coupling of the bearing member 550 and the fixing of the bearing bracket 560 are completed, convection heaters 710 and 720 are inserted into the convection chamber 301. In more detail, as shown in FIG. 9, the convection heaters 710 and 720 are respectively inserted into the convection chamber 301 through the heater through holes 343. One end of the convection heater 710 and 720 is inserted into each of the first heater installation holes 335. In this case, the other ends of the convection heaters 710 and 720 are positioned outside the convection chamber 301 through the heater through holes 343.

In this state, the heater bracket 350 is fixed to the outer side surface of the second side cover 340. Referring to FIG. 10, when the heater bracket 350 is in contact with the outer surface of the second side cover 340, the other of the convection heater 710 and 720 positioned outside the convection chamber 301. The end is inserted into the second heater installation hole 353. And when the heater bracket 350 is fixed to the outer surface of the second side cover 340 by a separate fastener (not shown), the convection heater 710, 720 of the convection chamber 301 It will not be removed arbitrarily in the state located inside. Fixing the heater bracket 350 to the second side cover 340 by the fastener is for easy attachment and detachment of the convection heater 710 and 720. Accordingly, the worker may remove the fastener and separate the heater bracket 350 from the second side cover 340, thereby allowing the convection heater 710 and 720 to be separated and repaired or replaced. .

Meanwhile, referring to FIG. 11, the outer cover 320 is fixed to the first and second side covers 330 and 340. At this time, although not shown, a heat insulating material may be positioned between the inner cover 310 and the outer cover 320. The outer cover 320 may be fixed to the first and second side covers 330 and 340 by separate fasteners (not shown). Of course, the outer cover 320 may be fixed to the inner cover 310.

Finally, referring to FIG. 12, when the outer cover 320 is fixed to the inner cover 310, the cooling fan 600 is coupled to the other end of the first motor shaft 510. The thermistor 900 is installed through the outer cover 320 and the inner cover 310. Therefore, assembling of the convection device is completed, and when the convection chamber 301 thus assembled is fixed to the rear surface of the cavity 100 (see FIG. 1), that is, the back plate 120 (see FIG. 1), the convection device Installation is complete.

The separation of the convection fan 400, the convection motor 500, and the convection fan 400 may be performed by removing some of the fasteners. In more detail, in order to separate the convection fan 400, a fastener for fixing the outer cover 320 to the first and second side covers 330 and 340 and the second side cover 340. ) To remove the fastener fixing the inner cover 310. When the outer cover 320 and the second side cover 340 are separated, the convection fan 400 is separated to the outside of the convection chamber 301. In addition, in the case of the convection motor 500, after removing the fastener for fixing the convection motor 500 to the first side cover 330, the convection motor 500 from the second side cover 340. You just need to separate In the case of the convection heater 710 and 720, a fastener for fixing the motor bracket 530 to the second side cover 340 is removed. In this state, the motor bracket 530 is separated from the second side cover 340, and then the convection heater 710 and 720 of the convection chamber 301 are passed through the heater through hole 343. This can be separated outside.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. will be.

In the above-described embodiment, the microwave oven has been described as an example, but it can be applied to other cooking appliances, for example, an electric oven or an electric oven, in which a convection device can be used.

In addition, in the above-described embodiment, the outer cover is described as being fixed to the first and second side cover, but the outer cover is not necessarily fixed to the first and second side cover. For example, the outer cover may be fixed to the inner cover and / or the first and second side covers.

In the above-described embodiment, the convection motor is limited to being forcedly cooled by the cooling fan, but the convection motor may be naturally cooled. In this case, the guide part formed in the cooling fan, the second motor shaft, and the motor bracket may be deleted.

In the above-described embodiment, the members constituting the convection cover are called inner cover, outer cover, and side cover, respectively, but if the functions are the same, it can be understood that the components are substantially the same even though the names are different. That is, the members forming substantially the remaining surfaces except for both sides of the convection chamber will be understood as the inner cover, and the members forming both sides of the convection chamber will be understood as side covers. In addition, the member surrounding the outside of the member constituting the convection chamber may be understood as an outer cover.

In addition, in the above-described embodiment, the convection cover is described as including the inner cover, the outer cover, and the first and second side covers, but the configuration of the convection cover is not necessarily limited thereto. For example, if the insulation of the convection cover can be made sufficiently, the outer cover may be deleted. In addition, the outer cover may be directly fixed to the back plate without being substantially fixed to the inner cover or the side cover.

Claims (12)

A convection device for forming a flow of air circulating between a cooking chamber and a convection chamber in which food is cooked:
A convection cover including an inner cover and first and second side covers fixed to opposite ends of the inner cover, the convection chamber being formed by the inner cover and the first and second side covers;
A convection fan installed inside the convection chamber and forming a flow of air circulating between the cooking chamber and the convection chamber;
A convection motor installed on an outer surface of the first side cover and providing a driving force for rotation of the convection fan; And
At least one convection heater installed in the convection chamber and heating the air flowing by the convection fan; Including,
The first side cover is welded and fixed to one end of the inner cover before the convection fan is installed, and the second side cover is fixed to the other end of the inner cover by a fastener after the convection fan is installed. Convection Device. The method of claim 1,
And a second side cover fixed to the other end of the inner cover after the convection fan is coupled to one end of a motor shaft provided in the convection motor. The method of claim 1,
One end of the fan shaft is coupled to the other end of the convection fan before the second side cover is fixed to the inner cover,
The other end of the fan shaft through the hole formed in the inner cover convection device protrudes out of the convection chamber. The method of claim 3, wherein
And a bearing member rotatably supporting the other end of the fan shaft on an outer side surface of the second side cover by a bearing bracket. The method of claim 1,
And the convection heater is inserted into the convection chamber through one of the first and second side covers after the inner cover and the first and second side covers are fixed. The method of claim 5, wherein
One end of the convection heater is supported by the other of the first and second side covers while the convection heater is inserted into the convection chamber through one of the first and second side covers,
The other end of the convection heater, the convection device is supported on the heater bracket which is fixed to any one of the first and second side cover after one end of the convection heater is supported on the other of the first and second side cover. . The method of claim 1,
Further comprising a heater bracket detachably fixed to any one of the first and second side cover by a fastener,
The heater bracket may include the first and second side covers when one end of the convection heater is supported by the other of the first and second side covers after the inner cover and the first and second side covers are fixed. Convection device for supporting the other end of the convection heater while being fixed to any one of. The method of claim 1,
The convection cover is an outer cover fixed to at least one of the inner cover and the first and second side covers to surround the outer surface of the inner cover after the inner cover and the first and second side covers are fixed. Convection device further comprising. The method of claim 8,
Convection device further comprising a heat insulating material provided between the inner cover and the outer cover. Cavity is provided with a cooking chamber;
A door for selectively opening and closing the cooking chamber; And
The convection device according to any one of claims 1 to 9, provided on one surface of the cavity; . 11. The method of claim 10,
The convection device is a cooking appliance which is fixed to the cavity after the convection fan, a convection motor, and a convection heater is installed on the convection cover. 11. The method of claim 10,
And a back cover surrounding the convection device.

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