CN214675755U - Cooking utensil - Google Patents

Abstract

The utility model provides a cooking utensil, which comprises a panel (10), a shell (20) and a heat dissipation device, wherein the panel (10) is covered on the shell (20) and forms a cavity with the shell (20), and the heat dissipation device is positioned in the cavity; be equipped with on diapire (21) of casing (20) and store room (24) and air intake (22) that are linked together with the cavity, air intake (22) are located and store room (24) and set up with heat abstractor is relative, and store room (24) are located diapire (21) of casing (20) and keep away from on the one side of cavity for the storage cold air. The utility model discloses can improve the radiating effect of the inside electrical part of cooking utensil, help prolonging cooking utensil's life.

Description

Cooking utensil

Technical Field

The utility model relates to a household electrical appliances technical field especially relates to a cooking utensil.

Background

At present, the induction cooker has wide application in daily life due to the functions of water boiling, frying, barbecue, hot pot, quick frying, milk heating, soup cooking, slow stewing, appointment making and the like.

The electromagnetic oven heats food by using electromagnetic induction principle. The induction cooker comprises a shell and a panel, wherein the panel is covered on the shell and forms an accommodating cavity with the shell in an enclosing mode. The inner electric devices of the induction cooker, such as the coil panel, the temperature measuring component, the circuit board and the like, are arranged in the accommodating cavity. When alternating current passes through the coil disc to generate a magnetic field, and magnetic lines of force in the magnetic field pass through the bottom of the cookware containing iron, eddy current is generated, so that the bottom of the cookware can rapidly heat, and the purpose of heating food is achieved.

However, when the induction cooker works for a long time, the temperature of internal electric devices of the induction cooker is too high, and the service life of the induction cooker is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooking utensil to solve current cooking utensil for example electromagnetism stove long time work, the inside electrical part high temperature of electromagnetism stove and influence electromagnetism stove life's problem.

The embodiment of the utility model provides a cooking appliance, which comprises a panel, a shell and a heat dissipation device, wherein the panel is covered on the shell and forms a cavity with the shell, and the heat dissipation device is positioned in the cavity; the air inlet that is equipped with the locker room on the diapire of casing and is linked together with the cavity, the air inlet be located the locker room and set up with heat abstractor is relative, the locker room is located the diapire of casing and keeps away from on the one side of cavity for the storage cold air.

The embodiment of the utility model provides a through set up the locker room on the diapire of casing, and establish the air intake in the locker room, when cooking utensil needs dispel the heat to inside electrical part for a long time working like this, under heat abstractor's effect, outside cold air can be partly through inside the air intake will get into cooking utensil, thereby dispel the heat to inside electrical part, another part cold air can be saved in the locker room, in cooking utensil long-time work like this, can have enough amount of wind can carry out quick replenishment to the amount of wind that gets into cooking utensil inside, and get into inside cooking utensil through the air intake, dispel the heat to inside electrical part, with the radiating efficiency who improves cooking utensil, thereby help prolonging the life of cooking utensil such as electromagnetism stove.

In a specific embodiment of the present invention, the side of the storage chamber away from the cavity is an open side. Like this under heat abstractor's effect, the outside cold air of can being convenient for gets into the locker room fast, helps the storage of cold air in the locker room.

In a specific embodiment of the present invention, the storage chamber is an indent structure on the bottom wall of the housing. So on the one hand can make the locker room save more cold air, and the storage effect is better, and on the other hand can help the frivolousization of cooking utensil.

In a preferred embodiment of the present invention, the concave structure is a groove on the bottom wall of the housing, and the air inlet is located in the groove. Through the setting of recess like this, when realizing the storage of cold air, the formation of locker room on the casing diapire not only can be convenient for, can make the structure of locker room more regular or standardize moreover, the unified cooking utensil's of being convenient for production standard.

In the specific embodiment of the present invention, the shape of the groove is rectangular, square, circular, oval or track-shaped, and the track-shaped is a bar-shaped structure with two circular ends and a middle rectangle. Thus, the structure of the groove and the cooking utensil can be diversified while the storage of the cold air is realized.

In the embodiment of the present invention, when the groove is rectangular or racetrack shaped, the length of the groove is 240mm, the width is 130mm, and the depth is any value from 8mm to 10 mm. The runway-shaped groove or the rectangular groove can store enough cold air to dissipate heat of internal electric devices.

The utility model discloses an among the concrete implementation, still be equipped with the thermovent on the casing, the locker room setting is kept away from to the thermovent on the week side of casing. Like this through the thermovent can with the inside cold air of cooking utensil hot-blast discharge that forms after the heat dissipation, strengthen inside electrical part and cooking utensil's radiating effect, help prolonging cooking utensil's life. Meanwhile, the heat dissipation port is far away from the storage chamber, so that the mixing of the hot air and the cold air can be avoided, and the temperature rise inside the cooking appliance is influenced.

In a specific embodiment of the present invention, the storage chamber is an outwardly protruding structure on the bottom wall of the housing. Like this the realization is saved cold air, when extension cooking utensil life, not only can effectual utilization cooking utensil's bottom space, can make the setting in locker room and cooking utensil's structure more diversified moreover.

The utility model discloses an among the concrete implementation, be equipped with on the diapire of casing and block the muscle, block that the muscle encloses the week side of establishing at the air intake to inject a locker room with the diapire of casing.

The provision of a storage compartment in the bottom wall of the housing can be facilitated by the blocking ribs in this way, so that the manufacturing process of the cooking appliance is simplified.

In a particular embodiment of the invention, the height between the inner top wall of the storage compartment and the work top of the cooking appliance is any value between 16mm and 18 mm.

Satisfy the amount of wind of locker room storage like this and can dispel the heat to inside electrical part, when extension cooking utensil life, can compromise the arrangement and the overall arrangement of cooking utensil such as electromagnetism stove internal device such as heat abstractor to help cooking utensil's fuselage frivolousization as far as possible.

The utility model discloses an among the specific embodiment, the one end setting that the air intake is close to the locker room, and the locker room sets up along one side of casing diapire.

Through the one end setting that the air intake is close to the locker room like this, can be so that heat abstractor corresponding setting is in the one corner of cavity also to the overall arrangement of other devices or utensil in the cavity in cooking utensil inside, thereby make cooking utensil's complete machine structure compacter.

In a specific embodiment of the present invention, the air inlet is a convex air inlet grid structure on the bottom wall of the housing.

Through setting up of air intake evagination formula air inlet grid structure like this can establish heat abstractor's at least part in the air intake on the one hand to increase the usable space of cavity, on the other hand can increase the intake of cold air, improves the radiating effect of inside electrical part, thereby further extension cooking utensil's life.

The structure of the present invention and other objects and advantages thereof will be more clearly understood from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an induction cooker according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an induction cooker in another aspect according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion A of the induction cooker of FIG. 2;

FIG. 4 is a top view of the induction hob of FIG. 1;

fig. 5 is a bottom view of the induction cooker of fig. 1 according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another induction cooker in fig. 1 according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another induction cooker in fig. 1 according to an embodiment of the present invention;

FIG. 8 is a front view of the induction hob of FIG. 1;

fig. 9 is a partially enlarged view of a B portion of the induction cooker of fig. 8.

Description of reference numerals:

100-induction cooker; 10-a panel; 20-a housing; 30-supporting feet;

21-bottom wall; 22-air inlet; 221-a through hole; 23-a heat dissipation port; 231-heat dissipation holes; 24-a storage chamber; 241-inner top wall.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The cooking appliance can be an induction cooker or other cooking appliances with air inlets for heat dissipation.

The cooking utensil of the embodiment of the present invention is further explained by taking an electromagnetic oven as an example.

Example one

Fig. 1 is a schematic structural diagram of an induction cooker according to an embodiment of the present invention, fig. 2 is a schematic structural diagram of an induction cooker according to another angle provided by the present invention, fig. 3 is a partial enlarged view of a portion a of the induction cooker in fig. 2, fig. 4 is a top view of the induction cooker in fig. 1, fig. 5 is a bottom view of the induction cooker in fig. 1 provided by an embodiment of the present invention, fig. 6 is a schematic structural diagram of another induction cooker in fig. 1 provided by an embodiment of the present invention, fig. 7 is a schematic structural diagram of another induction cooker in fig. 1 provided by an embodiment of the present invention, fig. 8 is a front view of the induction cooker in fig. 1, and fig. 9 is a partial enlarged view of a portion B of the induction cooker in fig. 8.

Referring to fig. 1 to 9, an embodiment of the present invention provides a structural schematic diagram of an induction cooker at multiple angles. As can be seen in fig. 1 and 2, a cooking appliance such as an induction cooker 100 may include a panel 10, a housing 20, and a heat sink (not labeled in the figures). The panel 10 may cover the housing 20 and enclose a cavity (not shown) with the housing 20, and the heat dissipation device is located in the cavity. The bottom wall 21 of the casing 20 is provided with a storage chamber 24 and an air inlet 22 communicated with the cavity, the air inlet 22 is located in the storage chamber 24 and is arranged opposite to the heat dissipation device, and the storage chamber 24 is located on the side, far away from the cavity, of the bottom wall 21 of the casing 20 and is used for storing cold air. The cavity of the cooking appliance such as the induction cooker 100 can be communicated with the outside through the air inlet 22, so that the internal electric components of the cooking device can be cooled by the cooling device.

Meanwhile, due to the arrangement of the storage chamber 24 on the bottom wall 21 of the housing 20 and the installation of the air inlet 22 in the storage chamber 24, the storage chamber 24 can communicate with the cavity through the air inlet 22. Under the condition of cooking utensil long-time work, when inside electrical part high temperature need dispel the heat, under heat abstractor's effect, outside cold air can be partly through inside air intake 22 will get into cooking utensil, with realize the heat dissipation to inside electrical part through the forced air cooling, another part cold air can be stored in locker room 24, in cooking utensil such as electromagnetism stove 100 long-time work like this, can have sufficient amount of wind and can carry out quick replenishment to the inside amount of wind of cooking utensil, and inside getting into cooking utensil through air intake 22, dispel the heat to inside electrical part, with the radiating efficiency who improves cooking utensil, thereby help prolonging cooking utensil such as the life of electromagnetism stove 100.

It should be noted that, in this embodiment, a part of the cool air is stored through the storage chamber 24, and the working time or the working frequency of the heat dissipation device can be reduced, so that the service life of the cooking appliance is further prolonged while the heat dissipation effect of the internal electric device is ensured.

For example, the heat sink may be a heat sink fan or other air-cooled heat sink. I.e., the heat dissipation device includes, but is not limited to, a heat dissipation fan.

A coil panel (not shown), a temperature measuring assembly (not shown), and a circuit board (not shown) are further disposed in the cavity of the cooking appliance, such as the induction cooker 100. The temperature measuring component can be partially arranged in the coil panel in a penetrating way, and one end of the temperature measuring component can extend out of the coil panel and is arranged in a temperature measuring hole (not marked in the figure) formed in the panel 10 in a penetrating way, so that the temperature of the bottom of a pot placed on the cooking utensil can be monitored. The other end of the temperature measurement component can penetrate out of the coil panel to be electrically connected with the circuit board, so that the temperature measurement component can be controlled through the circuit board.

For example, the Temperature measuring component may be a heat sensitive Temperature measuring patch, such as an ntc (negative Temperature coefficient) patch, in the existing induction cooker 100.

Wherein, the temperature measurement component and the coil panel can adopt the corresponding structure in the existing cooking utensil such as the induction cooker 100, and in this embodiment, the structure and the fixed mode of the temperature measurement component and the coil panel are not further explained.

It is understood that the internal electrical components of the cooking appliance may be understood as one or several of the coil disk, the temperature measuring assembly and the circuit board. Alternatively, the internal electric device may also include other electric devices in the cooking appliance, and in this embodiment, the internal electric device of the cooking appliance is not further limited.

As a possible embodiment, referring to fig. 2 and 3, the side of the storage chamber 24 away from the cavity is an open side. Thus, under the action of the heat dissipation device, the external cold air can be conveniently and rapidly introduced into the storage chamber 24, so that the storage of the cold air in the storage chamber 24 is facilitated.

Referring to fig. 2 and 3, the open side is understood to be the side of the storage compartment 24 that is not covered. That is, one face of the storage compartment 24 is open or open-ended. This facilitates rapid ingress and storage of cool air into the storage compartment 24 by the heat sink.

As another possible embodiment, the side of the storage chamber 24 away from the cavity may also be provided with an opening, i.e. it is understood that the side of the storage chamber 24 is partially open.

In the following embodiment, a surface of the storage chamber 24 away from the cavity is taken as an open surface, and the cooking appliance of the embodiment is further described.

As a possible embodiment, referring to fig. 2 to 9, the storage chamber 24 may be a concave structure on the bottom wall 21 of the housing 20.

That is, the storage chamber 24 is a structure recessed toward the inside of the housing 20 on the bottom wall 21 of the housing 20. Thus, the whole structure of the cooking appliance such as the induction cooker 100 is not affected, on one hand, the storage chamber 24 can store more cold air, the storage effect is better, and on the other hand, the lightening and thinning of the cooking appliance can be facilitated.

For example, as shown in fig. 2 to 9, the concave structure may be a groove on the bottom wall 21 of the housing 20, and the air inlet 22 may be located in the groove. Through the setting of recess like this, when realizing the storage of cold air, not only can be convenient for the formation of deposit room 24 on the casing 20 diapire 21, the processing of being convenient for moreover can make the structure of deposit room 24 more regular or normalized, the unified cooking utensil's of being convenient for production standard.

As shown in fig. 2-7, the shape of the groove may be rectangular, square, circular, oval, racetrack, or other shape. Therefore, the groove and the cooking utensil can be more diversified in structure while cold air storage is realized.

Among these, racetrack shape is understood to be a bar structure (as shown in fig. 2, 3 and 5) with rounded ends and a rectangular middle. Therefore, the structure of the groove can be more mellow and beautiful while enough cold air is realized.

Alternatively, in the present embodiment, the concave structure may be a concave structure on the bottom wall 21 of the housing 20. That is, the recessed configuration is not limited to a groove in the bottom wall 21 of the housing 20.

It will be appreciated that after the cool air enters the cavity of the cooking appliance through the air inlet 22 and absorbs heat from the internal electrical components, the temperature rises, which is called hot air, i.e. hot air.

In order to avoid the influence of the hot wind on the temperature rise and the heat dissipation effect in the cooking appliance, as shown in fig. 2, 3, 5 to 7, the housing 20 is further provided with a heat dissipation port 23, and the heat dissipation port 23 is provided away from the storage chamber 24 on the circumferential side of the housing 20. Like this can discharge the hot-blast discharge that forms through thermovent 23 after the heat dissipation with the inside cold air of cooking utensil, the radiating effect of inside electrical part of reinforcing and cooking utensil helps prolonging cooking utensil's life.

Meanwhile, the heat dissipation port 23 is far away from the storage chamber 24, so that the mixing of the hot air and the cold air can be avoided, and the temperature rise and the heat dissipation effect inside the cooking appliance are influenced.

The heat dissipation port 23 may be provided at one or more positions on the circumferential side of the housing 20 and away from the storage chamber 24.

Illustratively, the heat dissipation opening 23 may be provided at an end of the peripheral side of the housing 20 near the panel 10 to avoid mixing of hot air and cold air as much as possible. Accordingly, the heat dissipation port 23 may include a plurality of heat dissipation holes 231, and the shape of the heat dissipation holes 231 may be circular, oval, square, rectangular, racetrack, or other shapes.

In the present embodiment, the shape of the heat dissipation hole 231 and the arrangement on the housing 20 are not further limited.

Wherein the height H between the inner top wall 241 of the storage chamber 24 and the work top of the cooking appliance is any value of 16mm-18mm (as shown in fig. 9). Thus, the storage chamber 24 can store enough air volume to dissipate heat of internal electric devices, the service life of the cooking appliance is prolonged, and meanwhile, arrangement and layout of internal devices such as a heat dissipation device and the like of the cooking appliance such as the induction cooker 100 can be considered, so that the machine body of the cooking appliance is lightened and thinned as much as possible.

Illustratively, in the embodiment, the electromagnetic oven 100 is taken as an example, when the groove is rectangular or racetrack shaped, the length L of the groove is 240mm, the width W of the groove is 130mm, and the groove depth h is any value from 8mm to 10 mm.

That is, a runway-shaped groove or a rectangular groove may be disposed on the bottom wall 21 of the housing 20 of the induction cooker 100, wherein the length L of the runway-shaped groove or the rectangular groove is 240mm, the width W of the runway-shaped groove or the rectangular groove is 130mm, and the groove depth h of the runway-shaped groove or the rectangular groove may be any value from 8mm to 10mm, such as 9 mm.

In the racetrack-shaped or rectangular groove, the height H between the top of the groove (i.e., the inner top wall 241 of the storage chamber 24) and the working platform of the induction cooker 100 (the height between the top of the groove and the bottom of the supporting feet 30 of the induction cooker 100 as shown in fig. 9) is 18 mm. Thus, the racetrack-shaped groove or the rectangular groove can store enough cold air to dissipate heat of internal electric devices.

It should be noted that for cooking appliances of different sizes, such as the induction cooker 100, the transverse dimension of the storage compartment 24 (i.e., the dimension of the plane parallel to the panel 10) should be as large as possible under limited conditions, so as to store sufficient air volume for heat dissipation from the internal electrical components.

As another possible embodiment, the storage compartment 24 may also be a raised structure (i.e., a raised structure) on the bottom wall 21 of the housing 20. Like this when realizing the cold air storage, extension cooking utensil life, not only can effectual utilization cooking utensil for example the bottom space of electromagnetism stove 100, can make the setting of locker room 24 and cooking utensil's structure more diversified moreover.

Illustratively, the bottom wall 21 of the housing 20 may be provided with a blocking rib, which is disposed around the air inlet 22 and defines a storage chamber 24 with the bottom wall 21 of the housing 20. The provision of the storage compartment 24 in the bottom wall 21 of the housing 20 is thus facilitated by the blocking ribs to simplify the manufacturing process of the cooking appliance.

It should be noted that, in order to facilitate the entry of cold air, the blocking rib should have a distance from the working surface of the cooking utensil. In this embodiment, the value of the pitch is not further limited.

It should be noted that, when the storage chamber 24 is of a convex structure, the size of the convex storage chamber may be set with reference to the size of the above-mentioned groove, and is not further limited in this embodiment.

In consideration of the heat dissipation effect and the arrangement of the internal components of the cooking appliance, referring to fig. 2 to 9, the air inlet 22 may be disposed near one end of the storage compartment 24, and the storage compartment 24 is disposed along one side of the bottom wall 21 of the housing 20. That is, the intake vent 22 may be provided at a corner of the bottom wall 21 of the housing 20, and the storage chamber 24 may be provided along one side of the cooking appliance. Therefore, the heat dissipation device can be correspondingly arranged at one corner of the cavity, so that other devices in the cooking appliance or the layout of the appliance in the cavity is facilitated, and the whole structure of the cooking appliance is more compact.

Further, as shown in fig. 2 to 9, the air inlet 22 may be a convex air inlet grid structure on the bottom wall 21 of the housing 20.

That is, the air inlet 22 is a convex structure (as shown in fig. 8 and 9) on the bottom wall 21 of the casing 20, and the convex structure has a plurality of through holes 221, and the plurality of through holes 221 are arranged in a grid on the convex structure. Therefore, on one hand, at least part of the heat dissipation device can be arranged in the air inlet 22 to increase the available space of the cavity, and on the other hand, the air inlet amount of cold air can be increased, the heat dissipation effect of internal electric devices can be improved, and the service life of the cooking appliance can be further prolonged.

As another possible embodiment, the intake vent 22 may also be a planar air intake grid structure on the bottom wall 21 of the housing 20. In the present embodiment, the structure of the air inlet 22 is not further limited.

The embodiment of the utility model provides a through the setting of locker room on the diapire of casing to be located the storage chamber with the air intake, can save partial cold air through the locker room like this, the locker room can have sufficient amount of wind to carry out quick replenishment through the air intake can to the inside amount of wind of cooking utensil, dispels the heat to inside electrical part, with the radiating efficiency who improves cooking utensil, thereby helps prolonging the life of cooking utensil such as electromagnetism stove.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "comprises" and "comprising," and any variations thereof, as used herein, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral to one another; either directly or indirectly through intervening media, may be used in either the internal or the external relationship of the two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (12)

1. A cooking appliance is characterized by comprising a panel (10), a shell (20) and a heat dissipation device, wherein the panel (10) is covered on the shell (20) and forms a cavity with the shell (20), and the heat dissipation device is positioned in the cavity; be equipped with on diapire (21) of casing (20) and deposit room (24) and with air intake (22) that the cavity is linked together, air intake (22) are located in deposit room (24) and with heat abstractor sets up relatively, deposit room (24) are located diapire (21) of casing (20) are kept away from in the one side of cavity for the cold air of storage.

2. The cooking appliance according to claim 1, wherein a side of the storage compartment (24) remote from the cavity is an open side.

3. The cooking appliance according to claim 2, wherein the storage compartment (24) is a concave structure on the bottom wall (21) of the housing (20).

4. The cooking appliance according to claim 3, wherein the concave structure is a groove in a bottom wall (21) of the housing (20), and the air inlet (22) is located in the groove.

5. The cooking appliance according to claim 4, wherein the shape of the groove is rectangular, square, circular, oval or racetrack shaped, and the racetrack shaped is a strip structure with two circular ends and a rectangular middle.

6. The cooking appliance according to claim 5, wherein when the groove is shaped as a rectangle or a racetrack, the groove has a length of 240mm, a width of 130mm, and a depth of 8mm to 10 mm.

7. The cooking appliance according to claim 1, wherein the housing (20) is further provided with a heat dissipating port (23), and the heat dissipating port (23) is disposed away from the storage chamber (24) on a peripheral side of the housing (20).

8. The cooking appliance according to claim 2, wherein the storage compartment (24) is a convex structure on the bottom wall (21) of the housing (20).

9. The cooking appliance according to claim 8, wherein the bottom wall (21) of the housing (20) is provided with a blocking rib, the blocking rib is arranged around the periphery of the air inlet (22) and defines the storage chamber (24) with the bottom wall (21) of the housing (20).

10. The cooking appliance according to any one of claims 1 to 9, wherein the height between the inner top wall (241) of the storage compartment (24) and the worktop of the cooking appliance is any value from 16mm to 18 mm.

11. The cooking appliance according to any one of claims 1 to 9, wherein the air inlet (22) is provided near one end of the storage compartment (24), the storage compartment (24) being provided along one side of the bottom wall (21) of the housing (20).

12. The cooking appliance according to any one of claims 1 to 9, wherein the air inlet (22) is a convex air inlet grid structure on the bottom wall (21) of the housing (20).

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