CN219720364U - Cooking utensil - Google Patents

Abstract

The utility model discloses a cooking utensil, which comprises: a cooking body defining a receiving cavity; the inner pot is arranged in the accommodating cavity and defines a cooking cavity; the separation device is provided with a liquid storage cavity and a backflow channel, the backflow channel is provided with a first liquid passing part and a second liquid passing part, the first liquid passing part is communicated with the liquid storage cavity and the backflow channel, the second liquid passing part is communicated with the cooking cavity and the backflow channel, and the separation device is provided with a liquid inlet part so as to be communicated with the liquid storage cavity and the cooking cavity; the cooking body comprises a heating device, the heating device comprises a first heating piece and a second heating piece which can work independently, and the bottom of the separating device is provided with a flow guiding part for guiding liquid in the cooking cavity to flow towards the liquid inlet part. According to the cooking utensil provided by the embodiment of the utility model, grease in broth can be rapidly separated, the phenomenon that bubbles drive the separation device to float up and down is avoided, and the cooking utensil has the advantages of improving the oil-water separation efficiency, reducing the workload of a user and the like.

Description

Cooking utensil

Technical Field

The utility model relates to the field of cooking appliances, in particular to a cooking appliance.

Background

When cooking the broth, the grease in the broth can be separated from the meat and float on the broth, the grease influences the taste of the broth on one hand, and does not meet the current low-fat healthy diet requirement on the other hand, if the grease in the broth needs to be removed, a user needs to take out the grease floating on the broth by using a soup ladle.

For this reason, there is disclosed an oil filter device in the related art, in which broth can enter the oil filter device to separate grease from broth when the broth is boiled, but the broth needs a long time to enter the oil filter device, and bubbles generated in the broth when the broth is boiled, the generated bubbles float below the oil filter device, which easily causes the oil filter device to float up and down, and affects the filtering effect of the oil filter device on grease.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the cooking utensil which can accurately heat the liquid in the appointed area in the cooking cavity, so that the liquid near the diversion part can quickly enter the liquid storage cavity along the diversion part to quickly separate the grease in the broth, and meanwhile, the diversion part can disperse the bubbles at the bottom of the separating device, so that the bubbles are prevented from driving the separating device to float up and down, and the cooking utensil has the advantages of improving the efficiency of oil-water separation, reducing the workload of users, saving the time and energy of the users and the like.

According to an embodiment of the first aspect of the present utility model, a cooking appliance includes: a cooking body defining a receiving cavity; the inner pot is arranged in the accommodating cavity and defines a cooking cavity; the separation device is arranged in the inner pot and is provided with a liquid storage cavity and a backflow channel, the backflow channel is provided with a first liquid passing part and a second liquid passing part, the first liquid passing part is communicated with the liquid storage cavity and the backflow channel, the second liquid passing part is arranged above the first liquid passing part and is communicated with the cooking cavity and the backflow channel, and the separation device is provided with a liquid inlet part so as to be communicated with the liquid storage cavity and the cooking cavity; the cooking body comprises a heating device, the heating device is located below the bottom wall of the inner pot and comprises a first heating piece and a second heating piece which can work independently, and the bottom of the separating device is provided with a flow guiding part corresponding to the position of the heating device and used for guiding liquid in the cooking cavity to flow towards the liquid inlet part.

According to the cooking utensil provided by the embodiment of the utility model, the liquid in the appointed area in the cooking cavity can be accurately heated, so that the liquid near the diversion part can quickly enter the liquid storage cavity along the diversion part to quickly separate grease in broth, and meanwhile, the diversion part can disperse bubbles at the bottom of the separation device, so that the bubbles are prevented from driving the separation device to float up and down, and the cooking utensil has the advantages of improving the oil-water separation efficiency, reducing the workload of a user, saving the time and energy of the user and the like.

In addition, the cooking appliance according to the above embodiment of the present utility model may further have the following additional technical features:

according to some embodiments of the utility model, the first and second heating elements are each of annular configuration and the second heating element is located outside the first heating element.

According to some alternative embodiments of the utility model, the projection of the lowest point of the outer surface of the bottom wall of the separating means onto the bottom wall of the inner pan is located within a predetermined area; the preset area is an area occupied by projection of the first heating element and the second heating element on the bottom wall of the inner pot; or the first heating element and the second heating element are both in contact with the inner pot, the inner contour line and the outer contour line of the preset area are respectively positioned at the inner side of the area occupied by the contact position of the first heating element and the bottom wall of the inner pot and the outer side of the area occupied by the contact position of the second heating element and the bottom wall of the inner pot, and the distance between the inner contour line and/or the outer contour line and the corresponding area occupied by the contact position is less than or equal to 15mm.

According to some alternative embodiments of the utility model, the liquid inlet portion includes a first liquid inlet portion and a second liquid inlet portion, the flow guiding portion includes a first flow guiding portion and a second flow guiding portion, the first flow guiding portion corresponds to the first heating element position and extends from bottom to top toward the first liquid inlet portion, and the second flow guiding portion corresponds to the second heating element position and extends from bottom to top toward the second liquid inlet portion.

In some embodiments, the first and second flow guiding portions are each of annular configuration and the second flow guiding portion is located outside the first flow guiding portion.

In some embodiments, the first and second flow guides each extend from bottom to top in a direction away from each other.

In some embodiments, the first flow guiding portion and/or the second flow guiding portion comprises a flow guiding ramp and/or a flow guiding cambered surface.

In some examples, the first flow directing portion and/or the second flow directing portion includes a flow directing ramp and the angle between the flow directing ramp and the horizontal is 10 ° -60 °.

In some examples, the first flow directing portion and/or the second flow directing portion includes a flow directing arcuate surface and the flow directing arcuate surface is a convex arcuate surface.

In some embodiments, the separation device comprises: the liquid storage container is arranged in the cooking cavity; the oil baffle and the liquid storage container define the backflow channel; the oil baffle is characterized in that at least one part of the oil baffle is arranged in the liquid storage container, the first flow guide part and the second flow guide part are arranged on the outer surface of the bottom wall of the liquid storage container, or the oil baffle is arranged outside the liquid storage container, and the first flow guide part and the second flow guide part are arranged on the oil baffle.

In some embodiments, the first liquid inlet portion is disposed on the oil baffle or the liquid storage container, and the second liquid inlet portion includes a second liquid inlet disposed on a peripheral wall of the liquid storage container or an upper end opening of a peripheral wall of the liquid storage container.

In some examples, the second liquid inlet portion includes a plurality of second liquid inlets provided in a peripheral wall of the liquid storage container, and a total area of the plurality of second liquid inlets is greater than or equal to 20mm ² 。

In some examples, the liquid storage container is provided with a bottom wall and a peripheral wall, and a liquid through hole is formed in the middle of the bottom wall of the liquid storage container; the oil baffle is arranged in the liquid storage container and covers the liquid through hole, and the first liquid inlet is arranged on the oil baffle and is opposite to the liquid through hole.

Specifically, the bottom wall of the liquid storage container is provided with an upward extending annular flanging, and the upper end opening of the annular flanging is the liquid through hole; the oil baffle is provided with a top wall and a peripheral wall, the first liquid inlet part is arranged on the top wall of the oil baffle, and the peripheral wall of the oil baffle is positioned on the outer side of the annular flanging and defines at least one part of the backflow channel with the annular flanging.

According to some alternative embodiments of the utility model, the side wall of the inner pot is provided with a positioning protrusion and the separating device is provided with a supporting edge matched with the positioning protrusion; or the side wall of the separating device is provided with a convex rib matched with the side wall of the inner pot; or the separating device is supported on the pot edge of the inner pot; alternatively, the separating device is supported on the bottom wall of the inner pot.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

Fig. 1 is a schematic view of a cooking appliance according to an embodiment of the present utility model in one embodiment.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic structural view of a cooking appliance according to an embodiment of the present utility model in another embodiment.

Fig. 4 is an enlarged view at B in fig. 3.

Fig. 5 is a schematic structural view of a liquid storage container and an oil baffle according to an embodiment of the present utility model, the oil baffle being located outside the liquid storage container.

Reference numerals: the cooking appliance 1 is provided with a pair of cooking devices,

the cooking body 10 is provided with a pair of cooking plates,

an inner pot 20, a cooking cavity 21, a positioning protrusion 22,

the separating device 30, the liquid storage container 31, the liquid through hole 311, the annular flange 312, the oil baffle 32, the liquid storage cavity 33,

the return flow path 34, the first liquid passing portion 341, the second liquid passing portion 342,

the liquid inlet 35, the first liquid inlet 351, the second liquid inlet 352,

the diversion part 36, the first diversion part 361, the second diversion part 362, the diversion inclined plane 363, the diversion cambered surface 364,

the support edge 37 is provided with a pair of support legs,

a heating device 40, a first heating element 41, and a second heating element 42.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

A cooking appliance 1 according to an embodiment of the present utility model is described below with reference to the accompanying drawings.

As shown in fig. 1 to 5, a cooking appliance 1 according to an embodiment of the present utility model includes a cooking body 10, an inner pot 20, and a separating apparatus 30.

The cooking body 10 defines a receiving chamber, the inner pot 20 is disposed in the receiving chamber, the inner pot 20 defines a cooking chamber 21, and a user can place food in the cooking chamber 21 so that the cooking appliance 1 can cook the food in the cooking chamber 21. The separating device 30 is arranged in the inner pot 20, the separating device 30 is provided with a liquid storage cavity 33 and a backflow channel 34, the backflow channel 34 is provided with a first liquid passing portion 341 and a second liquid passing portion 342, the first liquid passing portion 341 is communicated with the liquid storage cavity 33 and the backflow channel 34, the second liquid passing portion 342 is communicated with the cooking cavity 21 and the backflow channel 34, the second liquid passing portion 342 is arranged above the first liquid passing portion 341, the separating device 30 is provided with a liquid inlet portion 35, and the liquid inlet portion 35 is communicated with the liquid storage cavity 33 and the cooking cavity 21.

Wherein, the cooking body 10 comprises a heating device 40, the heating device 40 is positioned below the bottom wall of the inner pot 20, the heating device 40 comprises a first heating element 41 and a second heating element 42 which can work independently, and the first heating element 41 and the second heating element 42 can respectively heat the liquid in different areas in the cooking cavity 21 so as to boil the liquid in the cooking cavity 21, and the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 from the liquid inlet part 35.

Specifically, the heating device 40 boils the liquid in the cooking cavity, after the liquid in the cooking cavity 21 enters the liquid storage cavity 33 from the liquid inlet part 35, the liquid with smaller density floats above the liquid storage cavity 33, the liquid with larger density gathers below the liquid storage cavity 33, the liquid with larger density at the lower part in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing part 341, and along with the rising of the liquid level in the liquid storage cavity 33, the liquid with larger density in the backflow channel 34 can enter the cooking cavity 21 from the second liquid passing part 342, so that the liquid with different densities in the inner pot 20 can be separated, the liquid with smaller density is concentrated in the liquid storage cavity 33, and the liquid with larger density is concentrated in the cooking cavity 21.

In addition, after the liquid with higher density flows from the first liquid passing portion 341 into the return channel 34, and flows from the second liquid passing portion 342 into the cooking cavity 21 along the return channel 34, the liquid with lower density is collected in the liquid storage cavity 33, so that the second liquid passing portion 342 is located above the first liquid passing portion 341, and the liquid with lower density can be stored in the liquid storage cavity 33, so that the liquid with lower density is prevented from entering the cooking cavity 21.

The bottom of the separation device 30 is provided with a diversion part 36, the diversion part 36 is used for guiding the liquid in the cooking cavity 21 to flow towards the liquid inlet part 35, the diversion part 36 corresponds to the heating device 40 in position, so that when the first heating element 41 and the second heating element 42 are utilized to boil the liquid in the cooking cavity 21, the first heating element 41 and the second heating element 42 can rapidly heat the liquid near the diversion part 36, and then when the liquid near the diversion part 36 is boiled, the liquid can flow along the diversion part 36 to the liquid inlet part 35, and further, the liquid in the cooking cavity 21 can rapidly enter the liquid storage cavity 33 from the liquid inlet part 35 along the diversion part 36, so that the efficiency of separating the liquid with different densities of the cooking appliance 1 is conveniently improved, the liquid with the smaller density is concentrated in the liquid storage cavity 33, and the liquid with the larger density is concentrated in the cooking cavity 21.

In addition, when the first heating element 41 and the second heating element 42 boil the liquid in the cooking cavity 21, the bubbles generated in the cooking cavity 21 can float upwards to the vicinity of the flow guiding portion 36, and can flow to the liquid inlet portion 35 along the flow guiding portion 36 at the bottom of the separating device 30, so that the bubbles are prevented from being accumulated at the bottom of the separating device 30, and further, when the bubbles float, the bubbles are prevented from driving the separating device 30 to float up and down, and the position of the separating device 30 is prevented from being influenced, so that the separating device 30 can smoothly separate the liquid with different densities.

It should be noted here that, when heating the liquid in the cooking cavity 21, either the first heating member 41 or the second heating member 42 may be heated alone or the first heating member 41 and the second heating member 42 may be heated together, and the heating range and the position of the flow guiding portion 36 relative to the heating device 40 may be selected according to the need, which is not limited here too.

Specifically, by providing the flow guiding portion 36 at the bottom of the separation device 30, the flow guiding portion 36 corresponds to the position of the heating device 40, so that when the first heating element 41 and the second heating element 42 heat the liquid in the cooking cavity 21, the bubbles generated by heating are closer to the flow guiding portion 36, and can float upwards to the bottom of the separation device 30, the bubbles flow to the liquid inlet portion 35 along the flow guiding portion 36 at the bottom of the separation device 30, so that the bubbles are prevented from being accumulated at the bottom of the separation device 30, and further, when the bubbles float, the bubbles are prevented from driving the separation device 30 to float up and down, and the influence on the position of the separation device 30 is avoided, so that the separation device 30 can smoothly separate liquids with different densities.

Meanwhile, the first heating element 41 and the second heating element 42 heat the liquid in the cooking cavity 21, the liquid in the area, which is close to the flow guiding part 36, in the cooking cavity 21 can be boiled quickly, so that the liquid can flow to the liquid inlet part 35 along the flow guiding part 36, and enter the liquid storage cavity 33 from the liquid inlet part 35, thus when the liquids with different densities in the cooking cavity 21 are separated, the time for separating grease of the cooking appliance 1 is reduced, the heating temperature of the cooking appliance 1 can be flexibly changed according to the requirement, and the cooking appliance 1 can be used for cooking soup better.

According to the cooking utensil 1 of the embodiment of the utility model, the flow guiding part 36 and the heating device 40 are correspondingly arranged, the heating device 40 is used for precisely heating the liquid near the flow guiding part 36, and bubbles and boiling liquid generated by heating can quickly flow into the liquid storage cavity 33 along the flow guiding part 36, so that on one hand, the efficiency of the liquid in the cooking cavity 21 entering the liquid storage cavity 33 is conveniently improved, the grease of the broth in the cooking cavity 21 is quickly and automatically separated by the separating device 30, on the other hand, the bubbles can be prevented from being gathered at the bottom of the separating device 30, the bubbles can be prevented from driving the separating device 30 to float up and down, and the position of the separating device 30 can be prevented from being influenced, so that the separating device 30 can smoothly separate liquids with different densities.

Specifically, when the cooking appliance 1 is used for cooking soup, the first heating element 41 and the second heating element 42 heat the broth, and when the broth in the cooking cavity 21 is boiled, bubbles and boiling liquid generated by heating can flow to the liquid inlet portion 35 along the guiding portion 36, so that the liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 along the guiding portion 36, and the grease of the broth in the cooking cavity 21 can be quickly and automatically separated by the separating device 30.

Specifically, after the liquid in the cooking cavity 21 enters the liquid storage cavity 33 along the guiding portion 36, the soup with higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341, the soup with lower density enters the cooking cavity 21 from the second liquid passing portion 342 along the backflow channel 34, and the grease with lower density is stored in the liquid storage cavity 33 to separate the soup in the broth from the grease, so that after the soup is cooked, a user can obtain the soup with the separated grease from the cooking cavity 21 without deoiling the broth in the cooking cavity 21, the workload of the user is reduced, the time and energy of the user are saved, the oil-water separation efficiency is improved, and the oil-water separation effect is improved conveniently.

Meanwhile, the bubbles generated when the first heating element 41 and the second heating element 42 heat the broth can float upwards to the vicinity of the diversion part 36, flow to the liquid inlet part 35 along the diversion part 36, avoid the bubbles to be gathered at the bottom of the separation device 30, and further avoid the bubbles to drive the separation device 30 to float up and down when the bubbles float, avoid influencing the position of the separation device 30, so that the separation device 30 can smoothly separate liquids with different densities.

Therefore, according to the cooking appliance 1 of the embodiment of the utility model, the liquid in the designated area in the cooking cavity 21 can be precisely heated, so that the liquid near the diversion part 36 can quickly enter the liquid storage cavity 33 along the diversion part 36 to quickly separate the grease in the broth, and meanwhile, the diversion part 36 can disperse the bubbles at the bottom of the separating device 30, so that the bubbles are prevented from driving the separating device 30 to float up and down, and the cooking appliance has the advantages of improving the oil-water separation efficiency, reducing the workload of users, saving the time and energy of the users and the like.

A cooking appliance 1 according to a specific embodiment of the present utility model is described below with reference to the accompanying drawings.

As shown in fig. 1 to 5, a cooking appliance 1 according to an embodiment of the present utility model includes a cooking body 10, an inner pot 20, and a separating apparatus 30.

In some embodiments of the present utility model, the first heating element 41 and the second heating element 42 are respectively in an annular structure, and the second heating element 42 is located at the outer side of the first heating element 41, so that the heating area of the first heating element 41 and the heating area of the second heating element 42 are conveniently increased, and the first heating element 41 and the second heating element 42 can quickly and uniformly heat the liquid in the cooking cavity 21, so that the heating efficiency of the heating device 40 is conveniently improved, the liquid in the cooking cavity 21 can be quickly boiled, and the boiled liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 along the guiding part 36, so that the liquids with different densities in the cooking cavity 21 can be quickly separated.

As shown in fig. 1, in the present embodiment, the first heating element 41 and the second heating element 42 are disposed below the bottom wall of the inner pot 20, the inner pot 20 is circular in downward projection along the up-down direction, and the second heating element 42 is located outside the first heating element 41, so that the first heating element 41 and the second heating element 42 are formed into a ring structure, so that the first heating element 41 can heat the liquid in the middle of the inner pot 20, the second heating element 42 can heat the liquid on the side of the inner pot 20, and further the first heating element 41 and the second heating element 42 can sufficiently and uniformly heat the liquid in the cooking cavity 21, so that the boiling liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 along the guiding portion 36.

The first heating element 41 may heat the liquid in the middle of the cooking cavity 21, the second heating element 42 may heat the liquid on the side of the cooking cavity 21, and when heating the liquid in the cooking cavity 21, one of the first heating element 41 or the second heating element 42 may be heated alone, or the first heating element 41 and the second heating element 42 may be heated together, and specifically, the heating range and the position of the flow guiding portion 36 relative to the heating device 40 may be selected according to the requirement, which is not limited herein.

In some alternative embodiments of the present utility model, as shown in fig. 1, the projection of the lowest point of the outer surface of the bottom wall of the separating device 30 on the bottom wall of the inner pan 20 is located in a preset area, so that the heating device 40 can precisely heat the liquid in the area corresponding to the preset area, so that the heating device 40 can heat the liquid at the bottom of the separating device 30, and further the liquid in the area can be boiled quickly, so that the liquid below the separating device 30 can flow along the guiding portion 36 to the liquid inlet portion 35, and the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33.

Meanwhile, when the heating device 40 heats the liquid in the cooking cavity 21, the bubbles generated by heating are closer to the flow guiding part 36, the bubbles can float upwards to the bottom of the separating device 30, flow to the liquid inlet part 35 along the flow guiding part 36 at the bottom of the separating device 30, the bubbles are prevented from being gathered at the bottom of the separating device 30, and then when the bubbles float, the bubbles are prevented from driving the separating device 30 to float up and down, and the influence on the position of the separating device 30 is prevented, so that the separating device 30 can smoothly separate the liquid with different densities.

In some embodiments, the preset area is an area occupied by a projection on the bottom wall of the inner pan 20 between the first heating element 41 and the second heating element 42, the first heating device 40 and the second heating device 40 can fully heat the liquid in the area corresponding to the preset area, so that the first heating element 41 and the second heating element 42 can fully heat the liquid at the outer surface of the bottom wall of the separating device 30, the bubbles and boiling liquid in the cooking cavity 21 can flow to the liquid inlet 35 along the flow guiding part 36, on one hand, the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33, on the other hand, the bubbles can be prevented from being gathered at the bottom of the separating device 30, the bubbles can be prevented from driving the separating device 30 to float up and down, and the influence on the position of the separating device 30 can be avoided, so that the separating device 30 can smoothly separate the liquids with different densities.

In some embodiments, the first heating element 41 includes a plurality of first heating portions, the second heating element 42 includes a plurality of second heating portions, the plurality of first heating portions and the plurality of second heating portions are disposed at intervals along a horizontal direction, the plurality of first heating portions and the plurality of second heating portions are projected on the bottom wall of the inner pan 20 along an up-down direction to form a plurality of projection areas, and an overall area formed by the plurality of projection areas is an area occupied by the first heating element 41 and the projection on the bottom wall of the inner pan 20 in the second heating element 42, and the area is a preset area.

In some examples, the cooking appliance 1 includes a heat conductive plate and a heat emitting tube embedded in the heat conductive plate, the heat conductive plate being in contact with the inner pot 20, the heat emitting tube being not in contact with the inner pot 20, the first heating member 41 being formed as a first heat emitting tube, the second heating member 42 being formed as a second heat emitting tube, both the first heating member 41 and the second heating member 42 being not in contact with the inner pot 20, the preset area being an area occupied by a projection between the first heat emitting tube and the second heat emitting tube on a bottom wall of the inner pot 20.

In other examples, the cooking appliance 1 includes a winding coil that is not in contact with the inner pot 20, and generates a varying magnetic field when the winding coil is energized to be able to heat the inner pot 20, the first heating member 41 is formed as a first winding coil, the second heating member 42 is formed as a second winding coil, and both the first heating member 41 and the second heating member 42 are not in contact with the inner pot 20, and the predetermined area is an area occupied by a projection between the first winding coil and the second winding coil on the bottom wall of the inner pot 20.

In other embodiments, as shown in fig. 1, the first heating element 41 and the second heating element 42 are both in contact with the inner pot 20, the inner contour line of the preset area is located inside the area occupied by the contact position between the first heating element 41 and the bottom wall of the inner pot 20, and the distance between the inner contour line and the area occupied by the corresponding contact position is less than or equal to 15mm, so that the first heating element 41 can fully heat the liquid in the corresponding area of the preset area, and further fully heat the liquid in the outer surface of the bottom wall of the separation device 30, and further the bubbles and boiling liquid in the cooking cavity 21 can flow to the liquid inlet portion 35 along the guiding portion 36, so that the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33.

In some examples, the first heating member 41 includes a plurality of first heating portions that are disposed at intervals in the horizontal direction, each of the plurality of first heating portions is in contact with the bottom wall of the inner pan 20, each of the plurality of first heating portions is different from the contact position of the bottom wall of the inner pan 20, a whole area formed by the plurality of contact positions together is an area occupied by the contact position of the first heating member 41 and the bottom wall of the inner pan 20, and an inner contour of the preset area is located inside the area.

The outer contour lines of the preset areas are respectively located outside the areas occupied by the contact positions of the second heating element 42 and the bottom wall of the inner pot 20, and the distance between the outer contour lines and the areas occupied by the corresponding contact positions is smaller than or equal to 15mm, so that the second heating element 42 can fully heat the liquid in the areas corresponding to the preset areas, the liquid at the outer surface of the bottom wall of the separation device 30 is fully heated, bubbles and boiling liquid in the cooking cavity 21 can flow to the liquid inlet portion 35 along the flow guide portion 36, and the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33.

In some examples, the second heating element 42 includes a plurality of second heating portions, the plurality of second heating portions are disposed at intervals along the horizontal direction, the plurality of second heating portions are all in contact with the bottom wall of the inner pan 20, each second heating portion is different from the contact position of the bottom wall of the inner pan 20, the plurality of contact positions together form a whole area which is occupied by the contact position of the second heating element 42 and the bottom wall of the inner pan 20, and the outer contour line of the preset area is located outside the area.

In some examples, the inner contour of the predetermined area is located inside the projection of the lowest point of the outer surface of the bottom wall of the separating apparatus 30 on the bottom wall of the inner pan 20, the distance between the inner contour and the area occupied by the contact position of the first heating member 41 with the bottom wall of the inner pan 20 is J, which is less than or equal to 15mm, for example, the distance between the inner contour and the area occupied by the contact position of the first heating member 41 with the bottom wall of the inner pan 20 is J, which is 5mm, 8mm, 10mm, 12mm or 15mm.

The outer contour of the preset area is located outside the projection of the lowest point of the outer surface of the bottom wall of the separating apparatus 30 on the bottom wall of the inner pan 20, the distance between the outer contour and the area occupied by the contact position of the second heating member 42 with the bottom wall of the inner pan 20 is K, which is less than or equal to 15mm, for example, the distance between the outer contour and the area occupied by the contact position of the second heating member 42 with the bottom wall of the inner pan 20 is K, which is 5mm, 8mm, 10mm, 12mm or 15mm.

It should be noted here that the inner side and the outer side are the inner sides of the area occupied by the contact position of the first heating element 41 with the bottom wall of the inner pan 20 with respect to the axis of the cooking chamber 21, the inner sides of the area occupied by the contact position of the first heating element 41 with the bottom wall of the inner pan 20 in the axis direction of the cooking chamber 21, and the outer sides of the area occupied by the contact position of the second heating element 42 with the bottom wall of the inner pan 20 in the direction away from the axis of the cooking chamber 21.

In some embodiments, the cooking appliance 1 includes a heating plate in contact with the inner pot 20, the first heating member 41 is formed as a first heating plate, the second heating member 42 is formed as a second heating plate, both the first heating member 41 and the second heating member 42 are in contact with the inner pot 20, an inner contour line of a preset area is located inside an area occupied by a contact position of the first heating plate with a bottom wall of the inner pot 20, and an outer contour line of the preset area is located outside an area occupied by a contact position of the second heating plate with the bottom wall of the inner pot 20.

In some alternative embodiments of the present utility model, as shown in fig. 1 and 2, the liquid inlet 35 includes a first liquid inlet 351, the guiding portion 36 includes a first guiding portion 361, the first guiding portion 361 corresponds to the first heating element 41 in position, and the first guiding portion 361 extends from bottom to top toward the first liquid inlet 351.

The first heating element 41 can directly heat the liquid below the first diversion portion 361, and bubbles generated by heating the liquid can flow upwards to the first diversion portion 361, flow to the first liquid inlet portion 351 along the first diversion portion 361, so as to avoid the bubbles from gathering below the first diversion portion 361, avoid the bubbles from driving the separation device 30 to float up and down, and avoid affecting the position of the separation device 30, so that the separation device 30 can smoothly separate liquids with different densities.

Meanwhile, when the first heating element 41 heats the liquid below the first diversion portion 361, the liquid below the first diversion portion 361 can be boiled quickly, the boiled liquid flows to the first liquid inlet portion 351 along the first diversion portion 361, enters the liquid storage cavity 33 from the first liquid inlet portion 351, the liquid with higher density in the liquid cavity enters the backflow channel 34 from the first liquid passing portion 341 and enters the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, so that the liquids with different densities in the inner pot 20 can be separated quickly, the liquid with higher density is stored in the cooking cavity 21, and the liquid with lower density is stored in the liquid storage cavity 33.

The liquid inlet portion 35 further includes a second liquid inlet portion, the flow guiding portion 36 further includes a second flow guiding portion 362, the second flow guiding portion 362 corresponds to the second heating element 42 in position, and the second flow guiding portion 362 extends from bottom to top toward the second liquid inlet portion.

The second heating element 42 can directly heat the liquid below the second guiding portion 362, and bubbles generated by heating the liquid can flow upward to the second guiding portion 362 and flow to the second liquid inlet portion along the second guiding portion 362, so as to avoid the aggregation of bubbles below the second guiding portion 362, avoid the bubbles from driving the separating device 30 to float up and down, and avoid affecting the position of the separating device 30, so that the separating device 30 can smoothly separate liquids with different densities.

Meanwhile, when the second heating element 42 heats the liquid below the second flow guiding portion 362, the liquid below the second flow guiding portion 362 can be boiled rapidly, the boiled liquid flows along the second flow guiding portion 362 to the second liquid inlet portion, enters the liquid storage cavity 33 from the second liquid inlet portion, the liquid with higher density in the liquid cavity enters the backflow channel 34 from the first liquid passing portion 341, and enters the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, so that the liquids with different densities in the inner pot 20 can be separated rapidly, the liquid with higher density is stored in the cooking cavity 21, and the liquid with lower density is stored in the liquid storage cavity 33.

Specifically, the first diversion portion 361 and the second diversion portion 362 can guide the liquid and the air bubbles in different areas, so that the diversion efficiency of the diversion portion 36 is improved, the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 through the first liquid inlet portion 351 and the second liquid inlet portion quickly, the liquid with higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341 and enters the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, so that the liquid with higher density is stored in the cooking cavity 21, the liquid with lower density is stored in the liquid storage cavity 33, the efficiency of separating the liquid with different densities is improved conveniently, and the grease in the broth can be separated quickly.

In some embodiments of the present utility model, the first diversion portion 361 and the second diversion portion 362 are respectively in an annular structure, and the second diversion portion 362 is located at an outer side of the first diversion portion 361, so that the first diversion portion 361 and the second diversion portion 362 can heat the liquid in different areas of the cooking cavity 21, thereby facilitating rapid heating of the liquid in the cooking cavity 21, enabling the liquid in the cooking cavity 21 to rapidly boil, enabling the boiled liquid to enter the liquid storage cavity 33 from the first liquid inlet portion 351 along the first diversion portion 361, enabling the liquid in different densities to rapidly separate along the second liquid inlet portion into the liquid storage cavity 33, and enabling the cooking appliance 1 to rapidly separate the grease in the broth.

In some embodiments, the first diversion portion 361 corresponds to the first heating element 41, and the first heating element 41 can heat the liquid in the middle of the cooking cavity 21, so that the liquid in the middle of the cooking cavity 21 can flow along the first diversion portion 361 to the first liquid inlet portion 351, and enter the liquid storage cavity 33 from the first liquid inlet portion 351. The second diversion portion 362 corresponds to the second heating element 42, and the second heating element 42 can heat the liquid on the side portion of the cooking cavity 21, so that the liquid on the side portion of the cooking cavity 21 can flow along the second diversion portion 362 to the second liquid inlet portion, and enter the liquid storage cavity 33 from the second liquid inlet portion.

In some embodiments of the present utility model, as shown in fig. 2, the first diversion portion 361 and the second diversion portion 362 respectively extend from bottom to top in a direction away from each other, so that the first diversion portion 361 and the second diversion portion 362 respectively can guide the liquid at different areas in the cooking cavity 21, specifically, the liquid in the cooking cavity 21 near the first diversion portion 361 can flow up to the first liquid inlet portion 351 along the first diversion portion 361, flow from the first liquid inlet portion 351 into the liquid storage cavity 33, and the liquid in the cooking cavity 21 near the second diversion portion 362 can flow up to the second liquid inlet portion along the second diversion portion 362, and flow from the second liquid inlet portion into the liquid storage cavity 33.

The second diversion portion 362 and the first diversion portion 361 are respectively extended from bottom to top in a direction away from each other, so as to avoid the interference of the first diversion portion 361 and the second diversion portion 362, which is convenient to improve the diversion efficiency of the first diversion portion 361 and the second diversion portion 362 to the liquid in the cooking cavity 21, so that the liquid in the cooking cavity 21 can flow along the first diversion portion 361 to the first liquid inlet portion 351, enter the liquid storage cavity 33 from the first liquid inlet portion 351, and the liquid in the cooking cavity 21 can flow along the second diversion portion 362 to the second liquid inlet portion, and enter the liquid storage cavity 33 from the second liquid inlet portion.

Meanwhile, the second diversion part 362 and the first diversion part 361 are respectively extended from bottom to top in the direction away from each other, so that the depth of the liquid storage cavity 33 is increased, the liquid storage capacity of the liquid storage cavity 33 is improved, and further, when the oil of the broth in the cooking cavity 21 is separated, more oil can be stored in the liquid storage cavity 33, and the oil can be prevented from entering the cooking cavity 21 from the liquid inlet part 35.

As shown in fig. 1 and 2, in some embodiments, the separating device 30 defines an annular liquid storage cavity 33 and an annular backflow channel 34, the second diversion portion 362 is located outside the first diversion portion 361, the first diversion portion 361 extends from bottom to top in a direction close to the axis of the cooking cavity 21, the first liquid inlet portion 351 is disposed at the top of the separating device 30, and the liquid in the middle of the cooking cavity 21 can flow up to the first liquid inlet portion 351 along the first diversion portion 361, and smoothly enter the liquid storage cavity 33 from the first liquid inlet portion 351.

The second flow guiding portion 362 extends from bottom to top in a direction away from the axis of the cooking cavity 21, the second liquid inlet portion is disposed on the side portion of the separating device 30, the second liquid inlet portion is located outside the first liquid inlet portion 351, and the liquid on the side portion of the cooking cavity 21 can flow upwards along the second flow guiding portion 362 to the second liquid inlet portion, and smoothly enters the liquid storage cavity 33 from the second liquid inlet portion.

In some embodiments of the present utility model, the first diversion portion 361 includes a diversion slope 363 and/or a diversion cambered surface 364, when the liquid in the cooking cavity 21 is boiled, the liquid and air bubbles near the first diversion portion 361 can flow along the diversion slope 363 and/or the diversion cambered surface 364 to the first liquid inlet portion 351, and enter the liquid storage cavity 33 from the first liquid inlet portion 351, so that the liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 along the diversion slope 363 and/or the diversion cambered surface 364 on one hand, and on the other hand, the air bubbles can be prevented from being accumulated at the bottom of the separation device 30, the separation device 30 can be prevented from being driven to float up and down by the air bubbles, and the position of the separation device 30 can be prevented from being influenced, so that the separation device 30 can smoothly separate the liquids with different densities.

In some embodiments of the present utility model, the second diversion portion 362 includes a diversion slope 363 and/or a diversion cambered surface 364, when the liquid in the cooking cavity 21 is boiled, the boiling liquid and bubbles near the second diversion portion 362 can flow along the diversion slope 363 and/or the diversion cambered surface 364 to the second liquid inlet portion, and enter the liquid storage cavity 33 from the second liquid inlet portion, so that the liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 along the diversion slope 363 and/or the diversion cambered surface 364 on one hand, and on the other hand, the bubbles can be prevented from being accumulated at the bottom of the separation device 30, the bubbles can be prevented from driving the separation device 30 to float up and down, and the position of the separation device 30 can be prevented from being influenced, so that the separation device 30 can smoothly separate the liquids with different densities.

In some alternative embodiments, as shown in fig. 2, the first diversion portion 361 includes a diversion slope 363, where an angle between the diversion slope 363 and a horizontal plane is M and M is 10 ° -60 °, so that the first diversion portion 361 can guide the liquid in the cooking cavity 21 to the first liquid inlet portion 351, and thus the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33, so that the liquid with a higher density is stored in the cooking cavity 21, and the liquid with a lower density is stored in the liquid storage cavity 33.

The included angle M between the guiding inclined plane 363 and the horizontal plane on the first guiding portion 361 is 10 °, 20 °, 30 °, 45 °, 50 ° or 60 °, so that the first guiding portion 361 can better guide the liquid in the cooking cavity 21, and the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33 along the guiding inclined plane 363.

In other alternative embodiments, as shown in fig. 4, the first diversion portion 361 includes a diversion cambered surface 364, where the diversion cambered surface 364 is a convex cambered surface, so that the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33 along the convex cambered surface, and the liquid near the first liquid inlet portion 351 is prevented from being collected at the convex cambered surface, so that the liquid in the cooking cavity 21 can flow to the first liquid inlet portion 351 along the diversion cambered surface 364, and the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33 along the diversion inclined surface 363.

In some alternative embodiments, as shown in fig. 2, the second diversion portion 362 includes a diversion inclined plane 363, where an included angle between the diversion inclined plane 363 and the horizontal plane is N, and N is 10 ° -60 °, so that the second diversion portion 362 can guide the liquid in the cooking cavity 21 to the second liquid inlet portion, and further, the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33, so that the liquids with different densities in the inner pot 20 can be quickly separated, the liquid with a higher density is stored in the cooking cavity 21, and the liquid with a lower density is stored in the liquid storage cavity 33.

The included angle N between the flow guiding inclined surface 363 and the horizontal plane on the second flow guiding portion 362 is 10 °, 20 °, 30 °, 45 °, 50 ° or 60 °, so that the second flow guiding portion 362 can better guide the liquid in the cooking cavity 21, and the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33 along the flow guiding inclined surface 363.

In other alternative embodiments, as shown in fig. 4, the second diversion portion 362 includes a diversion cambered surface 364, where the diversion cambered surface 364 is a convex cambered surface, so that the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33 along the convex cambered surface, and the liquid near the second liquid inlet portion is prevented from being collected at the convex cambered surface, so that the liquid in the cooking cavity 21 can flow along the diversion cambered surface 364 to the first liquid inlet portion 351, and the liquid in the cooking cavity 21 can quickly and smoothly enter the liquid storage cavity 33 along the diversion inclined surface 363.

In some examples, as shown in fig. 2, the first diversion portion 361 includes a diversion ramp 363, the second diversion portion 362 includes a diversion ramp 363, the first diversion portion 361 extends obliquely upward from left to right, and the liquid in the cooking cavity 21 can flow along the first diversion portion 361 from left to right toward the first liquid inlet portion 351, from the first liquid inlet portion 351 into the liquid storage cavity 33. The second flow guiding portion 362 extends obliquely from right to left and upwards, and the liquid in the cooking cavity 21 can flow along the second flow guiding portion 362 from right to left towards the second liquid inlet portion, and enter the liquid storage cavity 33 from the second liquid inlet portion.

The left end of the first diversion portion 361 is connected with the right end of the second diversion portion 362, so that the depth of the liquid storage cavity 33 downward along the up-down direction is increased, the liquid storage capacity of the liquid storage cavity 33 is improved, and when the oil of the broth in the cooking cavity 21 is separated, more oil can be stored in the liquid storage cavity 33, and the oil can be prevented from entering the cooking cavity 21 from the liquid inlet portion 35.

In other examples, as shown in fig. 4, the first diversion portion 361 includes a diversion cambered surface 364, the second diversion portion 362 includes a diversion cambered surface 364, the diversion cambered surfaces 364 of the first diversion portion 361 and the second diversion portion 362 are convex cambered surfaces, the first diversion portion 361 extends from left to right upwards, and the liquid in the cooking cavity 21 can flow along the first diversion portion 361 from left to right towards the first liquid inlet portion 351, and enter the liquid storage cavity 33 from the first liquid inlet portion 351. The second flow guiding portion 362 extends from right to left and upwards, and the liquid in the cooking cavity 21 can flow along the second flow guiding portion 362 from right to left towards the second liquid inlet portion, and enter the liquid storage cavity 33 from the second liquid inlet portion.

The left end of the first diversion portion 361 is connected with the right end of the second diversion portion 362 and forms a cambered surface protruding downwards, so that the depth of the liquid storage cavity 33 downwards along the up-down direction is increased, the liquid storage capacity of the liquid storage cavity 33 is improved, and further, when the grease of the broth in the cooking cavity 21 is separated, the liquid storage cavity 33 can store more grease, the grease is prevented from entering the cooking cavity 21 from the liquid inlet portion 35, and it is understood that the above-mentioned direction limitation is only convenient for describing the drawing, and the actual setting position and direction of the cooking appliance 1 are not limited.

In still other examples, first deflector 361 includes a deflector curve 364, second deflector 362 includes a deflector curve 363, and first deflector 361 includes a deflector curve 363, and second deflector 362 includes a deflector curve 364.

In some alternative embodiments of the present utility model, the separating apparatus 30 includes a liquid reservoir 31 and an oil baffle 32, the liquid reservoir 31 being disposed within the cooking cavity 21.

In some embodiments, the oil baffle 32 and the liquid container 31 define the backflow channel 34, and the first diversion portion 361 and the second diversion portion 362 are disposed on the outer surface of the bottom wall of the liquid container 31.

When the liquid in the cooking cavity 21 is boiled, the liquid near the first diversion part 361 positioned on the outer surface of the bottom wall of the liquid storage container 31 can flow to the first liquid inlet part 351 along the first diversion part 361, the liquid enters the liquid storage cavity 33 from the first liquid inlet part 351, the liquid near the second diversion part 362 positioned on the outer surface of the bottom wall of the liquid storage container 31 can flow to the second liquid inlet part along the second diversion part 362, the liquid enters the liquid storage cavity 33 from the second liquid inlet part, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing part 341, the liquid with lower density enters the cooking cavity 21 from the second liquid inlet part along the backflow channel 34, and the liquid with different densities can be remained in the liquid storage cavity 33 so as to separate the liquid with different densities in the cooking cavity 21, and the grease in the broth can be separated when the cooking appliance 1 cooks soup.

Meanwhile, the air bubbles located at the bottom wall of the liquid storage container 31 can flow to the first liquid inlet portion 351 along the first guiding portion 361 and flow to the second liquid inlet portion along the second guiding portion 362, so as to avoid the air bubbles from gathering on the outer surface of the bottom wall of the liquid storage container 31, avoid the air bubbles from driving the liquid storage container 31 to float up and down, and avoid affecting the positions of the liquid storage container 31 and the oil baffle 32, so that the separation device 30 can smoothly separate liquids with different densities.

In other embodiments, as shown in fig. 5, the oil baffle 32 is disposed outside the liquid container 31, and the first diversion portion 361 and the second diversion portion 362 are disposed on the oil baffle 32, and the oil baffle 32 and the outer sidewall of the liquid container 31 define the backflow channel 34.

When the liquid in the cooking cavity 21 is boiled, the liquid near the first diversion part 361 positioned on the outer surface of the bottom wall of the oil baffle 32 can flow to the first liquid inlet part 351 along the first diversion part 361, the liquid enters the liquid storage cavity 33 from the first liquid inlet part 351, the liquid near the second diversion part 362 positioned on the outer surface of the bottom wall of the oil baffle 32 can flow to the second liquid inlet part along the second diversion part 362, the liquid enters the liquid storage cavity 33 from the second liquid inlet part, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing part 341, the liquid with lower density enters the cooking cavity 21 from the second liquid inlet part along the backflow channel 34, and the liquid with different densities can be remained in the liquid storage cavity 33 so as to separate the liquid with different densities in the cooking cavity 21, and the grease in the broth can be separated when the cooking appliance 1 is used for cooking soup.

Meanwhile, the air bubbles located at the bottom wall of the oil baffle 32 can flow to the first liquid inlet portion 351 along the first guiding portion 361 and flow to the second liquid inlet portion along the second guiding portion 362, so as to avoid the air bubbles from gathering on the outer surface of the bottom wall of the oil baffle 32, avoid the air bubbles from driving the oil baffle 32 to float up and down, and avoid influencing the positions of the liquid storage container 31 and the oil baffle 32, so that the separating device 30 can smoothly separate liquids with different densities.

As shown in fig. 1, in the present embodiment, the separating device 30 is disposed above the cooking cavity 21, and when the liquid in the cooking cavity 21 is boiled, the bottom wall of the separating device 30 is easy to block the boiling of the liquid above the cooking cavity 21, so that the first diversion portion 361 and the second diversion portion 362 are disposed on the outer surface of the bottom wall of the separating device 30, so that the liquid below the bottom wall of the separating device 30 can flow along the first diversion portion 361 to the first liquid inlet portion 351 and along the second diversion portion 362 to the second liquid inlet portion, thereby avoiding the bottom wall of the separating device 30 from blocking the flow of the liquid in the cooking cavity 21, so that the liquid in the cooking cavity 21 can smoothly enter the liquid storage cavity 33, and the liquids with different densities in the cooking cavity 21 can be smoothly separated.

Meanwhile, when the liquid in the cooking cavity 21 is boiled, the bubbles generated in the cooking cavity 21 float upwards to the outer surface of the bottom wall of the separating device 30, the bubbles can flow upwards to the first liquid inlet part 351 from bottom to top along the first diversion part 361, and flow upwards to the second liquid inlet part along the second diversion part 362, so that the bubbles are prevented from gathering on the outer surface of the bottom wall of the separating device 30, and then the bubbles are prevented from driving the separating device 30 to float upwards and downwards when the bubbles float, and the influence on the position of the separating device 30 is avoided, so that the separating device 30 can smoothly separate the liquids with different densities.

In some embodiments, as shown in fig. 4 and 5, the first liquid inlet 351 is disposed on the oil baffle 32 or the liquid storage container 31, when the liquid in the cooking cavity 21 is boiled, the liquid in the middle of the cooking cavity 21 can flow from the first liquid inlet 351 into the liquid storage cavity 33, so that the separating device 30 can separate the liquids with different densities in the cooking cavity 21, so as to store the liquid with higher density in the cooking cavity 21 and store the liquid with lower density in the liquid storage cavity 33.

In some embodiments, the second liquid inlet portion includes a second liquid inlet 352, the second liquid inlet 352 is disposed on a peripheral wall of the liquid storage container 31, when the liquid in the cooking cavity 21 is boiled, the liquid on the side portion of the cooking cavity 21 can flow upward along the second guiding portion 362 to the peripheral wall of the liquid storage container 31, the liquid outside the liquid storage cavity 33 enters the liquid storage cavity 33 from the second liquid inlet 352 on the peripheral wall of the liquid storage container 31, the liquid with a larger density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341, and enters the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, so that the liquid with different densities in the inner pot 20 can be separated to store the liquid with a larger density in the cooking cavity 21, and the liquid with a smaller density in the liquid storage cavity 33.

In other embodiments, the second liquid inlet portion includes an upper end opening of a peripheral wall of the liquid storage container 31, when the liquid in the cooking cavity 21 is boiled, the liquid on the side portion of the cooking cavity 21 flows along the second guiding portion 362 toward the upper end opening of the peripheral wall of the liquid storage container 31, the liquid outside the liquid storage cavity 33 enters the liquid storage cavity 33 from the second liquid inlet portion at the upper end opening of the peripheral wall of the liquid storage container 31, the liquid with a higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341, and enters the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, so that the liquid with different densities in the inner pot 20 can be separated, the liquid with a higher density can be stored in the cooking cavity 21, and the liquid with a lower density can be stored in the liquid storage cavity 33.

As shown in fig. 4, in the present embodiment, at least a part of the oil baffle 32 is disposed in the liquid storage container 31, the second flow guiding portion 362 is disposed on the outer surface of the bottom wall of the liquid storage container 31, the peripheral wall of the liquid storage container 31 is provided with the second liquid inlet 352, when the liquid in the cooking cavity 21 is boiled, the liquid on the side portion of the cooking cavity 21 can flow upward along the second flow guiding portion 362 to the peripheral wall of the liquid storage container 31, and the liquid outside the liquid storage cavity 33 enters the liquid storage cavity 33 from the second liquid inlet 352 on the peripheral wall of the liquid storage container 31 or the upper end opening of the peripheral wall of the liquid storage container 31.

As shown in fig. 5, in the present embodiment, the oil baffle 32 is disposed outside the liquid storage container 31, the second flow guiding portion 362 is disposed on the outer surface of the bottom wall of the oil baffle 32, the peripheral wall of the liquid storage container 31 is provided with the second liquid inlet 352, when the liquid in the cooking cavity 21 is boiled, the liquid on the side portion of the cooking cavity 21 can flow upward along the second flow guiding portion 362 to the peripheral wall of the liquid storage container 31, and the liquid outside the liquid storage cavity 33 enters the liquid storage cavity 33 from the second liquid inlet 352 on the peripheral wall of the liquid storage container 31 or the upper end opening of the peripheral wall of the liquid storage container 31.

In some embodiments of the present utility model, the second liquid inlet portion includes a plurality of second liquid inlets 352, and the plurality of second liquid inlets 352 are disposed on the peripheral wall of the liquid storage container 31, so that when the liquid in the cooking cavity 21 is boiled, the liquid near the second guiding portion 362 can flow along the second guiding portion 362 to the plurality of second liquid inlets 352, so that the liquid can quickly enter the liquid storage cavity 33 from the plurality of liquid inlets.

Wherein the total area of the plurality of second liquid inlets 352 is greater than or equal to 20mm ² To ensure the speed of liquid entering the liquid storage cavity 33 from the plurality of second liquid inlets 352 is that the liquid in the cooking cavity 21 can quickly enter the liquid storage cavity 33 from the plurality of second liquid inlets 352, thereby enabling the cooking device to The device 1 can rapidly separate liquids with different densities.

For example, when the cooking utensil 1 is used for cooking soup and the broth in the cooking cavity 21 is boiled, the broth near the second guiding portion 362 can enter the liquid storage cavity 33 from the second liquid inlets along the second guiding portion 362, so that the total area of the second liquid inlets 352 is larger than or equal to 20mm ² To avoid that grease will block the plurality of second inlets 352 and thereby ensure the speed of the broth from the second inlets 352 into the reservoir 33.

Wherein the total area of the second liquid inlet 352 may be 20mm ² 、22mm ² 、25mm ² 、30mm ² 、35mm ² 、40mm ² 。

In some embodiments of the present utility model, as shown in fig. 1 and 2, the liquid storage container 31 has a bottom wall and a peripheral wall, and a liquid through hole 311 is formed in a middle portion of the bottom wall of the liquid storage container 31, where the oil blocking member 32 is disposed in the liquid storage container 31, the oil blocking member 32 covers the liquid through hole 311, the first liquid inlet 351 is disposed on the oil blocking member 32, and the first liquid inlet 351 is disposed opposite to the liquid through hole 311.

When the liquid in the cooking cavity 21 is boiled, the liquid in the middle of the cooking cavity 21 can flow from the liquid through hole 311 in the middle of the bottom wall of the liquid storage container 31 to the first liquid inlet portion 351, and flow from the first liquid inlet portion 351 to the liquid storage cavity 33, so that the separating device 30 can separate liquids with different densities, so that the liquid with higher density is stored in the cooking cavity 21, and the liquid with lower density is stored in the liquid storage cavity 33.

In some embodiments, the first diversion portion 361 extends from bottom to top towards the first liquid inlet portion 351, the liquid in the middle of the cooking cavity 21 can flow from the liquid through hole 311 to the first liquid inlet portion 351 along the first diversion portion 361 from bottom to top, and then enter the liquid storage cavity 33 from the first liquid inlet portion 351, the liquid with higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341 and enters the cooking cavity 21 from the second liquid passing portion 342 along the backflow channel 34, so that the liquid with different densities in the inner pot 20 can be separated to store the liquid with higher density in the cooking cavity 21, and the liquid with lower density in the liquid storage cavity 33.

Meanwhile, when the liquid in the cooking cavity 21 is boiled, the bubbles generated in the cooking cavity 21 float upwards to the outer surface of the bottom wall of the liquid storage container 31, the bubbles can flow to the first liquid inlet part 351 from bottom to top along the first diversion part 361, so that the bubbles are prevented from being gathered on the outer surface of the bottom wall of the liquid storage container 31, and then when the bubbles float, the bubbles are prevented from driving the liquid storage container 31 to float up and down, and the positions of the liquid storage container 31 and the oil baffle 32 are prevented from being influenced, so that the separation device 30 can smoothly separate the liquids with different densities.

For example, in the cooking apparatus 1 for cooking soup, the broth in the cooking cavity 21 flows from the liquid inlet 311 to the first liquid inlet 351 along the first guiding portion 361 from bottom to top, enters the liquid storage cavity 33 from the first liquid inlet 351, the soup with a higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing portion 341, enters the cooking cavity 21 along the backflow channel 34 from the second liquid passing portion 342, and the grease with a lower density in the broth is stored in the liquid storage cavity 33, so that the grease in the broth can be separated, thus the taste of the broth is improved, and the low-fat healthy diet requirement is met, so that the dietary health of a user is improved.

In some embodiments, as shown in fig. 1 and 2, the bottom wall of the liquid storage container 31 has an upward extending annular flange 312, the upper end of the annular flange 312 is open to a liquid through hole 311, wherein the oil baffle 32 has a top wall and a peripheral wall, the first liquid inlet 351 is disposed on the top wall of the oil baffle 32, the annular flange 312 can guide the liquid in the cooking cavity 21 to flow to the liquid through hole 311, so that the liquid in the middle of the cooking cavity 21 can flow upward along the annular flange 312 from the liquid through hole 311 to the first liquid inlet 351, enter the liquid storage cavity 33 from the first liquid inlet 351, enter the backflow channel 34 from the first liquid passing portion 341, and enter the liquid storage cavity 33 from the second liquid passing portion 342 along the backflow channel 34, thereby separating the liquid with different densities in the inner pot 20, storing the liquid with higher density in the cooking cavity 21, and storing the liquid with lower density in the liquid storage cavity 33.

The peripheral wall of the oil baffle 32 is located outside the annular flange 312, and the peripheral wall of the oil baffle 32 and the annular flange 312 define at least a portion of the backflow channel 34, so that the liquid with a higher density in the liquid storage cavity 33 can flow into the cooking cavity 21 along the backflow channel 34, and the liquid with a lower density in the liquid storage cavity 33 can be stored in the liquid storage cavity 33, so as to separate the liquids with different densities in the inner pot 20.

At the same time, at least a part of the backflow channel 34 is defined by the annular flange 312 and the peripheral wall of the oil baffle 32, so that the height of the second liquid passing portion 342 is conveniently increased, the capacity of the separating device 30 for storing oil can be further improved, and when the oil in the liquid storage cavity 33 is excessive, the oil can be stored in the backflow channel 34.

As shown in fig. 1, in the present embodiment, the peripheral walls of the liquid storage container 31 and the oil baffle 32 define an annular liquid storage cavity 33, the annular flange 312 extends in the up-down direction, the annular flange 312 defines an annular liquid through hole 311, the liquid in the middle of the cooking cavity 21 can enter the annular liquid storage cavity 33 from the first liquid inlet 351 upwards along the annular flange 312, the liquid with higher density in the liquid storage cavity 33 enters the backflow channel 34 from the first liquid passing 341, and enters the liquid storage cavity 33 from the second liquid passing 342 along the backflow channel 34, so that the liquids with different densities in the inner pot 20 can be separated to store the liquid with higher density in the cooking cavity 21 and the liquid with lower density in the liquid storage cavity 33.

In some embodiments of the present utility model, as shown in fig. 1 and 2, the side wall of the inner pot 20 is provided with a positioning protrusion 22, the separating device 30 is provided with a supporting edge 37, the supporting edge 37 is matched with the positioning protrusion 22 to support the position of the supporting edge 37 by using the positioning protrusion 22, so that the separating device 30 is supported in the inner pot 20, the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 from the liquid inlet part 35, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing part 341, the liquid enters the cooking cavity 21 from the second liquid passing part 342 along the backflow channel 34, and the liquid with lower density can be remained in the liquid storage cavity 33 to separate the liquids with different densities in the cooking cavity 21, so that the grease in the soup can be separated when the cooking appliance 1 cooks soup.

In some embodiments of the present utility model, the side wall of the separation device 30 has ribs, which cooperate with the side wall of the inner pot 20 to position the separation device 30 in the inner pot 20, so that the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 from the liquid inlet portion 35, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing portion 341, the liquid with lower density can enter the cooking cavity 21 from the second liquid passing portion 342 along the backflow channel 34, and the liquid with lower density can remain in the liquid storage cavity 33 to separate the liquids with different densities in the cooking cavity 21, so that the grease in the broth can be separated when the cooking appliance 1 cooks soup.

In some embodiments of the present utility model, the separation device 30 is supported on the rim of the inner pot 20, so that the separation device 30 is disposed in the inner pot 20, so that the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 from the liquid inlet portion 35, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing portion 341, and enter the cooking cavity 21 from the second liquid passing portion 342 along the backflow channel 34, and the liquid with lower density can remain in the liquid storage cavity 33 to separate the liquids with different densities in the cooking cavity 21, so that the grease in the broth can be separated when the cooking appliance 1 cooks soup.

In some embodiments of the present utility model, the separation device 30 is supported on the bottom wall of the inner pan 20, so that the separation device 30 is disposed in the inner pan 20, so that the liquid in the cooking cavity 21 can enter the liquid storage cavity 33 from the liquid inlet portion 35, the liquid with higher density in the liquid storage cavity 33 can enter the backflow channel 34 from the first liquid passing portion 341, and enter the cooking cavity 21 from the second liquid passing portion 342 along the backflow channel 34, and the liquid with lower density can remain in the liquid storage cavity 33 to separate the liquids with different densities in the cooking cavity 21, so that the grease in the broth can be separated when the cooking appliance 1 cooks soup.

Other constructions and operations of the cooking appliance 1 according to the embodiment of the present utility model are known to those skilled in the art, and will not be described in detail herein.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more. In the description of the utility model, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by another feature therebetween.

In the description of the utility model, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (15)

1. A cooking appliance, comprising:

a cooking body defining a receiving cavity;

the inner pot is arranged in the accommodating cavity and defines a cooking cavity;

the separation device is arranged in the inner pot and is provided with a liquid storage cavity and a backflow channel, the backflow channel is provided with a first liquid passing part and a second liquid passing part, the first liquid passing part is communicated with the liquid storage cavity and the backflow channel, the second liquid passing part is arranged above the first liquid passing part and is communicated with the cooking cavity and the backflow channel, and the separation device is provided with a liquid inlet part so as to be communicated with the liquid storage cavity and the cooking cavity;

the cooking body comprises a heating device, the heating device is located below the bottom wall of the inner pot and comprises a first heating piece and a second heating piece which can work independently, and the bottom of the separating device is provided with a flow guiding part corresponding to the position of the heating device and used for guiding liquid in the cooking cavity to flow towards the liquid inlet part.

2. The cooking appliance of claim 1, wherein the first and second heating members are each of a ring-shaped configuration and the second heating member is located outside the first heating member.

3. Cooking appliance according to claim 2, wherein the projection of the lowest point of the outer surface of the bottom wall of the separating device onto the bottom wall of the inner pan is located within a preset area;

the preset area is an area occupied by projection of the first heating element and the second heating element on the bottom wall of the inner pot; or the first heating element and the second heating element are both in contact with the inner pot, the inner contour line and the outer contour line of the preset area are respectively positioned at the inner side of the area occupied by the contact position of the first heating element and the bottom wall of the inner pot and the outer side of the area occupied by the contact position of the second heating element and the bottom wall of the inner pot, and the distance between the inner contour line and/or the outer contour line and the corresponding area occupied by the contact position is less than or equal to 15mm.

4. The cooking appliance of claim 2, wherein the liquid inlet portion comprises a first liquid inlet portion and a second liquid inlet portion, the flow guide portion comprises a first flow guide portion and a second flow guide portion, the first flow guide portion corresponds to the first heating element position and extends from bottom to top toward the first liquid inlet portion, and the second flow guide portion corresponds to the second heating element position and extends from bottom to top toward the second liquid inlet portion.

5. The cooking appliance of claim 4, wherein the first and second flow guiding portions are each of an annular configuration and the second flow guiding portion is located outside of the first flow guiding portion.

6. The cooking appliance of claim 4, wherein the first and second flow guides each extend from bottom to top in a direction away from each other.

7. The cooking appliance of claim 4, wherein the first and/or second flow guide portions comprise a flow guide ramp and/or a flow guide arcuate surface.

8. The cooking appliance of claim 7, wherein the first and/or second flow guide comprises a flow guide slope and the angle between the flow guide slope and the horizontal is 10 ° -60 °.

9. The cooking appliance of claim 7, wherein the first and/or second flow directing portions comprise a flow directing arcuate surface and the flow directing arcuate surface is a convex arcuate surface.

10. The cooking appliance of claim 4, wherein the separating means comprises:

the liquid storage container is arranged in the cooking cavity;

the oil baffle and the liquid storage container define the backflow channel;

The oil baffle is characterized in that at least one part of the oil baffle is arranged in the liquid storage container, the first flow guide part and the second flow guide part are arranged on the outer surface of the bottom wall of the liquid storage container, or the oil baffle is arranged outside the liquid storage container, and the first flow guide part and the second flow guide part are arranged on the oil baffle.

11. The cooking appliance of claim 10, wherein the first liquid inlet portion is provided on the oil baffle or the liquid storage container, and the second liquid inlet portion includes a second liquid inlet provided on a peripheral wall of the liquid storage container or an upper end opening of a peripheral wall of the liquid storage container.

12. The cooking appliance of claim 10, wherein the second liquid inlet portion includes a plurality of second liquid inlets provided in a peripheral wall of the liquid storage container, and a total area of the plurality of second liquid inlets is greater than or equal to 20mm ² 。

13. The cooking appliance of claim 10, wherein the liquid storage container has a bottom wall and a peripheral wall, and a liquid through port is provided in the middle of the bottom wall of the liquid storage container;

the oil baffle is arranged in the liquid storage container and covers the liquid through hole, and the first liquid inlet is arranged on the oil baffle and is opposite to the liquid through hole.

14. The cooking appliance of claim 13, wherein the bottom wall of the liquid storage container has an upwardly extending annular flange, and an upper end of the annular flange is open to the liquid through port;

the oil baffle is provided with a top wall and a peripheral wall, the first liquid inlet part is arranged on the top wall of the oil baffle, and the peripheral wall of the oil baffle is positioned on the outer side of the annular flanging and defines at least one part of the backflow channel with the annular flanging.

15. The cooking appliance of any one of claims 1 to 14, wherein,

the side wall of the inner pot is provided with a positioning bulge, and the separating device is provided with a supporting edge matched with the positioning bulge; or,

the side wall of the separating device is provided with a convex rib matched with the side wall of the inner pot; or,

the separation device is supported on the pot edge of the inner pot; or,

the separation device is supported on the bottom wall of the inner pot.