CN216984513U - Food container and cooking utensil - Google Patents

Abstract

The application provides a food container and cooking utensil, food container are used for cooking utensil, and cooking utensil includes pot body subassembly and establishes the pot body power supply subassembly on pot body subassembly, and food container includes vessel body, connecting piece, heating member and container power supply subassembly, and vessel body has the culinary art chamber, and vessel body can place on pot body subassembly. The connecting piece is arranged on the outer wall of the container body, the connecting piece can be abutted against the pot body component, and the heating piece is arranged on the outer wall of the container body. The container power supply assembly is arranged on the container body, the first end of the container power supply assembly is electrically connected with the heating element, and the second end of the container power supply assembly is used for being electrically connected with the pot body power supply assembly. This application is through establishing the heating member on container body, and the distance of making between heating member and the container body is less, and the heat that the heating member produced can transmit fast to the culinary art intracavity, and then can improve the holistic heating efficiency of cooking utensil, shortens when culinary art, satisfies user's culinary art demand better.

Description

Food container and cooking utensil

Technical Field

The application relates to the technical field of kitchen appliances, in particular to a food container and a cooking utensil.

Background

At present, cooking utensil includes the pot body and places the interior pot in the pot body, and the user can follow the pot body and take interior pot, and then can operate interior pot alone, for example, interior pot is clean, take food etc..

Specifically, heating element among the cooking utensil is fixed in on the pot body often, and with interior pot separation, so on this basis, must have the distance too big between heating element and the interior pot, leads to the holistic heating efficiency of cooking utensil lower, and the culinary art consumes for a long time longer, can't satisfy user's culinary art demand well.

SUMMERY OF THE UTILITY MODEL

The present application is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the application provides a food container.

A second aspect of the present application is to provide a cooking appliance.

A third aspect of the present application is to provide a cooking appliance.

In view of this, according to the first aspect of the present application, a food container is provided, the food container is used for a cooking appliance, the cooking appliance comprises a pot body assembly and a pot body power supply assembly arranged on the pot body assembly, the food container comprises a container body, a connecting piece, a heating piece and a container power supply assembly, the container body is provided with a cooking cavity, and the container body can be placed on the pot body assembly. The connecting piece is arranged on the outer wall of the container body, the connecting piece can be abutted against the pot body component, and the heating piece is arranged on the outer wall of the container body. The container power supply assembly is arranged on the container body, the first end of the container power supply assembly is electrically connected with the heating element, and the second end of the container power supply assembly is used for being electrically connected with the pot body power supply assembly.

The application provides a food container is used for cooking utensil, and cooking utensil includes pot body subassembly and pot body power supply subassembly, and pot body power supply subassembly is established on pot body subassembly. Namely, the pan body assembly and the pan body power supply assembly can be taken as a whole by a user. Specifically, the food container includes a container body, a heating member and a container power supply assembly, the container body having a cooking cavity for holding food material. The container body can be placed on the pot body assembly, and according to requirements, the container body and the pot body assembly can be combined to be used for cooking operation of a user, or the container body and the pot body assembly are separated to realize independent operation of the food container. The heating member is established on vessel's outer wall, and the heating member is used for heating the edible material of culinary art intracavity, and heating member and vessel can regard as a whole, and when the user took vessel, the heating member can be together separated with pot body subassembly along with vessel. This application is through establishing the heating member on container body, and the distance of making between heating member and the container body is less, and the heat that the heating member produced can transmit fast to the culinary art intracavity, and then can improve the holistic heating efficiency of cooking utensil, shortens when culinary art, satisfies user's culinary art demand better.

Furthermore, the outer wall of the container body is provided with a connecting piece which can be abutted against the pot body assembly, so that the container body, the heating element and the container power supply assembly are reliably structurally supported, and the phenomenon that the heating element and the container power supply assembly are damaged due to overlarge acting force is avoided.

Further, be equipped with container power supply subassembly on the outer wall of container body, container power supply subassembly is used for connecting heating member and pot body power supply subassembly electricity, and when food container placed on pot body subassembly, container power supply subassembly and pot body power supply subassembly cooperation are connected to can realize the electric control of heating member.

In a possible design, further, the connecting piece includes a connecting support and a holding area, the connecting support is arranged on the outer wall of the container body, the holding area is located between the connecting support and the container body, and the heating element and the container power supply assembly are located in the holding area.

In this design, the connecting piece includes linking bridge, and linking bridge establishes on vessel's outer wall, and when food container placed on pot body assembly, linking bridge can the butt on pot body assembly to make food container compare in the overhead setting of pot body assembly. When linking bridge only established the diapire at vessel, then have the space between vessel's diapire and the pot body subassembly, when linking bridge established the diapire and the lateral wall at vessel, then vessel is whole and all have the space between the pot body subassembly, and then can make things convenient for the separation between food container and the pot body subassembly, avoid scraping each other and appearing wearing and tearing at the in-process of taking food container, prolong the life of food container and pot body subassembly.

Further, an accommodating area is arranged between the connecting support and the container body and used for placing at least one part of the heating element and the container power supply assembly, so that the structural layout of the food container can be more reasonable.

Furthermore, the connecting support and the container body are of an integrated structure, and the mechanical property of the integrated structure is good, so that the connecting strength between the connecting support and the container body can be improved, and in addition, the connecting support and the container body can be integrally manufactured and produced in batches, so that the processing efficiency of products is improved, and the processing cost of the products is reduced. In addition, the connecting support and the container body are designed into an integrated structure which is integrally formed, so that the integrity of the food container is improved, the number of parts is reduced, the mounting procedures are reduced, the mounting efficiency is improved, and the food container is more convenient and reliable to mount.

In one possible design, the number of the connecting supports is further plural, and the plural connecting supports are arranged at intervals around the heating member.

In this design, the quantity of linking bridge is a plurality of, and a plurality of linking bridge intervals are established on vessel, and the heating member is located between a plurality of linking bridge, and a plurality of linking bridge can form omnidirectional support for vessel can place on pot body subassembly steadily full of food.

Specifically, the number of the connecting supports is four, and the four connecting supports are uniformly distributed on the container body at intervals. When the bottom wall of the container body is circular, each connecting bracket extends radially along the bottom wall of the container body toward the side wall of the container body.

In one possible design, the connecting bracket further extends from the bottom wall of the container body to the side wall of the container body.

In this design, the container body includes a bottom wall and a side wall, the side wall being enclosed at a peripheral edge of the bottom wall, the two enclosing to form a cooking cavity. The connecting bracket extends from the bottom wall to the side wall, so that gaps are formed among the bottom wall of the container body, the side wall of the container body and the pot body assembly, and the food container and the pot body assembly are conveniently separated.

In one possible design, further, the container power supply assembly is located between adjacent two of the plurality of connection brackets.

In the design, the container power supply assembly is arranged between two adjacent connecting supports, the two adjacent connecting supports can provide reliable installation space for the container power supply assembly, and although the container body may have local deformation along with long-term use, the structural stability of a part of the container body between the two adjacent connecting supports is better, and the container body cannot be easily deformed, so that the position stability of the container power supply assembly arranged between the two adjacent connecting supports is better, and potential safety hazards caused by deformation are avoided.

In addition, because the heating member is located between a plurality of linking bridge, and the container power supply subassembly is located between two adjacent linking bridge, that is to say, the container power supply subassembly is close to the heating member setting to can make things convenient for the electric connection between heating member and the container power supply subassembly, reduce the unnecessary line of walking that exists in order to realize the two electricity and connect, make the structure of food container arrange more rationalize.

According to the second aspect of this application, provide a cooking utensil, including the food container that pot body subassembly and above-mentioned arbitrary design provided, be equipped with pot body power supply unit on the pot body subassembly, the food container detachable is established on pot body subassembly, and the container power supply unit of food container is connected with pot body power supply unit electricity.

The cooking appliance provided by the application comprises the food container provided by any one of the designs, so that the food container has all the beneficial effects, and the details are not repeated.

The cooking appliance may be a pressure cooker, an air fryer, or the like. When the cooking utensil is a pressure cooker, the food container is an inner cooker. When the cooking appliance is an air fryer, then the food container is a fry basket. Both the inner pot and the frying basket can be detachably arranged on the pot body component. Interior pot and fried basket all have the heating member, can heat the culinary art to the food that is located it.

According to a third aspect of the application, a cooking appliance is provided, which comprises a pot body assembly and a plurality of food containers, wherein the pot body assembly is provided with a pot body power supply assembly;

the food containers are alternatively arranged on the pot body assembly, each food container comprises a container body, a heating element and a container power supply assembly, the container body is provided with a cooking cavity, and the container body is placed on the pot body assembly; the heating element is arranged on the outer wall of the container body; the container power supply assembly is arranged on the container body, the first end of the container power supply assembly is electrically connected with the heating element, and the second end of the container power supply assembly is used for being electrically connected with the pot body power supply assembly.

The application provides a food container is used for cooking utensil, and cooking utensil includes pot body subassembly and pot body power supply subassembly, and pot body power supply subassembly is established on pot body subassembly. Namely, the pan body assembly and the pan body power supply assembly can be taken as a whole by a user. Specifically, the food container includes a container body, a heating member and a container power supply assembly, the container body having a cooking cavity for holding food material. The container body can be placed on the pot body assembly, and the container body and the pot body assembly can be combined for cooking operation of a user or separated from each other according to requirements, so that independent operation of the food container is realized. The heating member is established on vessel's outer wall, and the heating member is used for heating the edible material of culinary art intracavity, and heating member and vessel can regard as a whole, and when the user took vessel, the heating member can be together separated with pot body subassembly along with vessel. This application is through establishing the heating member on the vessel body, makes the distance between heating member and the vessel body less, and the heat that the heating member produced can transmit to the culinary art intracavity fast, and then can improve the holistic heating efficiency of cooking utensil, and it is long when shortening the culinary art, satisfies user's culinary art demand better.

Further, the number of the food container is plural, and a plurality of food containers may be optionally placed in the accommodating chamber. For example, the food container includes a first food container and a second food container, and the first food container and the second food container can be optionally placed in the containing cavity according to the cooking requirement of a user, specifically, the first food container is a pressure cooker, and the second food container is an air fryer. Cooking utensil forms the fried all-in-one of pressure air, has pressure culinary art and the fried two kinds of culinary art modes of culinary art of air concurrently, and the practicality is strong.

Specifically, under cooking utensil is in the state of first culinary art mode, first food container is placed in holding the chamber, and heating element can directly heat first food container, and then realizes heating the food in the first culinary art intracavity. When the cooking appliance is in the second cooking mode, the second food container is placed in the containing cavity, the heating assembly can heat air in the containing cavity, the heated air can heat food in the second cooking cavity of the second food container, and the first cooking mode and the second cooking mode are different. Specifically, the first cooking mode is a pressure cooking mode, and the second cooking mode is an air-fry cooking mode.

Furthermore, a container power supply assembly is arranged on the outer wall of the container body of each food container and used for electrically connecting the heating element and the pot body power supply assembly, and when the food containers are placed on the pot body assembly, the container power supply assembly is connected with the pot body power supply assembly in a matched mode, so that the electric control of the heating element can be realized.

In one possible design, further, the container power supply assembly is a container coupler.

In the design, the container power supply assembly is a container coupler, the container coupler has the characteristics of simple structure and low cost, when the container power supply assembly is the container coupler, the pot body power supply assembly matched with the container power supply assembly is a pot body coupler, the container coupler and the pot body coupler are spliced to realize assembly and matching, and the operation of a user is convenient and fast.

In one possible design, further, the container coupler includes a support member and a coupling portion, the support member being provided on the container body. The coupling part is arranged on the supporting part, an installation gap is formed between the coupling part and the container body, a part of a first terminal of the coupling part penetrates through the installation gap to be connected with the heating part, and a second terminal of the coupling part is used for being connected with a pot body power supply component.

In this design, the container coupler includes a support for connection of the coupling portion to the container body and a coupling portion. Specifically, the supporting part is an insulating part, and the coupling part is in insulated connection with the container body through the supporting part. The coupling part is arranged on the supporting part, and an installation gap is formed between the coupling part and the container body, namely, the coupling part is arranged on the container body in an overhead mode through the supporting part, and the coupling part is not directly connected with the container body. The coupling part has a first terminal connected to the heating element through the mounting gap and a second terminal for connection to the pan body power supply assembly, in particular, the second terminal is disposed towards the pan body assembly. It should be noted that at least a part of the first terminal is hidden in the mounting gap, so that the safety performance of the assembly process can be improved, and short circuit can be avoided.

In one possible design, further, the support comprises a plurality of support columns arranged at intervals.

In this design, the support member includes a plurality of support columns spaced apart from each other, and a first end of each support column is connected to the coupling portion and a second end of each support column is connected to the container body. The supporting columns can provide multidirectional supporting effect for the coupling parts.

It can be thought that the support column and the container body are of an integral structure, the coupling part is detachably arranged on the support column, and when the coupling part breaks down due to long-term use, the coupling part can be detached, repaired or replaced, so that the maintenance cost is reduced as much as possible.

Certainly, the supporting column can be detached from the container body along with the coupling part, so that the difficulty in detaching and maintaining is reduced.

In a possible design, further, the pan body assembly has a containing cavity, at least one part of the pan body power supply assembly is positioned in the containing cavity, and the food container is placed in the containing cavity. The cooking utensil still includes the fan subassembly, and the fan subassembly is installed on pot body assembly, and the fan subassembly is used for the drive to hold the air flow of intracavity.

In this design, the pan assembly has a receiving cavity in which the food container can be placed. At least a portion of the pan power supply assembly is positioned within the receiving cavity to facilitate engagement with the container power supply assembly. Specifically, pot body power supply assembly can all be located and hold the intracavity, perhaps, a pot body power supply assembly's partly is located and holds the intracavity, is used for being located and holds the intracavity with container power supply assembly complex part pot body power supply assembly promptly, can be in order to make unnecessary the partial pot body power supply assembly who is located and holds the intracavity hide the setting, reduces cooking utensil's overall space and occupies, promotes cooking utensil's compact structure nature, does benefit to cooking utensil's miniaturization development trend.

It should be noted that the pan body power supply assembly is a pan body coupler, and the pan body coupler is fixed on the outer pan.

Further, cooking utensil still includes the fan subassembly, and the fan unit mount is on pot body assembly, and the fan subassembly is used for the drive to hold the air flow of intracavity to the air that makes through heating member heating can rapid cycle, promotes heating efficiency, realizes the homogeneity that food was heated.

In one possible design, the food container further comprises a first food container and a second food container, which are alternatively placed in the receiving cavity.

In this design, the food containers include a first food container and a second food container, which may optionally be placed one of the other in the receiving cavity, depending on the cooking needs of the user, and specifically the first food container is a pressure cooker and the second food container is an air fryer. No matter be first food container or second food container, all have corresponding heating member and container power supply subassembly, all can be connected with the pot body power supply subassembly electricity in the pot body subassembly, and then realize cooking utensil's culinary art function. Cooking utensil forms the fried all-in-one of pressure air, has pressure culinary art and air fried two kinds of culinary art modes of culinary art concurrently, and the practicality is strong.

Specifically, under cooking utensil is in the state of first culinary art mode, first food container is placed in holding the chamber, and the heating member can directly heat first food container, and then realizes heating the food in the culinary art intracavity. When the cooking appliance is in the second cooking mode, the second food container is placed in the accommodating cavity, the heating element can heat air in the accommodating cavity, the heated air can heat food in the accommodating cavity of the second food container, and the first cooking mode and the second cooking mode are different.

In a possible design, further, in a state in which the first food container is placed in the containing cavity, a first air duct communicating with the external environment is formed between the first food container and the pan body assembly.

In this design, place in the state that holds the chamber at first food container, cooking utensil is in under the pressure culinary art mode promptly, form the first wind channel with the external environment intercommunication between first food container and the pot body subassembly, after pressure culinary art, heating member stop work, open fan subassembly, at this moment, fan subassembly can disturb the air flow in the first wind channel (holding the chamber), make cooking utensil's inside heat can discharge to the external world via first wind channel, play quick heat dissipation, the mesh of uncapping steps down fast, reduce user latency. Certainly, at the pressure culinary art in-process, the heating member normally works, at this moment, also can open the fan subassembly, and the fan subassembly moves between first food container and pot body subassembly in the operation, can optimize the heating curve of pressure culinary art in-process, and then improves and eat the material taste.

That is to say, when cooking utensil is in under the first culinary art mode, can carry out accurate control to the operation of fan subassembly according to actual need to the demand in order to adapt to pressure cooking.

In a possible design, further, the first air duct includes an air supply section and an air outlet section which are communicated, and the air supply section is communicated with the external environment through the air outlet section. The container body of the first food container is a first container body, an air supply section is arranged between the first container body and the pot body assembly, and the cooking cavity of the first container body is a first cooking cavity. The first food container further comprises a first pot cover, the first pot cover is arranged at the open end of the first container body to seal the first cooking cavity, and an air outlet section is arranged between the outer edge of the first pot cover and the pot edge of the pot body assembly.

In this design, first wind channel is the annular wind channel, and first wind channel is including the air supply section and the air-out section of intercommunication, and the air supply section passes through air-out section and external environment intercommunication, and the air-out section leans on outer setting promptly. Specifically, first food container includes the first culinary art chamber that first vessel and first vessel formed, has the air supply section between first vessel and the pot body subassembly, and the open end at first vessel should be established to first pot lid to make first culinary art chamber be called sealed chamber, and then in order to realize pressure cooking, make the atmospheric pressure in the first culinary art chamber, in order to form the malleation (the pressure in the first culinary art chamber is greater than external pressure promptly). Under the pressure cooking mode, the food can be stewed, boiled, stewed and the like, the food cooking efficiency is high, and the nutrition extraction effect is better.

And the outer edge of the first pot cover extends outwards, an air outlet section is formed between the outer edge of the first pot cover and the pot edge of the pot body assembly, and the air supply section is communicated with the external environment through the air outlet section. When the fan subassembly during operation, the hot-air between first food container and the pot body subassembly can exchange the heat with the cold air of external environment to the realization realizes reducing pressure fast to first food container's quick heat dissipation, reduces user latency.

In a possible design, further, the heating element of the first food container is a heating plate, which is attached to the first container body.

In this design, first food container is used for under the first culinary art mode (pressure culinary art mode), first food container is packed into in the holding cavity of pot body subassembly to can realize the pressure culinary art mode, under the pressure culinary art mode, the heating member is fixed in the bottom of first container body, supply power in order to heat first container body through the container coupler, because the hot plate subsides are established on the diapire of first container body, no clearance between hot plate and the first container body promptly, the face laminating promptly, thereby can improve heating efficiency greatly, realize quick pressure culinary art.

Further, the heating plate may be fixed to the first container body by any one of welding, riveting, or screw-locking. When a plurality of linking bridge establish on first vessel, have the holding district between linking bridge, first vessel and the pot body subassembly, this holding district can also be used to the first fan blade of holding, under pressure culinary art mode, during first fan blade operation, can realize optimizing the effect of culinary art curve and forced air cooling step down, shortens the required time of step down, reduces user latency.

In a possible design, further, in a state that the second food container is placed in the accommodating cavity, a second air duct is formed between the second food container and the pot body assembly, and the second air duct is communicated with the cooking cavity of the second food container.

In this design, place in the state that holds the chamber at the second food container, form the second wind channel between second food container and the pot body subassembly, the second wind channel does not communicate with external environment, the second wind channel communicates with the culinary art chamber of second food container, under the second culinary art mode (air-fry culinary art mode), the operation of fan subassembly, thereby realize the air cycle between second wind channel and the second culinary art chamber and flow, the work of second heating member, so that hot-air circulation flow between second wind channel and second culinary art chamber, in order to toast the food in the second culinary art intracavity, the frying, air-fry etc. handle, food is heated evenly, toasts effectually.

In a possible design, further, the container body of the second food container is a second container body, the cooking cavity of the second food container is a second cooking cavity, the bottom wall of the second container body is provided with an air passing hole, and the second cooking cavity is communicated with the second air channel through the air passing hole.

In this design, the diapire of second vessel is equipped with the wind hole, and the second culinary art chamber is through wind hole and second wind channel intercommunication, and hot-air can be via wind hole at second culinary art chamber and second wind channel inner loop flow.

Conceivably, the side wall of the second container body is provided with the air passing opening, and hot air can form a circulation loop among the air passing opening, the second cooking cavity, the air passing hole and the second air channel, so that food in the second cooking cavity can be uniformly heated.

In a possible design, further, the second food container comprises a second pot cover, the second pot cover is covered on the pot body assembly, an air passage is formed between the second pot cover and the second container body, and the second air passage is communicated with the second cooking cavity through the air passage.

In this design, the second food container includes the second pot cover, and pot body assembly is located to the second pot cover lid, and sealed butt forms sealed culinary art district between second pot cover and the pot body assembly. An air passage is arranged between the second pot cover and the second container body, the second air channel is communicated with the second cooking cavity through the air passage, namely, for the second cooking cavity, the top of the second cooking cavity is provided with the air passage communicated with the second air channel, and the bottom of the second cooking cavity is provided with the air hole communicated with the second air channel, so that an internal hot air circulation loop from top to bottom can be formed. Driven by the air-air assembly, the heated air can flow upwards from the bottom of the second air duct to enter the top of the second air duct from the air passing channel and then return to the fan assembly through the air passing hole.

In a possible design, further, the heating element of the second food container is a heating tube, and an air gap is formed between the heating tube and the second container body.

In this design, the heating member of second food container is the heating pipe, and the heating pipe encircles the fan subassembly and sets up on second vessel, and wherein, has the air clearance between heating pipe and the second vessel, when fan subassembly during operation, can blow to the heating pipe to make the air in the second wind channel evenly move up after the heating of heating pipe, improve the homogeneity of heating. Wherein, the overfire air clearance has between heating pipe and the second vessel for the heating pipe is not direct to be heated the second vessel, can realize the heat exchange between heating pipe and the air better, so that first fan blade effectively takes the heat out when rotating, realizes high-efficient air-fried mode.

In a possible design, further, pot body subassembly includes body and outer pot, and the outer pot sets up inside the body, and pot body power supply unit installs on the outer pot, has the installation cavity between outer pot and the body, and the outer pot forms and holds the chamber. The fan assembly comprises a first fan blade, the first fan blade is located in the containing cavity, and the first fan blade is used for disturbing air in the containing cavity. The fan assembly further comprises a second fan blade, the second fan blade is located in the installation cavity and used for disturbing air in the installation cavity. The fan assembly further comprises a driving motor, the driving motor is arranged in the installation cavity, and the driving motor is connected with the first fan blades and the second fan blades.

In this design, pot body subassembly includes body and outer pot, and the outer pot sets up inside the body, and pot body power supply unit installs on the outer pot, has the installation cavity between outer pot and the body. The outer pot forms and holds the chamber, and food container can place in holding the intracavity, and food container can contact with the outer pot. The fan assembly comprises a first fan blade, the first fan blade is located in the containing cavity and used for disturbing air in the containing cavity, and the first fan blade is a hot air fan blade. The fan assembly further comprises second fan blades, the second fan blades are located in the installation cavity and used for disturbing air in the installation cavity, and the second fan blades are cold air fan blades. The fan subassembly still includes driving motor, driving motor locates the installation intracavity, driving motor links to each other with first fan blade and second fan blade, driving motor can drive first fan blade and second fan blade and rotate to the realization is carried out the disturbance to the hot-air that holds the intracavity, realizes the even heating, meanwhile, also can realize the air current of disturbance installation intracavity, makes the hot-air of installation intracavity can in time discharge, protects the electric component of installation intracavity, ensures safe performance.

Specifically, the driving motor can be fixed at the bottom of the outer pot through the fixing support, the first fan blade and the second fan blade are sequentially installed on a driving shaft of the driving motor, and the first fan blade and the second fan blade rotate to realize air circulation inside the cooking utensil in an air-frying cooking mode. It should be noted that, the junction of drive shaft and outer pot is connected with sealed bearing to on realizing that driving motor drives first fan blade and second fan blade pivoted, play sealed effect, prevent that the inside greasy dirt of outer pot from getting into the installation intracavity.

Furthermore, the end part of the driving shaft is locked by a locking nut which is easy to disassemble, so that the first fan blade can be conveniently disassembled and washed by a user while the first fan blade is ensured to work stably.

Furthermore, the fixed support of the driving motor is of a non-closed structure, and a notch is reserved in the side portion of the fixed support, so that when the second fan blade drives air to flow, air can be cooled to the fixed support through the notch, and heat in the installation cavity can be timely discharged.

Additional aspects and advantages of the present application will be set forth in part in the description which follows, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates a perspective view of a food container according to one embodiment of the present application;

FIG. 2 shows an enlarged partial view of the food container shown in FIG. 1 at A in one embodiment according to the present application;

FIG. 3 illustrates a longitudinal cut view of a food container according to one embodiment of the present application;

fig. 4 illustrates an exploded view of a cooking appliance in a first cooking mode in an embodiment in accordance with the present application;

FIG. 5 illustrates one of the longitudinal cut views of the cooking appliance in a first cooking mode in accordance with one embodiment of the present application;

fig. 6 shows a second longitudinal cut of the cooking appliance in the first cooking mode in an embodiment in accordance with the present application;

FIG. 7 illustrates a schematic structural diagram of a cooking appliance in a first cooking mode in accordance with an embodiment of the present application;

FIG. 8 shows a schematic perspective view of a food container according to another embodiment of the present application;

FIG. 9 shows an enlarged partial view of the food container shown in FIG. 8 at B in accordance with another embodiment of the present application;

fig. 10 illustrates an exploded view of a cooking appliance in a second cooking mode in an embodiment in accordance with the present application;

fig. 11 shows one of the longitudinal cut views of the cooking appliance in the second cooking mode in an embodiment in accordance with the present application;

fig. 12 illustrates a second longitudinal cut of the cooking appliance in a second cooking mode in accordance with an embodiment of the present application;

FIG. 13 illustrates one of the partial structural schematics of a cooking appliance in an embodiment according to the present application;

FIG. 14 illustrates a partial structural cutaway view of a cooking appliance in an embodiment in accordance with the present application;

fig. 15 shows a second partial schematic structural view of a cooking appliance according to an embodiment of the present application.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 15 is:

1 a first food container, 11 a first air duct, 12 an air supply section, 13 an air outlet section, 14 a first pot cover, 15 a first container body, 16 a first cooking cavity,

2 a second food container, 21 a second air duct, 22 a second pot cover, 23 a second container body, 24 a second cooking cavity, 25 an air passing hole, 26 an air passing channel,

3 connecting piece, 31 connecting bracket, 32 containing area,

4 a heating element is arranged on the upper surface of the heating element,

5 container power supply assembly, 51 support, 52 coupling, 53 mounting gap,

6 a cooking utensil for cooking food, wherein,

7 a pan body component which is arranged on the pan body,

71 outer pan, 710 containing cavity,

72, a cavity is mounted at 720,

8 a power supply component of the pan body,

9 fan assembly, 91 first fan blade, 92 second fan blade, 93 driving motor.

Detailed Description

In order that the above objects, features and advantages of the present application can be more clearly understood, the present application will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

A food container and cooking appliance 6 provided according to some embodiments of the present application is described below with reference to fig. 1-15.

According to an embodiment of the first aspect of the present application, as shown in fig. 1, fig. 2, fig. 3, fig. 8 and fig. 9, there is provided a food container for a cooking utensil 6, the cooking utensil 6 comprising a pot assembly 7 and a pot power supply assembly 8 provided on the pot assembly 7, the food container comprising a container body having a cooking cavity, a heating member 4 and a container power supply assembly 5, the container body being capable of being placed on the pot assembly 7. The connecting piece 3 is arranged on the outer wall of the container body, the connecting piece 3 can be abutted against the pot body component 7, and the heating piece 4 is arranged on the outer wall of the container body. The container power supply component 5 is arranged on the container body, the first end of the container power supply component 5 is electrically connected with the heating element 4, and the second end of the container power supply component 5 is electrically connected with the pot body power supply component 8.

The application provides a food container is used for cooking utensil 6, and cooking utensil 6 includes pot body subassembly 7 and pot body power supply unit spare 8, and pot body power supply unit spare 8 is established on pot body subassembly 7. Namely, the pan body assembly 7 and the pan body power supply assembly 8 can be taken as a whole by a user. Specifically, the food container includes a container body having a cooking cavity for holding food material, a heating member 4 and a container power supply assembly 5. The container body can be placed on the pot body assembly 7, and according to requirements, the container body and the pot body assembly 7 can be combined for cooking operation of a user, or the container body and the pot body assembly 7 can be separated, so that independent operation of a food container is realized. Heating member 4 is established on vessel's outer wall, and heating member 4 is used for heating the edible material of cooking the intracavity, and heating member 4 can regard as a whole with vessel, and when the vessel was taken to the user, heating member 4 can be together separated with pot body subassembly 7 along with vessel. This application is through establishing heating member 4 on container body, makes the distance between heating member 4 and the container body less, and the heat that heating member 4 produced can be transmitted to the culinary art intracavity fast, and then can improve 6 holistic heating efficiency of cooking utensil, shortens when culinary art, satisfies user's culinary art demand better.

Further, be equipped with connecting piece 3 on the outer wall of vessel, connecting piece 3 can the butt on pot body subassembly 7 to for vessel, heating member 4 and the reliable structural support of container power supply unit 5, avoid the too big and structural damage that probably causes of effort that heating member 4 and container power supply unit 5 received.

Furthermore, a container power supply component 5 is arranged on the outer wall of the container body, the container power supply component 5 is used for electrically connecting the heating element 4 with the pot body power supply component 8, and when the food container is placed on the pot body component 7, the container power supply component 5 is connected with the pot body power supply component 8 in a matching mode, so that the electric control of the heating element 4 can be realized.

Further, as shown in fig. 1, fig. 2, fig. 3, fig. 8 and fig. 9, the connecting member 3 includes a connecting bracket 31 and a receiving area 32, the connecting bracket 31 is disposed on the outer wall of the container body, the receiving area 32 is located between the connecting bracket 31 and the container body, and the heating member 4 and the power supply assembly 5 are located in the receiving area 32.

In this embodiment, the connecting member 3 comprises a connecting bracket 31, the connecting bracket 31 is disposed on the outer wall of the container body, and when the food container is placed on the pot body assembly 7, the connecting bracket 31 can abut against the pot body assembly 7, so that the food container is disposed in an overhead manner compared with the pot body assembly 7. When linking bridge 31 only established the diapire at vessel, then have the space between vessel's diapire and pot body subassembly 7, when linking bridge 31 established the diapire and the lateral wall at vessel, then all have the space between vessel is whole and pot body subassembly 7, and then can make things convenient for the separation between food container and the pot body subassembly 7, avoid scraping each other and appearing wearing and tearing at the in-process of taking food container, prolong food container and pot body subassembly 7's life.

Further, between the connecting bracket 31 and the container body there is a housing area 32, which housing area 32 is used for placing at least a part of the heating element 4 and the container power supply assembly 5, so that the structural layout of the food container can be rationalized.

Further, the connecting bracket 31 and the container body are of an integrated structure, and the mechanical property of the integrated structure is good, so that the connecting strength between the connecting bracket 31 and the container body can be improved, and in addition, the connecting bracket 31 and the container body can be integrally manufactured and produced in batch, so that the processing efficiency of products is improved, and the processing cost of the products is reduced. In addition, the connecting bracket 31 and the container body are designed into an integrated structure which is integrally formed, so that the integrity of the food container is improved, the number of parts is reduced, the mounting procedures are reduced, the mounting efficiency is improved, and the food container is more convenient and reliable to mount.

As shown in fig. 1, 2, 3, 8 and 9, further, the number of the connecting brackets 31 is plural, and the plural connecting brackets 31 are arranged at intervals around the heating member 4.

In this embodiment, the number of the connecting brackets 31 is plural, the plurality of connecting brackets 31 are spaced on the container body, the heating member 4 is located between the plurality of connecting brackets 31, and the plurality of connecting brackets 31 can form an omnidirectional support for the container body, so that the container body filled with food can be stably placed on the pot body assembly 7.

Specifically, the number of the connecting brackets 31 is four, and the four connecting brackets 31 are evenly distributed on the container body at intervals. When the bottom wall of the container body is circular, each connecting bracket 31 extends radially from the bottom wall of the container body to the side wall of the container body.

As shown in fig. 1, 2, 3, 8 and 9, the connecting bracket 31 extends from the bottom wall of the container body to the side wall of the container body.

In this embodiment, the container body includes a bottom wall and a side wall that surrounds a peripheral edge of the bottom wall, which together form a cooking chamber. The connecting bracket 31 extends from the bottom wall to the side wall, so that gaps are formed between the bottom wall of the container body, the side wall of the container body and the pot body assembly 7, and the food container and the pot body assembly 7 can be conveniently separated.

As shown in fig. 1, 2, 3, 8 and 9, further, the container power supply assembly 5 is located between adjacent two of the plurality of connection brackets 31.

In this embodiment, the container power supply assembly 5 is disposed between two adjacent connecting brackets 31, and the two adjacent connecting brackets 31 can provide a reliable installation space for the container power supply assembly 5, although the container body between two adjacent connecting brackets 31 has better structural stability and cannot be easily deformed in spite of the fact that the container body may be locally deformed in long-term use, so that the container power supply assembly 5 is better in positional stability in two adjacent connecting brackets 31, and the potential safety hazard caused by the deformation is eliminated.

In addition, because the heating member 4 is located between a plurality of linking bridge 31, and the container power supply unit 5 is located between two adjacent linking bridge 31, that is to say, the container power supply unit 5 is close to the setting of heating member 4 to can make things convenient for the electric connection between heating member 4 and the container power supply unit 5, reduce the unnecessary line of walking that exists in order to realize the two electricity connections, make the structural arrangement of food container rationalize more.

According to the embodiment of the second aspect of the present application, as shown in fig. 4, fig. 5, fig. 6, fig. 7, fig. 10, fig. 11 and fig. 12, a cooking device 6 is provided, which comprises a pan body assembly 7 and a food container provided by any one of the above designs, a pan body power supply assembly 8 is provided on the pan body assembly 7, the food container is detachably provided on the pan body assembly 7, and the container power supply assembly 5 of the food container is electrically connected with the pan body power supply assembly 8.

The cooking appliance 6 provided by the present application includes the food container provided by any of the above designs, so that the food container has all the advantages, which are not described herein again.

The cooking device 6 may be a pressure cooker, an air fryer, or the like. When the cooking appliance 6 is a pressure cooker, the food container is an inner pot. When cooking appliance 6 is an air fryer, then the food container is a fry basket. Both the inner pot and the frying basket can be detachably arranged on the pot body component 7. Both the inner pot and the frying basket are provided with heating elements 4 which can heat and cook food positioned in the inner pot.

Further, as shown in fig. 13, 14 and 15, pot assembly 7 has a receiving cavity 710, at least a portion of pot power supply assembly 8 is located in receiving cavity 710, and a food container is placed in receiving cavity 710. Cooking utensil 6 also includes fan assembly 9, and fan assembly 9 is installed on pot body assembly 7, and fan assembly 9 is used for driving the air flow in holding chamber 710.

In this embodiment, the pan body assembly 7 has a receiving cavity 710, and a food container can be placed in the receiving cavity 710. At least a portion of pan body power supply assembly 8 is positioned within receiving cavity 710 to facilitate engagement with container power supply assembly 5. Specifically, pan body power supply assembly 8 can be located entirely in accommodating cavity 710, or a part of pan body power supply assembly 8 is located accommodating cavity 710, namely, a part of pan body power supply assembly 8 for cooperating with container power supply assembly 5 is located accommodating cavity 710, namely, part of pan body power supply assembly 8 which is not necessarily located in accommodating cavity 710 can be hidden, the whole space occupation of cooking utensil 6 is reduced, the structural compactness of cooking utensil 6 is improved, and the miniaturization development trend of cooking utensil 6 is facilitated.

It should be noted that the pan body power supply assembly 8 is a pan body coupler, and the pan body coupler is fixed on the outer pan 71.

According to the third aspect of the present application, a cooking appliance is provided, which comprises a pan body assembly 7 and a plurality of food containers, wherein a pan body power supply assembly 8 is arranged on the pan body assembly 7;

a plurality of food containers which are alternatively arranged on the pan body component 7, each food container comprises a container body, a heating element 4 and a container power supply component 5, the container body is provided with a cooking cavity, and the container body is placed on the pan body component 7; the heating element 4 is arranged on the outer wall of the container body; the container power supply component 5 is arranged on the container body, a first end of the container power supply component 5 is electrically connected with the heating element 4, and a second end of the container power supply component 5 is used for being electrically connected with the pot body power supply component 8.

The application provides a food container is used for cooking utensil, and cooking utensil includes pot body subassembly 7 and pot body power supply unit spare 8, and pot body power supply unit spare 8 is established on pot body subassembly 7. Namely, the pan body assembly 7 and the pan body power supply assembly 8 can be taken as a whole by a user. Specifically, the food container includes a container body having a cooking cavity for holding food material, a heating member 4 and a container power supply assembly 5. The container body can be placed on the pot body assembly 7, and according to requirements, the container body and the pot body assembly 7 can be combined for cooking operation of a user, or the container body and the pot body assembly 7 can be separated, so that independent operation of a food container is realized. Heating member 4 is established on vessel's outer wall, and heating member 4 is used for heating the edible material of cooking the intracavity, and heating member 4 can regard as a whole with vessel, and when the vessel was taken to the user, heating member 4 can be together separated with pot body subassembly 7 along with vessel. This application is through establishing heating member 4 on container body, makes the distance between heating member 4 and the container body less, and the heat that heating member 4 produced can be transmitted to the culinary art intracavity fast, and then can improve the holistic heating efficiency of cooking utensil, shortens when culinary art, satisfies user's culinary art demand better.

Further, the number of the food containers is plural, and a plurality of food containers can be optionally placed on the pan body assembly 7. For example, the food container includes a first food container 1 and a second food container 2, and the first food container 1 and the second food container 2 can be optionally placed in the accommodating cavity 710 of the pot assembly 7 according to the cooking requirement of the user, specifically, the first food container 1 is a pressure pot, and the second food container 2 is an air fryer. Cooking utensil forms the fried all-in-one of pressure air, has pressure culinary art and the fried two kinds of culinary art modes of culinary art of air concurrently, and the practicality is strong.

Specifically, under cooking utensil is in the state of first culinary art mode, first food container 1 places in holding the chamber, and heating element can directly heat first food container 1, and then realizes heating the food in the first culinary art intracavity. In a state where the cooking appliance is in the second cooking mode, the second food container 2 is placed in the accommodating cavity, the heating member can heat air in the accommodating cavity, and the heated air can heat food in the second cooking cavity of the second food container 2, wherein the first cooking mode and the second cooking mode are different. Specifically, the first cooking mode is a pressure cooking mode, and the second cooking mode is an air-fry cooking mode.

Further, be equipped with container power supply unit 5 on the outer wall of every food container's the container body, container power supply unit 5 is used for being connected heating member 4 and pot body power supply unit 8 electricity, and when food container placed on pot body unit 7, container power supply unit 5 and pot body power supply unit 8 cooperation are connected to can realize heating member 4's electric control.

In one possible embodiment, as shown in fig. 1, 2, 3, 8 and 9, further, the container power supply assembly 5 is a container coupler.

In this embodiment, the container power supply assembly 5 is a container coupler, the container coupler has the characteristics of simple structure and low cost, when the container power supply assembly 5 is the container coupler, the pot body power supply assembly 8 matched with the container power supply assembly is a pot body coupler, and the container coupler and the pot body coupler are plugged to realize assembly and matching, so that the operation of a user is convenient and fast.

As shown in fig. 2 and 9, further, the container coupler includes a support member 51 and a coupling portion 52, and the support member 51 is provided on the container body. The coupling portion 52 is disposed on the supporting member 51, a mounting gap 53 is formed between the coupling portion 52 and the container body, a portion of a first terminal of the coupling portion 52 passes through the mounting gap 53 to be connected to the heating member 4, and a second terminal of the coupling portion 52 is used for being connected to the pan body power supply unit 8.

In this embodiment, the container coupler includes a support 51 and a coupling portion 52, and the support 51 is used for connection of the coupling portion 52 with the container body. Specifically, the supporting member 51 is an insulating member, and the coupling portion 52 is connected to the container body through the supporting member 51 in an insulating manner. The coupling part 52 is provided on the supporting member 51, and the coupling part 52 and the container body have a mounting gap 53 therebetween, that is, the coupling part 52 is provided on the container body via the supporting member 51 in an overhead manner, and the coupling part 52 and the container body are not directly connected to each other. Coupling portion 52 has a first terminal connected to heating element 4 through mounting gap 53 and a second terminal for connection to pan body power supply assembly 8, in particular, disposed towards pan body assembly 7. It should be noted that at least a part of the first terminal is hidden in the mounting gap 53, so that the safety of the assembly process can be improved and short circuit can be avoided.

As shown in fig. 2 and 9, the supporting member 51 further includes a plurality of supporting columns arranged at intervals.

In this embodiment, the support member 51 comprises a plurality of spaced support columns, each support column having a first end connected to the coupling portion 52 and a second end connected to the container body. The plurality of support posts can provide multi-directional support for the coupling portion 52.

It is conceivable that the support column may be of an integral structure with the container body, the coupling portion 52 may be detachably provided on the support column, and when the coupling portion 52 is out of order due to long-term use, the coupling portion 52 may be removed for maintenance or replaced, reducing maintenance costs as much as possible.

Of course, the supporting column can be detached from the container body along with the coupling portion 52, so as to reduce the difficulty of detachment and maintenance.

Further, cooking utensil 6 still includes fan subassembly 9, and fan subassembly 9 is installed on pot body subassembly 7, and fan subassembly 9 is used for the drive to hold the air flow in the chamber 710 to the air that makes through heating member 4 heating can rapid cycle, promotes heating efficiency, realizes the homogeneity that food was heated.

Further, as shown in fig. 4, 5, 6 and 7, the food container includes a first food container 1 and a second food container 2, and the first food container 1 and the second food container 2 are alternatively placed in the receiving cavity 710.

In this embodiment, the food containers include a first food container 1 and a second food container 2, and the first food container 1 and the second food container 2 may be optionally placed one by one in the receiving cavity 710 according to the cooking requirement of the user, specifically, the first food container 1 is a pressure cooker and the second food container 2 is an air fryer. Whether the first food container 1 or the second food container 2 is provided with the corresponding heating element 4 and the corresponding container power supply component 5, the heating element and the container power supply component can be electrically connected with the pot power supply component 8 in the pot component 7, and the cooking function of the cooking appliance 6 is realized. Cooking utensil 6 forms to the fried all-in-one of pressure air, has pressure culinary art and air fried two kinds of culinary art modes of culinary art concurrently, and the practicality is strong.

Specifically, in the state that the cooking utensil 6 is in the first cooking mode, the first food container 1 is placed in the accommodating cavity 710, and the heating member 4 can directly heat the first food container 1, so as to heat the food in the cooking cavity. In a state that the cooking appliance 6 is in the second cooking mode, the second food container 2 is placed in the accommodating cavity 710, the heating element 4 can heat air in the accommodating cavity 710, and the heated air can heat food in the accommodating cavity 710 of the second food container 2, wherein the first cooking mode and the second cooking mode are different.

Specifically, the control method of the cooking appliance specifically includes: detecting the type of a current food container placed on the pot body assembly; controlling a cooking mode of the cooking appliance according to the type of the current food container. In this embodiment, cooperate in the food container of pot body subassembly through the change, make cooking utensil can realize different culinary art modes, satisfy user's culinary art demand, and cooperate in the type of the food container of pot body subassembly through detecting, and according to the culinary art mode of testing result control cooking utensil, make cooking utensil can carry out the culinary art mode that corresponds automatically, need not user manual selection, simplified the operation, and guarantee the culinary art accessory that uses and the culinary art mode phase-match of execution, guarantee normal culinary art. And, it is avoided that the cooking appliance does not work normally or the food container is damaged due to the mismatch between the cooking mode selected by the user and the type of the used food container. For example, a user using a fry basket for air frying, but selecting a pressure cooking mode, may result in an inability to properly rise pressure within the cooking appliance.

Further, the cooking appliance has a first cooking mode and a second cooking mode, the plurality of food containers includes a first food container and a second food container, the cooking mode of the cooking appliance is controlled according to a type of a current food container, including: determining that the current food container is a first food container, and controlling the cooking appliance to be in a first cooking mode; and determining that the current food container is a second food container, and controlling the cooking appliance to be in a second cooking mode.

Further, the first cooking mode is a pressure cooking mode, the second cooking mode is an air-fry cooking mode, the first food container is an inner pot, and the second food container is a fry basket.

Of course, the plurality of food containers may further include a third food container, a fourth food container, and the like, and the corresponding cooking appliance may further have a third cooking mode, a fourth cooking mode, and the like, which are within the protection scope of the present application.

Further, cooking utensil includes the determine module, and the determine module is located pot body group spare to the determine module has first detection state and second detection state. Wherein, the first food container is placed in the state of the pan body assembly, the detection assembly is in a first detection state, and the cooking appliance can be controlled to be in a first cooking mode at the moment; the second food container is placed in the state of the pot body assembly, the detection assembly is in a second detection state, and the cooking appliance can be controlled to be in a second cooking mode at the moment. The type of the food container is judged according to different detection states of the detection assembly, the detection structure is simple, and the detection precision is high.

In the embodiment of the application, the specific structure of the detection assembly can be flexibly set according to the actual situation.

For example, in some embodiments, the detection assembly may include a detection portion disposed on the pan assembly and the second food container may be disposed with a detection engagement portion. The detection part is used for detecting the detection matching part. When the second food container is placed in the pot body assembly, the detection matching part is positioned in the detection range of the detection part, so that the detection part can detect the detection matching part on the second food container. When the second food container is not placed in the pot body assembly and the first food container is placed in the pot body assembly, the detection matching part leaves the detection range of the detection part, and the detection matching part cannot be detected by the detection part. Therefore, the second food container can be judged to be placed on the pot body assembly under the condition that the detection matching part on the second food container is detected by the detection part; when the detection part does not detect the state of the detection matching part, the first food container can be judged to be placed on the pot body assembly. Whether the detection matching part can be detected through the detection part or not to realize the type identification of the food container only needs one detection matching part, the detection logic of the detection part is simple, the structure of the detection assembly is simplified, and the cost is reduced.

Of course, it is understood by those skilled in the art that the first food container is provided with the detection matching part and the second food container is not provided with the detection matching part according to the above description.

In some embodiments, the detection portion may be a reed switch and the detection mating portion may be a magnetic member.

In some embodiments, the detection assembly may be a weight sensor that can detect the weight of a food container placed within the pan body assembly to distinguish the type of food container based on the weight of the food container. For example, the first food container may be an inner pot made of metal, and the second food container may be a frying basket with a hollow structure, wherein the weight of the inner pot is greater than that of the frying basket. In addition, the weight sensor can also be used for detecting the weight of the food container and the food in the food container during the cooking process so as to control cooking parameters (such as cooking temperature, time and the like) according to the weight.

In some embodiments, the detection component can be a microswitch, when the first food container is placed in the pot body component, the microswitch is triggered to be in a conducting state, when the second food container is placed in the pot body component, the microswitch is not triggered to be in a disconnecting state, and the cooking mode of the cooking appliance can be controlled according to the on-off state of the microswitch. Of course, the micro switch may also be triggered when the second food container is placed in the pan body assembly.

In some embodiments, the detection assembly can comprise two signal transceiving assemblies, and the detection state of the detection assembly can be judged according to the signal on-off states of the two signal transceiving assemblies so as to judge the type of the food container placed on the pot body assembly.

For example, when the two signal transceiving components are simultaneously disconnected, the detection component is in a first detection state, and the current food container is a first food container; and under the state that one signal transceiving component is switched on and the other signal transceiving component is switched off, the detection component is in a second detection state, and the current food container is a second food container.

The signal transceiving component can be used for detecting light wave signals or electric signals and the like. The type of the food container is judged according to the signal on-off states of the two signal transceiving components, misjudgment is not prone to occurring, the signal transceiving components do not need to be in mechanical contact with the food container, and the service life of the signal transceiving components is prolonged.

Further, as shown in fig. 5 and 6, in a state that the first food container 1 is placed in the accommodating chamber 710, a first air duct 11 communicating with the external environment is formed between the first food container 1 and the pot body assembly 7.

In this embodiment, in a state where the first food container 1 is placed in the accommodating cavity 710, that is, the cooking device 6 is in the pressure cooking mode, the first air duct 11 communicating with the external environment is formed between the first food container 1 and the pot body assembly 7, after the pressure cooking is finished, the heating element 4 stops working, the fan assembly 9 is turned on, and at this time, the fan assembly 9 can disturb the air flow in the first air duct 11 (accommodating cavity 710), so that the internal heat of the cooking device 6 can be discharged to the outside through the first air duct 11, and the purposes of rapid heat dissipation and rapid pressure reduction and cover opening are achieved, thereby reducing the waiting time of a user. Certainly, in the pressure cooking process, heating member 4 normally works, at this moment, also can open fan subassembly 9, and fan subassembly 9 moves in the process of moving and drives hot-air and move between first food container 1 and pot body subassembly 7, can optimize the heating curve of pressure cooking in-process, and then improve and eat the material taste.

That is, when cooking utensil 6 is in first culinary art mode, can carry out accurate control to the operation of fan subassembly 9 according to actual need to the demand in order to adapt to pressure cooking.

Further, as shown in fig. 5, the first air duct 11 includes an air supply section 12 and an air outlet section 13 which are communicated, and the air supply section 12 is communicated with the external environment through the air outlet section 13. The container body of the first food container 1 is a first container body 15, an air supply section 12 is arranged between the first container body 15 and the pot body assembly 7, and a cooking cavity of the first container body 15 is a first cooking cavity 16. The first food container 1 further comprises a first lid 14, the first lid 14 covers the opening end of the first container body 15 to close the first cooking cavity 16, and an air outlet section 13 is arranged between the outer edge of the first lid 14 and the edge of the pot body assembly 7.

In this embodiment, the first air duct 11 is an annular air duct, the first air duct 11 includes an air supply section 12 and an air outlet section 13 that are communicated, the air supply section 12 is communicated with the external environment through the air outlet section 13, that is, the air outlet section 13 is disposed near the outside. Specifically, the first food container 1 includes a first container body 15 and a first cooking cavity 16 formed by the first container body 15, an air supply section 12 is provided between the first container body 15 and the pot body assembly 7, and a first pot cover 14 is disposed at an opening end of the first container body 15, so that the first cooking cavity 16 is called a sealed cavity, and further pressure cooking is realized, and air pressure in the first cooking cavity 16 is made to form positive pressure (i.e. the pressure in the first cooking cavity 16 is greater than the external pressure). Under the pressure cooking mode, the food can be stewed, boiled, stewed and the like, the food cooking efficiency is high, and the nutrition extraction effect is better.

The outer edge of the first pot cover 14 extends outwards, an air outlet section 13 is formed between the outer edge of the first pot cover and the pot edge of the pot body assembly 7, and the air supply section 12 is communicated with the external environment through the air outlet section 13. When fan subassembly 9 operation, the hot-air between first food container 1 and the pot body subassembly 7 can exchange the heat with the cold air of external environment to the realization is to the quick heat dissipation of first food container 1, realizes stepping down fast, reduces user latency.

Further, as shown in fig. 1 and 6, the heating member 4 of the first food container 1 is a heating plate attached to the first container body 15.

In this embodiment, the first food container 1 is used in the first cooking mode (pressure cooking mode), and the first food container 1 is installed in the accommodating cavity 710 of the pot body assembly 7, so that the pressure cooking mode can be realized, and in the pressure cooking mode, the heating member 4 is fixed at the bottom of the first container body 15, and power is supplied through the container coupler to heat the first container body 15, and since the heating plate is attached to the bottom wall of the first container body 15, that is, there is no gap between the heating plate and the first container body 15, that is, there is a surface-to-surface attachment, so that the heating efficiency can be greatly improved, and rapid pressure cooking can be realized.

Further, the heating plate may be fixed to the first container body 15 by any one of welding, riveting, or screwing. When a plurality of linking bridge 31 establish on first vessel 15, linking bridge 31, first vessel 15 and pot body subassembly 7 between have the holding district 32, this holding district 32 can also be used to the first fan blade 91 of holding, under pressure culinary art mode, when first fan blade 91 operates, can realize optimizing the effect of culinary art curve and forced air cooling step-down, shorten the required time of step-down, reduce user latency.

Further, as shown in fig. 10, 11 and 12, in a state that the second food container 2 is placed in the accommodating chamber 710, a second air duct 21 is formed between the second food container 2 and the pot body assembly 7, and the second air duct 21 is communicated with the cooking chamber of the second food container 2.

In this embodiment, in a state where the second food container 2 is placed in the accommodating cavity 710, the second air duct 21 is formed between the second food container 2 and the pan body assembly 7, the second air duct 21 is not communicated with the external environment, the second air duct 21 is communicated with the cooking cavity of the second food container 2, in a second cooking mode (air-frying cooking mode), the fan assembly 9 operates, so that air circulation flow between the second air duct 21 and the second cooking cavity 24 is realized, the second heating element 4 operates, so that hot air circulates between the second air duct 21 and the second cooking cavity 24, so as to perform treatments such as baking, frying, air-frying and the like on food in the second cooking cavity 24, the food is uniformly heated, and the baking effect is good.

Further, as shown in fig. 11 and 12, the container body of the second food container 2 is a second container body 23, the cooking cavity of the second food container 2 is a second cooking cavity 24, the bottom wall of the second container body 23 is provided with an air passing hole 25, and the second cooking cavity 24 is communicated with the second air duct 21 through the air passing hole 25.

In this embodiment, the bottom wall of the second container body 23 is provided with an air passing hole 25, the second cooking chamber 24 communicates with the second air duct 21 through the air passing hole 25, and the hot air can circulate in the second cooking chamber 24 and the second air duct 21 through the air passing hole 25.

Conceivably, the side wall of the second container body 23 is provided with an air passing opening, and the hot air can form a circulation loop among the air passing opening, the second cooking cavity 24, the air passing hole 25 and the second air duct 21, so that the food in the second cooking cavity 24 can be uniformly heated.

Further, as shown in fig. 10, 11 and 12, the second food container 2 includes a second lid 22, the second lid 22 covers the pot body assembly 7, an air passage 26 is formed between the second lid 22 and the second container body 23, and the second air duct 21 is communicated with the second cooking cavity 24 through the air passage 26.

In this embodiment, the second food container 2 comprises a second lid 22, the second lid 22 is covered on the body assembly 7, and the second lid 22 and the body assembly 7 are in sealing abutment to form a sealed cooking area. An air passage 26 is arranged between the second pot cover 22 and the second container body 23, the second air duct 21 is communicated with the second cooking cavity 24 through the air passage 26, that is, for the second cooking cavity 24, the air passage 26 is arranged on the top and is communicated with the second air duct 21, and the air holes 25 are arranged on the bottom and are communicated with the second air duct 21, so that an internal hot air circulation loop from top to bottom can be formed. Driven by the air-air assembly, the heated air can flow from the bottom of the second air duct 21, upwards to enter the top of the second air duct 21 from the air passage 26, and then return to the fan assembly 9 through the air holes 25.

Further, as shown in fig. 8, 11 and 12, the heating element 4 of the second food container 2 is a heating tube, and an air gap is formed between the heating tube and the second container body 23.

In this embodiment, the heating element 4 of the second food container 2 is a heating tube, and the heating tube is disposed on the second container body 23 around the fan assembly 9, wherein an air gap is formed between the heating tube and the second container body 23, and when the fan assembly 9 works, air can be blown into the heating tube, so that air in the second air duct 21 uniformly moves upward after being heated by the heating tube, and the uniformity of heating is improved. Wherein, the overfire air clearance is arranged between the heating pipe and the second container body 23, so that the heating pipe does not directly heat the second container body 23, the heat exchange between the heating pipe and the air can be better realized, the heat can be effectively brought out when the first fan blade 91 rotates, and the high-efficiency air-frying mode is realized.

Further, as shown in fig. 15, the pan body assembly 7 comprises a body 72 and an outer pan 71, the outer pan 71 is arranged inside the body 72, the pan body power supply assembly 8 is mounted on the outer pan 71, a mounting cavity 720 is formed between the outer pan 71 and the body 72, and the outer pan 71 forms a containing cavity 710. The fan assembly 9 comprises a first fan blade 91, the first fan blade 91 is located in the accommodating cavity 710, and the first fan blade 91 is used for disturbing air in the accommodating cavity 710. The fan assembly 9 further includes a second fan blade 92, the second fan blade 92 is located in the installation cavity 720, and the second fan blade 92 is used for disturbing air in the installation cavity 720. The fan assembly 9 further comprises a driving motor 93, the driving motor 93 is arranged in the installation cavity 720, and the driving motor 93 is connected with the first fan blades 91 and the second fan blades 92.

In this embodiment, the pan body assembly 7 comprises a body 72 and an outer pan 71, the outer pan 71 is arranged inside the body 72, the pan body power supply assembly 8 is mounted on the outer pan 71, and a mounting cavity 720 is arranged between the outer pan 71 and the body 72. The outer pot 71 forms a receiving cavity 710, a food container can be placed in the receiving cavity 710, and the food container can be in contact with the outer pot 71. The fan assembly 9 comprises a first fan blade 91, the first fan blade 91 is located in the accommodating cavity 710, the first fan blade 91 is used for disturbing air in the accommodating cavity 710, and the first fan blade 91 is a hot air fan blade. The fan assembly 9 further includes second fan blades 92, the second fan blades 92 are located in the installation cavity 720, the second fan blades 92 are used for disturbing air in the installation cavity 720, and the second fan blades 92 are cold air fan blades. Fan subassembly 9 still includes driving motor 93, driving motor 93 locates in installation cavity 720, driving motor 93 links to each other with first fan blade 91 and second fan blade 92, driving motor 93 can drive first fan blade 91 and second fan blade 92 and rotate, thereby the realization is disturbed the hot-air that holds in the chamber 710, realize the even heating, meanwhile, also can realize the air current in the disturbance installation cavity 720, make the hot-air in the installation cavity 720 in time discharge, protect the electric component in the installation cavity 720, ensure safety in service performance.

Specifically, the driving motor 93 can be fixed at the bottom of the outer pot 71 through a fixing support, a first fan blade 91 and a second fan blade 92 are sequentially installed on a driving shaft of the driving motor 93, and under the air-frying cooking mode, the first fan blade 91 and the second fan blade 92 rotate to realize air circulation inside the cooking appliance 6. It should be noted that the joint of the driving shaft and the outer pan 71 is connected by a sealing bearing, so that on the basis that the driving motor 93 drives the first fan blade 91 and the second fan blade 92 to rotate, a sealing effect is achieved, and oil stains inside the outer pan 71 are prevented from entering the installation cavity 720.

Furthermore, the end of the driving shaft is locked by a locking nut which is easy to disassemble, so that the first fan blade 91 can be conveniently disassembled and washed by a user while the stable work is ensured.

Furthermore, the fixing support of the driving motor 93 is of a non-closed structure, and a notch is reserved on the side portion of the fixing support, so that when the second fan blade 92 drives air to flow, air can be cooled from the notch to the fixing support, and heat in the installation cavity 720 can be timely discharged.

Wherein, it should be noted that the food container comprises a container body, a connecting piece 3, a heating piece 4 and a container power supply component 5, the container body is provided with a cooking cavity, and the container body can be placed on the pot body component 7. The connecting piece 3 is arranged on the outer wall of the container body, the connecting piece 3 can be abutted against the pot body component 7, and the heating piece 4 is arranged on the outer wall of the container body. The container power supply component 5 is arranged on the container body, the first end of the container power supply component 5 is electrically connected with the heating element 4, and the second end of the container power supply component 5 is electrically connected with the pot body power supply component 8.

The application provides a food container is used for cooking utensil 6, and cooking utensil 6 includes pot body subassembly 7 and pot body power supply unit spare 8, and pot body power supply unit spare 8 is established on pot body subassembly 7. Namely, the pan body assembly 7 and the pan body power supply assembly 8 can be taken as a whole by a user. Specifically, the food container includes a container body having a cooking cavity for holding food material, a heating member 4 and a container power supply assembly 5. The container body can be placed on the pot body assembly 7, and according to requirements, the container body and the pot body assembly 7 can be combined for cooking operation of a user, or the container body and the pot body assembly 7 can be separated, so that independent operation of a food container is realized. Heating member 4 is established on the outer wall of vessel, and heating member 4 is used for heating the edible material in the culinary art intracavity, and heating member 4 can regard as a whole with vessel, and when the vessel was taken to the user, heating member 4 can be together separated with vessel 7 with pot body subassembly. This application is through establishing heating member 4 on container body, makes the distance between heating member 4 and the container body less, and the heat that heating member 4 produced can be transmitted to the culinary art intracavity fast, and then can improve 6 holistic heating efficiency of cooking utensil, shortens when culinary art, satisfies user's culinary art demand better.

Further, be equipped with connecting piece 3 on the outer wall of vessel, connecting piece 3 can the butt on pot body subassembly 7 to for vessel, heating member 4 and the reliable structural support of container power supply unit 5, avoid the too big and structural damage that probably causes of effort that heating member 4 and container power supply unit 5 received.

Further, be equipped with container power supply subassembly 5 on the outer wall of vessel body, container power supply subassembly 5 is used for connecting heating member 4 and pot body power supply subassembly 8 electricity, and when food container placed on pot body subassembly 7, container power supply subassembly 5 and pot body power supply subassembly 8 cooperation are connected to can realize the electric control of heating member 4.

Further, as shown in fig. 1, fig. 2, fig. 3, fig. 8 and fig. 9, the connecting member 3 includes a connecting bracket 31 and a receiving area 32, the connecting bracket 31 is disposed on an outer wall of the container body, the receiving area 32 is located between the connecting bracket 31 and the container body, and the heating member 4 and the container power supply assembly 5 are located in the receiving area 32.

In this embodiment, the connecting member 3 comprises a connecting bracket 31, the connecting bracket 31 is disposed on the outer wall of the container body, and when the food container is placed on the pot body assembly 7, the connecting bracket 31 can abut against the pot body assembly 7, so that the food container is disposed in an overhead manner compared with the pot body assembly 7. When linking bridge 31 only established the diapire at vessel, then have the space between vessel's diapire and pot body subassembly 7, when linking bridge 31 established the diapire and the lateral wall at vessel, then all have the space between vessel is whole and pot body subassembly 7, and then can make things convenient for the separation between food container and the pot body subassembly 7, avoid scraping each other and appearing wearing and tearing at the in-process of taking food container, prolong food container and pot body subassembly 7's life.

Further, between the connecting bracket 31 and the container body there is a housing area 32, which housing area 32 is used for placing at least a part of the heating element 4 and the container power supply assembly 5, so that the structural layout of the food container can be rationalized.

Further, the connecting bracket 31 and the container body are of an integrated structure, and the mechanical property of the integrated structure is good, so that the connecting strength between the connecting bracket 31 and the container body can be improved, and in addition, the connecting bracket 31 and the container body can be integrally manufactured and produced in batch, so that the processing efficiency of products is improved, and the processing cost of the products is reduced. In addition, the connecting bracket 31 and the container body are designed into an integrated structure which is integrally formed, so that the integrity of the food container is improved, the number of parts is reduced, the mounting procedures are reduced, the mounting efficiency is improved, and the food container is more convenient and reliable to mount.

As shown in fig. 1, 2, 3, 8 and 9, further, the number of the connecting brackets 31 is plural, and the plural connecting brackets 31 are arranged at intervals around the heating member 4.

In this embodiment, the number of the connecting brackets 31 is plural, the plurality of connecting brackets 31 are spaced on the container body, the heating member 4 is located between the plurality of connecting brackets 31, and the plurality of connecting brackets 31 can form an omnidirectional support for the container body, so that the container body filled with food can be stably placed on the pot body assembly 7.

Specifically, the number of the connecting brackets 31 is four, and the four connecting brackets 31 are evenly distributed on the container body at intervals. When the bottom wall of the container body is circular, each connecting bracket 31 extends radially from the bottom wall of the container body to the side wall of the container body.

As shown in fig. 1, 2, 3, 8 and 9, the connecting bracket 31 extends from the bottom wall of the container body to the side wall of the container body.

In this embodiment, the container body includes a bottom wall and a side wall that surrounds a peripheral edge of the bottom wall to define a cooking chamber. The connecting bracket 31 extends from the bottom wall to the side wall, so that gaps are formed between the bottom wall of the container body, the side wall of the container body and the pot body assembly 7, and the food container and the pot body assembly 7 can be conveniently separated.

As shown in fig. 1, 2, 3, 8 and 9, further, the container power supply assembly 5 is located between adjacent two of the plurality of connection brackets 31.

In this embodiment, the container power supply assembly 5 is disposed between two adjacent connecting brackets 31, and the two adjacent connecting brackets 31 can provide a reliable installation space for the container power supply assembly 5, although the container body between two adjacent connecting brackets 31 has better structural stability and cannot be easily deformed in spite of the fact that the container body may be locally deformed in long-term use, so that the container power supply assembly 5 is better in positional stability in two adjacent connecting brackets 31, and the potential safety hazard caused by the deformation is eliminated.

In addition, because the heating member 4 is located between a plurality of linking bridge 31, and the container power supply unit 5 is located between two adjacent linking bridge 31, that is to say, the container power supply unit 5 is close to the setting of heating member 4 to can make things convenient for the electric connection between heating member 4 and the container power supply unit 5, reduce the unnecessary line of walking that exists in order to realize the two electricity connections, make the structural arrangement of food container rationalize more.

As shown in fig. 1, 2, 3, 8 and 9, further, the container power supply assembly 5 is a container coupler.

In this embodiment, the container power supply assembly 5 is a container coupler, the container coupler has the characteristics of simple structure and low cost, when the container power supply assembly 5 is the container coupler, the pot body power supply assembly 8 matched with the container power supply assembly is a pot body coupler, and the container coupler and the pot body coupler are plugged to realize assembly and matching, so that the operation of a user is convenient and fast.

As shown in fig. 2 and 9, further, the container coupler includes a support member 51 and a coupling portion 52, and the support member 51 is provided on the container body. The coupling portion 52 is disposed on the supporting member 51, a mounting gap 53 is formed between the coupling portion 52 and the container body, a portion of a first terminal of the coupling portion 52 passes through the mounting gap 53 to be connected to the heating member 4, and a second terminal of the coupling portion 52 is used for being connected to the pan body power supply unit 8.

In this embodiment, the container coupler includes a support 51 and a coupling portion 52, the support 51 being used for connection of the coupling portion 52 with the container body. Specifically, the supporting member 51 is an insulating member, and the coupling portion 52 is connected to the container body through the supporting member 51 in an insulating manner. The coupling part 52 is provided on the supporting member 51, and the coupling part 52 and the container body have a mounting gap 53 therebetween, that is, the coupling part 52 is provided on the container body via the supporting member 51 in an overhead manner, and the coupling part 52 and the container body are not directly connected to each other. Coupling portion 52 has a first terminal connected to heating element 4 through mounting gap 53 and a second terminal for connection to pan body power supply assembly 8, in particular, disposed towards pan body assembly 7. It should be noted that at least a portion of the first terminal is hidden in the mounting gap 53, so as to improve the safety of the assembly process and avoid short circuit.

As shown in fig. 2 and 9, the supporting member 51 further includes a plurality of supporting columns arranged at intervals.

In this embodiment, the support member 51 comprises a plurality of spaced support columns, each support column having a first end connected to the coupling portion 52 and a second end connected to the container body. The plurality of support posts can provide multi-directional support for the coupling portion 52.

It is conceivable that the support column may be of an integral structure with the container body, the coupling portion 52 may be detachably provided on the support column, and when the coupling portion 52 is out of order due to long-term use, the coupling portion 52 may be removed for maintenance or replaced, reducing maintenance costs as much as possible.

Of course, the support column can also be detached from the container body along with the coupling portion 52, thereby reducing the difficulty of detachment and maintenance.

In this application, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, the description of the terms "one embodiment," "some embodiments," "a specific embodiment," etc., mean 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 present application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (20)

1. A food container, characterized in that, the food container is used for cooking utensil, cooking utensil includes pot body subassembly and establishes the pot body power supply unit on the pot body subassembly, includes:

a container body having a cooking cavity, the container body being placeable on the pan body assembly;

the connecting piece is arranged on the outer wall of the container body and can be abutted against the pot body assembly;

the heating element is arranged on the outer wall of the container body;

the container power supply assembly is arranged on the container body, the first end of the container power supply assembly is electrically connected with the heating element, and the second end of the container power supply assembly is used for being electrically connected with the pot body power supply assembly.

2. The food container of claim 1, wherein the connector comprises:

the connecting bracket is arranged on the outer wall of the container body;

the accommodating area is located between the connecting support and the container body, and the heating element and the container power supply assembly are located in the accommodating area.

3. The food container of claim 2,

the quantity of linking bridge is a plurality of, and is a plurality of linking bridge sets up around heating member interval.

4. The food container of claim 2,

the connecting bracket extends from the bottom wall of the container body to the side wall of the container body.

5. Food container according to claim 3,

the container power supply assembly is located between adjacent two of the plurality of connection brackets.

6. A cooking appliance, comprising:

the pot body assembly is provided with a pot body power supply assembly; and

the food container as claimed in any one of claims 1 to 5, wherein the food container is detachably provided on the pot body assembly, and the container power supply assembly of the food container is electrically connected with the pot body power supply assembly.

7. A cooking appliance, comprising:

the pan body assembly is provided with a pan body power supply assembly;

a plurality of food containers alternatively disposed on the pan assembly, each food container comprising:

a container body having a cooking cavity, the container body being placed on the pan assembly;

the heating element is arranged on the outer wall of the container body;

the container power supply assembly is arranged on the container body, a first end of the container power supply assembly is electrically connected with the heating element, and a second end of the container power supply assembly is used for being electrically connected with the pot body power supply assembly.

8. The cooking appliance according to claim 6 or 7,

the container power supply assembly is a container coupler.

9. The cooking appliance of claim 8, wherein the container coupler comprises:

a support member disposed on the container body;

the coupling part is arranged on the supporting part, an installation gap is formed between the coupling part and the container body, a part of a first terminal of the coupling part penetrates through the installation gap to be connected with the heating part, and a second terminal of the coupling part is used for being connected with the pot body power supply component.

10. The cooking appliance of claim 9,

the support member includes a plurality of support posts arranged at intervals.

11. The cooking appliance of claim 9 or 10,

the pan body assembly is provided with an accommodating cavity, at least one part of the pan body power supply assembly is positioned in the accommodating cavity, and the food container is placed in the accommodating cavity;

the cooking appliance further comprises:

and the fan assembly is arranged on the pot body assembly and is used for driving the air in the accommodating cavity to flow.

12. The cooking appliance of claim 11,

the food container comprises a first food container and a second food container, and the first food container and the second food container are alternatively placed in the accommodating cavity.

13. The cooking appliance of claim 12,

and a first air duct communicated with the external environment is formed between the first food container and the pot body assembly under the state that the first food container is placed in the accommodating cavity.

14. The cooking appliance of claim 13,

the first air duct comprises an air supply section and an air outlet section which are communicated, and the air supply section is communicated with the external environment through the air outlet section;

the container body of the first food container is a first container body, the air supply section is arranged between the first container body and the pot body assembly, and the cooking cavity of the first container body is a first cooking cavity;

the first food container further comprises:

the first cooker cover is arranged at the opening end of the first container body in a covering mode to seal the first cooking cavity, and the air outlet section is arranged between the outer edge of the first cooker cover and the edge of the cooker body assembly.

15. The cooking appliance of claim 14,

the heating element of first food container is the hot plate, the hot plate subsides are located on the first container body.

16. The cooking appliance according to any one of claims 12 to 15,

and a second air duct is formed between the second food container and the pot body assembly under the state that the second food container is placed in the accommodating cavity, and the second air duct is communicated with the cooking cavity of the second food container.

17. The cooking appliance of claim 16,

the container body of the second food container is a second container body, the cooking cavity of the second food container is a second cooking cavity, the bottom wall of the second container body is provided with an air passing hole, and the second cooking cavity is communicated with the second air channel through the air passing hole.

18. The cooking appliance of claim 17, wherein the second food container includes a second lid, the second lid is disposed on the lid assembly, an air passage is provided between the second lid and the second container body, and the second air duct communicates with the second cooking cavity through the air passage.

19. The cooking appliance of claim 17,

the heating element of the second food container is a heating pipe, and an overfire air gap is formed between the heating pipe and the second container body.

20. The cooking appliance of claim 11,

the pot body assembly comprises a body and an outer pot, the outer pot is arranged in the body, the pot body power supply assembly is installed on the outer pot, an installation cavity is formed between the outer pot and the body, and the outer pot forms the accommodating cavity;

the fan assembly includes:

the first fan blade is positioned in the accommodating cavity and used for disturbing air in the accommodating cavity;

the second fan blade is positioned in the mounting cavity and used for disturbing air in the mounting cavity;

and the driving motor is arranged in the mounting cavity and is connected with the first fan blade and the second fan blade.

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