KR101695494B1 - Oven - Google Patents

Abstract

The present invention relates to an oven. An oven according to an embodiment of the present invention includes: an oven chamber in which cooking food is cooked; A partition member for partitioning the oven chamber; A first heater installed inside the oven chamber; And a second position which is rotatably installed inside the oven chamber and which provides energy to the whole of the oven chamber together with the first heater or a first position that provides energy to the front of the oven chamber, A second heater positioned at any one of a second position for providing energy only to the part; . Therefore, according to the present invention, the effect of cooking the food in the oven chamber can be expected more efficiently.

Description

Oven {Oven}

The present invention relates to an oven.

An oven is a cooking device that cooks food using gas or electricity. Such an oven is provided with an oven chamber for cooking the food and a heating source for cooking the food in the oven chamber.

However, in the conventional oven, even when only a part of the oven chamber is used, the entire oven chamber is heated. Particularly, in the case of preheating, the temperature inside the oven chamber must be increased relatively quickly. Even if only a part of the oven chamber is used, since the entire oven chamber must be heated, Time and energy are increased.

An object of the present invention is to provide an oven configured to be able to cook a food more efficiently.

According to an aspect of the present invention, there is provided an oven comprising: an oven chamber in which cooking food is cooked; A partition member for partitioning the oven chamber; A first heater installed inside the oven chamber; And a second position which is rotatably installed inside the oven chamber and which provides energy to the whole of the oven chamber together with the first heater or a first position that provides energy to the front of the oven chamber, A second heater positioned at any one of a second position for providing energy only to the part; .

According to another aspect of the present invention, there is provided an oven comprising: an oven chamber including a top oven chamber and a bottom oven chamber which are cooked and selectively partitioned; A fixed heater installed inside the oven chamber; A rotary heater rotatably installed in the oven chamber; And a microcomputer controlling the fixed heater and the rotary heater to be positioned in the upper oven chamber when the oven chamber is partitioned; .

In the oven according to the present invention, when cooking food using only a part of the oven chamber defined by the partition member, the heater rotates and is located only in a part of the oven chamber. Therefore, according to the present invention, the effect of cooking the food in the oven chamber can be expected more efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a main portion of an oven according to a first embodiment of the present invention; FIG.
Fig. 2 is a longitudinal sectional view showing a main part of the first embodiment of the present invention in exploded view; Fig.
3 is a schematic view showing a first embodiment of the present invention.
4 and 5 are operational state diagrams showing the operation of the first embodiment of the oven according to the present invention.
6 is a schematic view showing a second embodiment of the oven according to the present invention.

Hereinafter, a first embodiment of the oven according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing a main part of a first embodiment of an oven according to the present invention, FIG. 2 is a vertical sectional view showing a main part of a first embodiment of the present invention in an exploded manner, FIG. 3 schematically shows an embodiment of the present invention Fig.

1 to 3, an oven chamber 10 is provided in the oven cavity 10 of the oven 1 according to the present embodiment. The oven chamber (10) is formed in a polyhedral shape having a front surface as a whole. At this time, the ceiling surface of the oven chamber 10 is formed to have a predetermined curvature. The rear surface, the bottom surface, and both side surfaces of the oven chamber 10, except for the ceiling surface of the oven chamber 10, are formed in a flat square or rectangular shape.

On both sides of the oven chamber 10, guide grooves 13 are formed. The guide grooves 13 are formed at the heights of the opposite sides of the oven chamber 10. Both ends of a later-described partition member 20 for partitioning the oven chamber 10 into upper and lower portions are inserted into the guide groove 13. In the present embodiment, the guide grooves 13 are located above a virtual horizontal plane bisecting both sides of the oven chamber 10 vertically.

A heater seat (15) is formed on the rear surface of the oven chamber (10). The heater seating portion 15 is a place where the rotation heater 40 to be described later is selectively seated. The heater seat (15) is formed by recessing the rear part of the oven chamber (10) backward.

A partition member (20) is detachably installed in the oven chamber (10). The partition member (20) is formed in a plate shape substantially corresponding to the cross section of the oven chamber (10). The partition member (20) substantially divides the oven chamber (10) vertically. As described above, since the guide groove 13 is located above the imaginary horizontal plane bisecting both sides of the oven chamber 10, the guide groove 13 is formed in the oven chamber 10 may have a relatively small volume as compared with the lower portion of the oven chamber 10. A part of the oven chamber 10 corresponding to the upper part of the partition member 20 will be referred to as an upper oven chamber 10A and the rest of the oven chamber 10 corresponding to the lower part of the partition member 20 Is referred to as a lower oven chamber 10B.

On the other hand, the oven cavity 10 is provided with a plurality of heating sources. The heating source provides heat for cooking of the food inside the oven chamber (10). In this embodiment, as the heating source, a fixed heater 30, a rotating heater 40, and a convection device 50 are provided.

More specifically, the fixed heater (30) is installed on the upper part of the oven chamber (10). Of course, the fixed heater 30 may be installed on the upper part of the oven cavity 10 corresponding to the outside of the oven chamber 10. In this case, a portion of the upper surface of the oven cavity 10 may be opened to transfer the energy of the fixed heater 30 to the inside of the oven chamber 10. The fixed heater (30) provides radiant energy for cooking the food into the oven chamber (10). The fixed heater 30 substantially provides energy to all of the oven chamber 10 or only to the upper oven chamber 10A.

The rotary heater (40) is rotatably installed inside the oven chamber (10). The rotary heater 40 also provides energy to the inside of the oven chamber 10 in the same manner as the fixed heater 30. In this embodiment, the rotary heater 40 is disposed at a position perpendicular to the bottom surface of the oven chamber 10, that is, at a vertical position (hereinafter referred to as a "first position (refer to FIG. 4) (Hereinafter referred to as " second position (refer to FIG. 5) " for convenience of explanation) at a position parallel to the bottom surface of the oven chamber 10, that is, at a horizontal position. The first position corresponds to the interior of the heater seating portion 15 and the second position corresponds to the interior of the oven chamber 10 corresponding to the upper portion of the partition member 20, (10A). The rotary heater (40) is substantially spaced apart from the projection in the vertical direction of the fixed heater (30) when the rotary heater (40) is positioned at the first position, And at least a part of the projected image in the vertical direction may overlap.

The rotary heater (40) includes a main body (41) and both end portions (43). The main body 41 is formed in a serpentine shape which is bent a predetermined number of times. The both end portions 43 extend in the horizontal direction at both ends of the main body 41. The both end portions 43 substantially serve as pivot centers of the rotary heater 40. To this end, the both end portions 43 pass through the rear end portions of both side surfaces of the oven chamber 10 adjacent to the rear surface of the oven chamber 10. At this time, the both end portions 43 pass through both side surfaces of the oven chamber 10 corresponding to the upper side of the guide groove 13. [

The rotary heater 40 is rotated at the first or second position depending on whether the partition member 20 is attached or detached, that is, whether the oven chamber 10 is partitioned by the partition member 20. In other words, the rotary heater 40 is located at the first position when the oven chamber 10 is not partitioned by the partition member 20. When the oven chamber 10 is partitioned by the partition member 20, the rotary heater 40 is positioned at the second position. Therefore, when the oven chamber 10 is not partitioned by the partition member 20, the rotary heater 40 provides energy to the whole of the oven chamber 10. However, when the oven chamber 10 is partitioned by the partition member 20, the rotary heater 40 provides energy only to the upper oven chamber 10A. As the rotary heater 40, for example, a sheathed heater may be used.

The convection device (50) is located on the rear surface of the oven chamber (10). The convection device 50 serves to circulate the air inside the oven chamber 10. [ In other words, the convection device 50 may form an air flow circulating in the oven chamber 10. Therefore, the convection device 50 may be configured to form two air flows circulating the upper oven chamber 10A and the lower oven chamber 10B, or to form an air flow circulating through the entire oven chamber 10 do. To this end, the convection device 50 includes at least a convection fan 51 and a convection motor 53. In addition, the convection device 50 may include a convection heater (not shown).

3, the oven according to the present embodiment further includes a mounting detection sensor S1, a driving source 60, and a microcomputer 70. As shown in FIG. The mounting detection sensor S1 senses whether or not the partition member 20 is detached, that is, whether the oven chamber 10 is partitioned by the partition member 20 or not. The driving source (60) provides a driving force for rotating the rotary heater (40). For example, the driving source 60 may be a motor rotatable in both directions. The microcomputer 70 controls the operation of the oven, that is, the operation of the heating source. Particularly, the microcomputer 70 controls the operation of the driving source 60 according to whether the oven chamber 10 is partitioned by the mounting sensor S1 to rotate the rotary heater 40.

More specifically, when the mounting sensor S1 senses the mounting of the partition member 20, the microcomputer 70 operates the driving source 60 to rotate the rotating heater 40, 2 position. When the mounting sensor S1 detects the detachment of the partition member 20, the microcomputer 70 operates the driving source 60 to control the rotation heater 40 to be positioned at the first position do.

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

4 and 5 are operation state diagrams showing the operation of the first embodiment of the oven according to the present invention.

4, when the partition member 20 is detached from the oven chamber 10, that is, when the oven chamber 10 is not partitioned by the partition member 20, Is positioned inside the heater seating portion 15, that is, at the first position. When the heating source including the rotary heater 40, that is, the fixed heater 30 and the rotary heater 40 are operated in a state where the oven chamber 10 is not partitioned by the partition member 20 , And the energy is supplied to the whole of the oven chamber (10) by the heating source. Of course, the air in the oven chamber 10 is circulated by the operation of the convection device 50.

Referring to FIG. 5, when the partition member 20 is installed inside the oven chamber 10, the oven chamber 10 is divided into upper and lower portions. When the mounting detection sensor S1 senses the mounting of the partition member 20 into the oven chamber 10, the microcomputer 70 operates the driving source 60. Therefore, the rotary heater 40 is positioned at the second position corresponding to the upper part of the partition member 20 mounted inside the oven chamber 10, which rotates while being positioned at the first position.

In this state, when the heating source is operated, only the upper heater chamber 10A and the upper heater chamber 30A are provided in the upper part of the oven chamber 10, which is substantially defined by the partition member 20, The energy of the rotary heater 40 is supplied. That is, in the upper oven chamber 10A partitioned by the partition member 20, the fixed heater 30 functions as a broiler heater and the rotary heater 40 functions as a bake heater . Therefore, substantially the user can cook the food using only a part of the oven chamber 10. [

Hereinafter, a second embodiment of the oven according to the present invention will be described in detail with reference to the accompanying drawings.

6 is a schematic view showing a second embodiment of the oven according to the present invention. The same components as those of the first embodiment of the present invention among the constituent elements of the present embodiment are referred to with reference to FIGS. 1 to 3, and a detailed description thereof will be omitted.

Referring to Fig. 6, in this embodiment, the input unit 80 receives a signal for rotating the rotating heater 40. Fig. When the input unit 80 receives a signal for rotating the rotary heater 40, the microcomputer 70 operates the driving source 60 so that the rotary heater 40 is moved to the first or second position . For example, the input unit 80 is provided with two buttons, and when any one of the buttons receives a signal, the microcomputer 70 controls the rotation heater 40 to move from the first position to the second position Or from the second position to the first position. Therefore, according to the present embodiment, the rotary heater 40 can be positioned at the first or second position irrespective of whether the oven chamber 10 is divided by the partition member 20 or not.

Hereinafter, a third embodiment of the oven according to the present invention will be described in detail with reference to the accompanying drawings.

7 is a schematic view showing a third embodiment of the oven according to the present invention. The same components as those of the first embodiment of the present invention among the constituent elements of the present embodiment are referred to with reference to FIGS. 1 to 3, and a detailed description thereof will be omitted.

Referring to FIG. 7, the oven according to the present embodiment further includes a rotation detection sensor S2 and a mounting obstruction member 90. [0064] As shown in FIG. The rotation detection sensor S2 detects whether the rotation heater 40 is positioned at the second position. The mounting disturbing member 90 serves to prevent the partition member 20 from being mounted into the oven chamber 10. For example, the mounting disturbing member 90 may be selectively protruded from the one side of the oven chamber 10 to the inside of the oven chamber 10. When the rotation detecting sensor S2 senses that the rotation heater 40 is not positioned at the second position, the micom 70 detects the rotation of the oven chamber 10 (10) by the mounting obstacle member 90, And prevents the partition member 20 from being inserted into the inside of the partition member 20. Therefore, according to the present embodiment, it is possible to prevent mutual interference between the mounting of the partition member 20 and the rotation of the rotary heater 40.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. .

Although not described in the above-described embodiment, the oven chamber may have further guide grooves formed on both sides thereof for mounting grills, racks or the like on which the food is substantially placed.

10: Oven cavity 11: Oven room
20: partition member 30: fixed heater
40: Rotating heater 50: Convection device
60: driving source 70:
80: Input unit 90:
S1: Mounting detection sensor S2: Rotation detection sensor

Claims (11)

An oven chamber in which cooking is performed;
A partition member for partitioning the oven chamber;
A first heater installed inside the oven chamber; And
A first position which is rotatably installed in the oven chamber and which provides energy to the entire oven chamber together with the first heater or a second position that provides energy to the entire portion of the oven chamber which is partitioned by the partition member together with the first heater; A second heater positioned at any one of a second position that provides energy only to the first heater; Lt; / RTI >
When the second heater is located at the first position, the second heater is housed in a heater seating portion formed at the rear surface of the oven chamber,
And the rotary shaft of the second heater passes through the inside of the heater seat portion. The method according to claim 1,
The partition member is mounted in the oven chamber to partition the oven chamber vertically,
The first heater is positioned above the partition member mounted on the oven chamber,
Wherein the second heater is selectively positioned at either a first position orthogonal to the bottom surface of the oven chamber or a second position parallel to the bottom surface of the oven chamber. The method according to claim 1,
Wherein the partition member is located above a virtual plane bisecting both sides of the oven chamber vertically to divide the oven chamber vertically,
Wherein when the oven chamber is partitioned by the partition member, the first and second heaters provide energy to a part of the oven chamber corresponding to the upper part of the partition member. The method according to claim 1,
The first heater is installed on the upper portion of the oven chamber,
And the second heater is disposed at a second position that is rotated in a state of being located at a first position orthogonal to the first heater and parallel to the first heater when the partition member defines the inside of the oven chamber, . The method according to claim 1,
The first heater is installed on the upper portion of the oven chamber,
The second heater is disposed at a first position orthogonal to the bottom surface of the oven chamber or at a second position parallel to the bottom surface of the oven chamber, depending on the user's selection, regardless of whether the oven chamber is partitioned by the partition member The oven is located at. The method according to claim 1,
Further comprising a convection device which forms an air flow circulating a part of the oven chamber partitioned by the partition member or forms an air flow circulating through the entire oven chamber. An oven chamber including a top oven chamber and a bottom oven chamber in which cooking is performed and which is selectively partitioned;
A fixed heater installed inside the oven chamber;
A rotary heater rotatably installed in the oven chamber; And
A microcomputer for controlling the fixed heater and the rotary heater to be located in the upper oven chamber when the oven chamber is partitioned; / RTI >
When the rotary heater is positioned in the lower oven chamber, the rotary heater is housed in a heater seat portion formed in a recessed shape at the rear surface of the oven chamber,
Wherein the rotary shaft of the rotary heater passes through the inside of the heater seat portion. 8. The method of claim 7,
Wherein the upper oven chamber is smaller than the lower oven chamber. 8. The method of claim 7,
Wherein the rotary heater is positioned parallel to the bottom surface of the upper oven chamber when the oven chamber is compartmentalized and is positioned orthogonally to the bottom surface of the lower oven chamber otherwise. 8. The method of claim 7,
Wherein the rotary heater is positioned such that at least a part of the rotary heater overlaps with the vertical projection of the fixed heater when the oven chamber is partitioned and is otherwise spaced from the vertical projection of the fixed heater. 8. The method of claim 7,
Further comprising a convection device for circulating air in the entire oven chamber or circulating air in the upper oven chamber and the lower oven chamber, respectively.

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