KR101207306B1 - convection heating unit and heating cooker having the same - Google Patents

Abstract

The heating cooker according to the present invention includes a heating cooker body equipped with a cooking chamber, a convection heater for generating heat, a convection fan forcing a flow of heat generated from the convection heater into the cooking chamber, a convection motor for driving a convection fan, and a convection heater. And a convection heating unit having a convection housing accommodating the convection fan, wherein the convection heater and the convection fan are arranged in a line inside the convection housing. According to the present invention, heat transfer from the convection heater to the convection motor is suppressed.

Heat Cooker, Convection Heating Unit, Convection Heater, Convection Fan, Heat Transfer

Description

Convection heating unit and heating cooker having the same {Convection heating unit and heating cooker having the same}

The present invention relates to a heating cooker, and more particularly, to a convection heating unit having a convection heater for generating heat and a convection fan for blowing heat generated from the convection heater into a cooking chamber and a heating cooker having the same.

In general, heating cookers used to cook food are classified into gas cookers using gas combustion heat and electric cookers using electric energy according to heat sources. In addition, the electric cooker is an electric heating method for cooking food using heat generated by an electric heating element, an induction heating method using eddy currents, and a high frequency method for heating food by infiltrating microwaves generated from a microwave generator into a food. Can be distinguished.

The heating cooker using electricity may adopt any one of an electric heating method, an induction heating method, and a high frequency method, and may employ two or three methods together.

As an example of a heating cooker using electricity, Korean Patent No. 10-686035 (Registration Date: Feb. 15, 2007) discloses a microwave oven having a convection heating unit.

The conventional heating cooker disclosed in the above publication is installed at one side of the cooking chamber so that the convection heating unit can heat and circulate air in the cooking chamber. The convection heating unit includes a convection heater for generating heat, a convection fan for forcibly blowing heated air, a convection motor for driving the convection fan, and a convection housing for receiving the convection heater and the convection fan. The convection heater is circular and the convection fan is installed inside the circular convection heater.

In the conventional heating cooker as described above, since the convection fan for blowing hot air into the cooking chamber is installed inside the circular convection heater, the heat generated from the convection heater is not only transferred directly to the convection fan, but also to the convection motor for driving the convection fan. It is easily delivered. Thus, the convection motor is easily heated and the risk of breakage by heat is high.

In addition, in order to prevent damage to the convection motor due to heating, the production cost increases because a sufficient heat insulating material or a motor having a high heat resistance rating should be used.

In addition, the conventional heating cooking apparatus has a convection fan and a convection heater placed on the same plane in the convection housing, the side of the convection fan is installed in a flat plate-like structure, the convection motor for driving the convection fan is convection Since it is installed to protrude to the rear of the fan there is a problem that the width of the convection heating unit becomes large.

Furthermore, when the convection motor is configured to cool the convection motor by providing a separate cooling fan at the rear of the convection motor in order to prevent damage of the convection motor due to heating, its width becomes larger.

The present invention is to solve the above problems, an object of the present invention to provide a convection heating unit and a heating cooker having the same that can suppress the heat transfer to the convection motor of the heat generated from the convection heater.

Another object of the present invention is to provide a slimmed convection heating unit and a heating cooker having the same.

The heating cooker according to the present invention for achieving the above object is a heating cooker body with a cooking chamber, a convection heater for generating heat, a convection fan for forcibly flowing the heat generated from the convection heater into the cooking chamber, the convection fan And a convection heating unit having a convection motor for driving a convection motor, the convection heater, and the convection fan, wherein the convection heater and the convection fan are arranged in a line inside the convection housing.

Here, the convection fan may be provided below the convection heater.

The convection motor may be installed at an exterior of the convection housing, and a rotating shaft may be coupled to the convection fan by penetrating the interior of the convection housing.

The convection housing may include a heater installation unit in which the convection heater is installed and a fan installation unit in which the convection fan is installed, and a depth of the heater installation unit may be greater than a depth of the fan installation unit.

In addition, an upper portion of the fan mounting portion adjacent to the heater mounting portion may be provided with an inclined portion that gradually deepens toward the heater mounting portion.

In addition, the fan mounting portion may be formed in a semi-circular shape of a gentle curve around the remaining portion except for the portion adjacent to the heater installation portion.

In addition, the convection heater may be formed in a straight line.

On the other hand, the convection heating unit according to the present invention for achieving the above object is to supply hot air to the cooking chamber provided in the heating cooker body, the convection heater for generating heat, the heat generated from the convection heater inside the cooking chamber A convection fan for driving the convection fan, a convection motor for driving the convection fan, and a convection housing for accommodating the convection heater and the convection fan, wherein the convection heater and the convection fan are arranged in a line inside the convection housing. It is characterized by.

The present invention is because the convection motor for driving the convection fan is made of a structure that is not easily heated by the convection heater, it is possible to reduce the heat insulating material and to use a motor with a low heat resistance rating, it is possible to reduce the manufacturing cost.

In addition, the present invention is configured so that the depth of the fan installation portion is installed convection fan is shallower than the depth of the heater installation portion is installed convection heater, it is possible to reduce the height of the convection motor installed behind the convection fan projecting from the convection housing, Accordingly, the overall convection heating unit can be made slimmer.

Hereinafter, a heating cooker according to an embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in Figure 1, the heating cooker according to an embodiment of the present invention is a heating cooker body 10 is provided with a cooking chamber 11 therein, the door for opening and closing the open front of the heating cooker body 10 14, a magnetron 20 for oscillating high frequency to the cooking chamber 11, and a convection heating unit 40 for supplying hot air to the cooking chamber 11.

One side of the heating cooker main body 10 is provided with an electric equipment chamber 12, and the electric equipment chamber 12 is equipped with various electric equipment including the magnetron 20. The magnetron 20 is coupled to the outside of one side wall 13 of the cooking chamber 11. The front of the heating cooker body 10 is provided with a door 14 for opening and closing the cooking chamber 11, and a control panel 15 for user operation. The upper and both sides of the heating cooker body 10 are coupled to the electric chamber 12 and the cover 30 covering both sides and the upper portion of the heating cooker body 10. In addition, a turntable 16 on which food or a container is placed is provided at the center lower portion of the cooking chamber 11. The turntable 16 is rotated by a motor (not shown) when cooking is started.

The convection heating unit 40 is coupled to the outside of the other side wall 17 facing the side wall 13 on which the magnetron 20 is installed. The convection heating unit 40 rotates the convection heater 41 which generates heat, the convection fan 43 which blows air heated by the convection heater 41 to the cooking chamber 11, and the convection fan 43. Convection motor 44, and a convection housing 46 for receiving the convection heater 41 and the convection fan 43.

The convection housing 46 is screwed to the cooker body 10. To this end, the convection housing 46 is provided with a plurality of coupling holes 46a to which the screws S are coupled, and the heating cooker body 10 has a plurality of screw holes 10a corresponding to the plurality of coupling holes 46a. ) Is provided. In addition, the hook 46b protrudes from the upper portion of the convection housing 46, and the fixing cooker 10b into which the hook 46b is inserted is provided in the heating cooker body 10. When assembling, the hook 46b may be inserted into the fixing groove 10b to temporarily couple the convection housing 46 to the heat cooker main body 10. Therefore, the operator can easily screw the convection housing 46 by tightening the screw S (see Fig. 2) in the state in which the convection housing 46 is temporarily coupled to the heating cooker body 10 during assembly.

In the present invention, the coupling method of the convection heating unit 40 may be made by other coupling method such as caulking in addition to the screw coupling method.

As shown in FIG. 2, the side walls 17 of the cooking chamber 11 to which the convection housing 46 is coupled are provided with a plurality of suction ports 18 and a plurality of discharge ports 19. The convection housing 46 is provided with a convection chamber 47 that is heated after the air of the cooking chamber 11 is sucked in, and the plurality of suction ports 18 and the plurality of discharge ports 19 are coupled to the convection housing 46. All are formed in a predetermined area so as to be located in the area of the sea convection chamber 47. Here, the discharge port 19 region is located above the suction port 18 region.

As shown in FIGS. 3 and 4, the convection chamber 47 inside the convection housing 46 may be divided into a heater installation unit 48 and a fan installation unit 49, and The fan mounting portions 49 are arranged in a line in the vertical direction.

A pair of linear convection heaters 41 are installed in the heater installation unit 48 side by side in two rows. Terminal portions 42 for power supply are provided at both ends of each convection heater 41, and both ends of the convection heater 41 are provided with convection housings 46 so that the terminal portions 42 are placed outside the convection housing 46. It extends through the outside. The linear convection heater 41 may be installed in any number other than two.

 The convection fan 43 is installed in the fan installation unit 49. The convection fan 43 is coupled to the rotation shaft 45 of the convection motor 44 which penetrates the convection housing 46 and protrudes into the fan installation unit 49. The convection motor 44 provided with the rotation shaft 45 is installed to lie outside the convection housing 46. When the convection fan 43 is rotated, the air of the cooking chamber 11 flows into the fan installation unit 49 through the plurality of suction ports 18 and then flows to the heater installation unit 48. The fan mounting portion 49 is formed in a semicircular shape in which the circumference of the remaining portion except for the portion adjacent to the heater mounting portion 48 is a gentle curve. Due to the shape of the fan mounting unit 49, the air flowing into the fan mounting unit 49 may be smoothly guided to the heater mounting unit 48.

As shown in FIG. 4, the depth D1 of the fan mounting unit 49 is configured to be shallower than the depth D2 of the heater mounting unit 48. The heater installation unit 48 requires a certain amount of space not only for heating the intake air by the convection heater 41 but also to prevent radiant heat from the convection heater 41 from being transmitted directly to the convection housing 46. Shall be. On the other hand, since the fan mounting unit 49 does not need such a space, as shown in FIG. 4, the depth of the fan mounting unit 49 may be relatively thin. By such a configuration, the height at which the convection motor 44 installed behind the fan mounting portion 49 protrudes from the convection housing 46 is reduced. Therefore, the overall depth of the convection heating unit 40 is reduced as a whole, and a slim convection heating unit 40 can be made.

Here, the convection heater 41 and the convection fan 43 is preferably installed to be located at the center of the heater installation unit 48 and the fan installation unit 49, respectively, the convection heater 41 and the convection fan 43 ) Is not installed on the same plane, it is possible to prevent the air blown from the convection fan 43 directly collide with the convection heater 41, it is also possible to prevent noise caused by the collision of air.

The inclination part 49a which gradually deepens toward the heater installation part 48 is provided in the upper part of the fan installation part 49 adjacent to the heater installation part 48. As shown in FIG. The inclined portion 49a guides the airflow generated from the fan installation portion 49 to smoothly flow upward in the rotation of the convection fan 43.

Hereinafter, with reference to the accompanying drawings will be described the operation of the heating cooker according to an embodiment of the present invention. The heating cooker according to one embodiment of the present invention may cook food placed in the cooking chamber 11 by using high frequency and / or hot air generated from the convection heating unit 40 oscillated by the magnetron 20.

When the convection heating unit 40 is operated, the air in the cooking chamber 11 enters the convection chamber 47 of the convection heating unit 40 through the suction port 18 and is heated, and then again through the discharge port 19. (11) flows into the food in the cooking chamber (11).

When the air is circulated between the cooking chamber 11 and the convection chamber 47, the air of the cooking chamber 11 first flows into the fan installation unit 49 and then rises toward the heater installation unit 48. Then, the air flowing to the heater installation unit 48 is heated by the heat generated in the convection heater 41 and then discharged to the cooking chamber 11 through the discharge port 19.

In this way, the air flowing into the convection chamber 47 flows sequentially from the fan installation unit 49 arranged in a row to the heater installation unit 48 to the convection fan 43 of the heat generated from the convection heater 41. Heat transfer is suppressed. Furthermore, since the air heated in the heater installation unit 48 has a characteristic to rise, heat transfer to the convection motor 44 is further suppressed.

In the present invention, the convection heater 41 does not necessarily have to be straight. The convection heater 41 may be formed in another shape that is bent or folded.

In addition, in the present invention, the convection heater 41 does not necessarily need to be disposed above the convection fan 43 and the convection motor 44. If the convection heater 41 and the convection fan 43 are arranged in a line so that the convection heater 41 is spaced apart from the convection fan 43 and the airflow flows from the convection fan 43 toward the convection heater 41 in order, the convection heater ( 41) and the convection fan 43 may be arranged left and right.

On the other hand, Figure 5 schematically shows a heating cooker according to another embodiment of the present invention.

In the heating cooker according to another embodiment of the present invention illustrated in FIG. 5, an electric equipment compartment 52 in which various electric equipments are installed is provided at an upper portion of the cooking compartment 51, and a pair of convection heating units 40 are provided in the cooking compartment 51. It is installed on the left and right side walls (53, 54). Each side wall 53 and 54 to which the convection heating unit 40 is coupled has a suction port 55 for sucking air from the cooking chamber 51 into the convection heating unit 40, and hot air from the convection heating unit 40. The discharge port 56 for discharging to the cooking chamber 51 is provided. Convection heating unit 40 is the same as the convection heating unit 40 of the heating cooker according to the embodiment, the convection heater 41 is provided on the top, the convection fan 43 (see Fig. 3) and the convection motor 44 is installed below the convection heater 41.

The heating cooker according to another embodiment of the present invention reduces the overall width because the convection heating unit 40 installed on the left and right sidewalls 53 and 54 of the cooking chamber 51 is slim. In addition, heat transfer to the convection motor 44 of the heat generated from the convection heater 41 is suppressed, as in the heating cooker according to the embodiment.

As described above, according to the present invention, since heat transfer from the convection heater 41 to the convection motor 44 is suppressed, the amount of heat insulating material for protecting the convection motor 44 can be reduced, and a motor having a low heat resistance rating can be used. The manufacturing cost can be reduced.

In addition, since the convection heating unit 40 is slim, the installation space of the convection heating unit 40 can be reduced and the overall size of the heating cooker can be reduced.

1 is an exploded perspective view schematically showing a heating cooker according to an embodiment of the present invention.

Figure 2 is an exploded perspective view schematically showing the convection heating unit and its installation portion of the heating cooker according to an embodiment of the present invention shown in FIG.

Figure 3 is a front view schematically showing a convection heating unit of the heating cooker according to an embodiment of the present invention shown in FIG.

Figure 4 is a side view showing the convection heating unit shown in FIG.

Figure 5 is a perspective view schematically showing a heating cooker according to another embodiment of the present invention.

Description of the Related Art [0002]

10.Hot cooker main body 11 ... cooking room

12 ... battlefield 18 ... intake

19 ... discharge outlet 20 ... magnetron

30.Cover 40.Convection heating unit

41.Convection Heater 43.Convection Fan

44.Convection motor 45 ... Rotating shaft

46.Convection housing 47 ... Convection chamber

48.Heater mounting section 49 ... Fan mounting section

49a ... Slope

Claims (14)

A heating cooker body equipped with a cooking chamber, A magnetron disposed outside one side wall of the cooking chamber to oscillate a high frequency into the cooking chamber; Convection heating having a convection heater for generating heat, a convection fan forcing the flow of heat generated in the convection heater into the cooking chamber, a convection motor for driving the convection fan, the convection heater and the convection housing for accommodating the convection fan. Including units, The convection heater and the convection fan are arranged in a line inside the convection housing, And the convection heating unit is coupled to an outer side of the side wall facing the side wall on which the magnetron is installed. The method of claim 1, The convection fan is a heating cooker, characterized in that provided in the lower portion of the convection heater. The method of claim 1, The convection motor is installed on the outside of the convection housing, the heating shaft, characterized in that the rotating shaft penetrates into the convection housing and coupled to the convection fan. The method of claim 1, The convection housing is provided with a heater installation unit for installing the convection heater and a fan installation unit for the convection fan is installed, the heating cooker characterized in that the depth of the heater installation portion is deeper than the depth of the fan installation portion. The method of claim 4, wherein And an inclined portion that is gradually deepened toward the heater installation portion at an upper portion of the fan installation portion adjacent to the heater installation portion. 5. The method of claim 4, The fan installation unit is a heating cooker, characterized in that consisting of a semi-circular shape of a gentle curve around the remaining portion except the portion adjacent to the heater installation portion. The method of claim 1, The convection heater is a heating cooker, characterized in that made of a straight line. In the convection heating unit for supplying hot air to the cooking chamber provided in the heating cooker body, A convection heater for generating heat, a convection fan for blowing heat generated from the convection heater into the cooking chamber, a convection motor for driving the convection fan, and a convection housing for receiving the convection heater and the convection fan. and, The convection housing includes a heater installation unit in which the convection heater is installed and a fan installation unit in which the convection fan is installed. The convection motor is directly coupled to the outside of the fan installation portion provided to have a depth smaller than the depth of the heater installation portion, The convection heater and the convection fan is a convection heating unit, characterized in that arranged in a row inside the convection housing. 9. The method of claim 8, The convection fan is a convection heating unit, characterized in that provided in the lower portion of the convection heater. 9. The method of claim 8, The convection motor is installed on the outside of the convection housing convection heating unit, characterized in that the rotating shaft penetrates into the convection housing and coupled to the convection fan. delete 9. The method of claim 8, Convection heating unit, characterized in that the inclined portion that is gradually deeper toward the heater installation portion in the upper portion of the fan installation portion adjacent to the heater installation portion. 9. The method of claim 8, The fan installation unit is a convection heating unit, characterized in that consisting of a semi-circular shape of a gentle curve around the remaining portion except the portion adjacent to the heater installation portion. 9. The method of claim 8, The convection heater is a convection heating unit, characterized in that formed in a straight line.

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