CN216907591U - Pot body subassembly and cooking utensil - Google Patents

Abstract

The application provides a pot body subassembly and cooking utensil, wherein, pot body subassembly includes body, outer pot, switches on piece, air outlet and fan subassembly, wherein, is equipped with the air intake on the body. At least one part of the outer pot is arranged in the body, and an air channel is arranged between the outer pot and the body. The air guide is located the wind channel, and the air guide links to each other with at least one in body and the outer pot, and the air guide has the wind gap and the first wind-guiding passageway of intercommunication, and first wind-guiding passageway passes through wind gap and wind channel intercommunication. The air outlet is arranged on the air guide piece and/or the body and communicated with the first air guide channel. At least one part of the fan assembly is positioned in the first air guide channel, and the fan assembly is used for guiding air to enter the air channel from the air inlet and then to be discharged from the air outlet through the first air guide channel. Through setting up the air guide in this application, can guide the cold air to flow according to appointed route in getting into the wind channel after, can not take place the turbulent flow, can in time discharge the heat, promote heat dispersion.

Description

Pot body subassembly and cooking utensil

Technical Field

The application relates to the technical field of kitchen appliances, in particular to a pot body assembly and a cooking utensil.

Background

At present, the internal temperature of products is overhigh in the cooking process of cooking appliances such as electric cookers, cooking machines, pressure cookers, air fryer and the like applied to kitchen cooking, so as to avoid damaging electric appliance parts in the products due to long-term high temperature, reduce the service life of the products and even cause various safety problems (such as spontaneous combustion of electric appliances in the products). A heat dissipation fan is often provided inside the cooking appliance to suck external cold air into the cooking appliance, but the heat dissipation fan cannot properly solve the problem of poor heat dissipation of the cooking appliance due to an unreasonable structural design.

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 is to propose a pan assembly.

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

In view of this, according to the first aspect of this application, provide a pot body subassembly, it includes body, outer pot, switches on piece, air outlet and fan subassembly, wherein, is equipped with the air intake on the body. At least one part of the outer pot is arranged in the body, and an air channel is arranged between the outer pot and the body. The air guide is located in the air duct and connected with at least one of the body and the outer pot, the air guide is provided with an air passing opening and a first air guide channel which are communicated, and the first air guide channel is communicated with the air duct through the air passing opening. The air outlet is arranged on the air guide piece and/or the body and communicated with the first air guide channel. At least one part of the fan assembly is positioned in the first air guide channel, and the fan assembly is used for guiding air to enter the air channel from the air inlet and then to be discharged from the air outlet through the first air guide channel.

The application provides a pot body subassembly includes body, outer pot, switches on piece, air outlet and fan subassembly, wherein, is equipped with the air intake on the body, and the air intake is used for allowing outside cold air to get into. At least a part of outer pot is established in the body, and outer pot self encloses to establish and forms and hold the chamber, holds the chamber and is used for placing food container to realize the culinary art function, at the culinary art in-process, the inside temperature of outer pot is higher. Wherein, an air duct is arranged between the outer pot and the body and is communicated with the air inlet, cold air enters the air duct through the air inlet, and the cold air flowing in the air duct can disturb hot air in the air duct. The air guide is arranged in the air duct, and particularly, the air guide can be connected with at least one of the body and the outer pot, so that the position stability of the air guide is ensured. The air guide has the wind gap of crossing with the wind channel intercommunication, air guide self can form first wind-guiding passageway, air guide can form first wind-guiding passageway with the outer pot, perhaps air guide can form first wind-guiding passageway with the body, the wind-guiding passageway is through establishing air outlet and the outside intercommunication on air guide and/or the body, air guide can guide the cold air to flow according to appointed route after getting into in the wind channel, the turbulent flow can not take place, can in time discharge the heat, promote heat dispersion.

Furthermore, the fan assembly is located at the bottom of the pot body assembly, at least one part of the fan assembly is located in the first air guide channel, and negative pressure can be formed at the first air guide channel when the fan assembly operates, so that outside cold air is sucked into the air channel through the air inlet and then enters the first air guide channel through the air passing port. That is, the fan assembly acts to disturb the air flow.

So far, outer pot, body, air ducting have constituted the heat dissipation route that can realize the inside air cycle of pot body subassembly, and specifically, outside cold air gets into inside the wind channel via the air intake, then gets into first wind-guiding passageway via the wind gap again, finally by the air outlet discharge to the external environment.

Outer pot, body and air guide form the circulation heat dissipation route jointly in this application, and the cold air can take away the heat in the wind channel along the heat dissipation route flow in-process, realizes the heat dissipation circulation, ensures the heat dissipation of pot body group spare inside air, avoids pot body group spare inside electric component because be in the potential safety hazard that probably exists under the high temperature environment for a long time, and simple structure just saves the cost, can reduce the temperature of body.

In one possible embodiment, the first air guiding channel is further located between the air guiding element and the pan bottom of the outer pan.

In the design, the first air guide channel is located between the air guide piece and the bottom of the outer pot, namely the first air guide channel is formed by enclosing the bottom of the outer pot and the air guide piece, and in consideration of arrangement of heat sources in the cooking utensil, the heat sources are generally arranged at the bottom of the outer pot or at the bottom of a food container inside the outer pot, so that the heat moves from bottom to top conveniently. Here, make first wind-guiding passageway form in the bottom of a boiler department of outer pot to can carry out the pertinence heat dissipation to the position that the heat is comparatively concentrated, can take away the heat fast, in a large number better, prevent the position heat concentrate too high and the potential safety hazard that probably leads to.

In a possible design, further, a first air guide channel can be formed between the air guide member and the outer pot and between the air guide member and the body, the air outlet is formed in the body, and the air guide member can be of a bent plate-shaped structure.

In a possible design, further, the air guide piece further comprises a second air guide channel, the second air guide channel is respectively communicated with the inside of the outer pot and the air outlet, and one part of the fan assembly is located in the second air guide channel.

In this design, the air guide still includes second wind-guiding passageway, and the first end of second wind-guiding passageway and the inside intercommunication of outer pot, the second end and the air outlet intercommunication of second wind-guiding passageway, second wind-guiding passageway can be with arranging outside inside hot-air, the hot steam etc. of outer pot promptly, can promote the culinary art effect that has the cooking utensil of this pot body subassembly. Conceivably, in order to realize the communication between the second air guide channel and the inside of the outer pot, a communication port is arranged on the outer pot, and the second air guide channel is communicated with the inside of the outer pot through the communication port.

The second air guiding channel may be formed by the air guiding member alone, or the air guiding member and the outer pot may be formed together.

Furthermore, a part of the fan assembly extends into the outer pot to disturb the air flow in the outer pot to flow, so that the air flow in the outer pot can be exhausted to the outside through the second air guide channel.

It should be noted that the first air guide channel and the second air guide channel share one air outlet, so that the heat inside the outer pot driven by the cold air fan blade can be effectively realized.

In a possible design, further, the body is provided with an installation notch, and the installation notch is communicated with the air duct. The first part of air guide is connected with the outer pot, the second part of air guide protrudes towards the direction deviating from the fan assembly, the second part of air guide is provided with an air outlet, and the second part of air guide is positioned in the mounting notch.

In the design, the body is provided with an installation notch, the installation notch is communicated with the air duct, and the installation notch is used for assembling the air guide piece. The first part of air guide links to each other with outer pot, and the second part of air guide is towards the direction protrusion that deviates from fan assembly, and is equipped with the air outlet on this part, and the second part of air guide inlays to be established in the installation breach. That is to say, as far as possible, the first air guide channel and the second air guide channel are formed by one component, so that possible splicing seams and the like in the process of splicing a plurality of components to form the first air guide channel and the second air guide channel can be reduced, air flows can flow in the first air guide channel and the second air guide channel which are continuous and smooth, and the assembly difficulty can also be reduced.

In a possible design, further, the air guide comprises a first end plate and a second end plate which are arranged in the air duct at intervals, a part of the first end plate and a part of the second end plate are located in the installation notch, and the first end plate is provided with an air passing opening. The bounding wall is established between first end plate and second end plate, and the air outlet is located on the bounding wall. The baffle is connected between outer pot and bounding wall, has first wind-guiding passageway between baffle and the first end plate, has second wind-guiding passageway between baffle and the second end plate.

In this design, the air guide includes the first end plate of arranging from bottom to top, baffle and second end plate, first end plate is the bottom end plate, the second end plate is the top end plate, the bounding wall is established between the outer edge of first end plate and the outer edge of second end plate, the bounding wall, first end plate and second end plate enclose and form the wind-guiding chamber, the baffle is located between bounding wall and the outer pot, the baffle divides the wind-guiding chamber and is called second wind-guiding passageway and the first wind-guiding passageway of arranging along upper and lower direction, first wind-guiding passageway is under promptly, second wind-guiding passageway is last.

Wherein, air guide formula structure as an organic whole, first end plate, baffle and second end plate can form through integrated into one piece technology processing promptly, not only can promote the reliable connectivity between first end plate, baffle and the second end plate, also can reduce the production and processing degree of difficulty simultaneously, promotes air guide's assembly efficiency.

In one possible design, the air inlet further includes a first air inlet and a second air inlet, and the air outlet is located between the first air inlet and the second air inlet.

In this design, the air intake includes first air intake and second air intake, and first air intake is established in the below of air outlet, and the second air intake is established in the top of air outlet, and cold air can get into the wind channel inside respectively from top, below promptly, if only have the second air intake, then when the first wind-guiding passageway department is arrived after the wind channel is flowed through to cold air, air temperature probably is roughly equal with the temperature of first wind-guiding passageway department, can't play the purpose of heat exchange. And if the air inlet contains first air inlet, then the cold air that gets into from the bottom can exchange with the heat of fan subassembly, first wind-guiding passageway department fast, and then realizes the radiating purpose of rapid cooling.

Specifically, when the body is substantially "U" shaped, the body has a side wall and a bottom wall, the second air inlet is located above the side wall, the first air inlet is located on the bottom wall, and the air outlet is located below the side wall. At the moment, cold air from the upper direction and the lower direction can be discharged from the air outlet through the first air guide channel after entering the air duct for internal circulation.

In a possible design, further, the body includes a base and a housing, and the base is provided with a first air inlet. The shell is detachably arranged on the base, and a second air inlet is formed in the shell.

In this design, the body includes base and shell, and base and shell can dismantle the connection, and partly sunken formation first breach of base, partly sunken formation second breach of shell, when base and shell combination assembly, first breach and second breach are corresponding, and the two forms the installation breach. During the wind guide stretched into the installation breach, partly and the base of wind guide contacted, another part and the shell of wind guide contacted, formed the body through base and shell, reduced the processing degree of difficulty, processed the part of installation breach respectively on base and shell simultaneously, can also simplify the assembly process between wind guide and the body.

Furthermore, a first air inlet is formed in the base, a second air inlet is formed in the shell, the first air inlet is used for supplying air downwards, the second air inlet is used for supplying air upwards, cold air from different directions enters the air channel and then enters the first air guide channel through the guide of the fan assembly, and therefore the pot body assembly can dissipate heat quickly.

In a possible design, further, the fan assembly includes a hot air blade, a cold air blade and a driving motor, and the hot air blade is located inside the outer pot. The cold wind fan blade is located in the first wind guide channel. And the driving motor of the driving motor is positioned in the air duct, and a transmission shaft of the driving motor is connected with the cold air fan blade and the hot air fan blade.

In this design, the fan subassembly includes hot-blast fan blade, cold wind fan blade and driving motor, and inside hot-blast fan blade was located outer pot, hot-blast fan blade was used for disturbing the inside air flow of outer pot, has the intercommunication mouth on the outer pot, and second wind-guiding passageway passes through the intercommunication mouth and the inside intercommunication of outer pot, and under the effect of hot-blast fan blade, the inside hot-air of outer pot, hot steam can be followed second wind-guiding passageway and discharged to the external world. The cold air fan blade is located in the first air guide channel, and when the cold air fan blade rotates, negative pressure can be formed in the first air guide channel, so that cold air enters the air channel through the air inlet, then enters the first air guide channel through the air passing port, and finally is discharged from the air outlet. Under the effect of cold wind fan blade, the air circulates between outer pot and body to realize the effective heat dissipation to the part between outer pot and the body, avoid the heat to transmit to body department too much, and the potential safety hazard that probably exists.

Furthermore, the fan assembly further comprises a driving motor, the driving motor comprises a driving motor and a transmission shaft connected with the driving motor, the transmission shaft respectively extends into the first air guide channel and the outer pot from bottom to top and is respectively connected with the cold air blade and the hot air blade, and the transmission shaft can simultaneously drive the cold air blade and the hot air blade to operate in the operation process, so that the structure is compact.

In a possible design, further, the pot body assembly further comprises a heating assembly, the heating assembly is arranged on the outer pot, and the heating assembly is located inside the outer pot.

In this design, pot body subassembly still includes heating element, and heating element integration is established on outer pot, and heating element is located the inside of outer pot, and heating element can heat the food container that is located outer pot inside to realize the culinary art function. This application is through establishing heating element is integrated on outer pot, can simplify the structure of food container, need not additionally to set up the heater block on making the food container, and the structure is light and handy, and the user of being convenient for takes, simultaneously because the food container has higher clean frequency, can not cause the damage of heater block because of the high frequency cleanness to the food container yet, makes cooking utensil's complete machine security performance effectively improve.

In one possible design, further, the heating assembly includes a heating plate and a heating tube, the heating plate is spaced apart from the outer pan, and a portion of the fan assembly is located between the heating plate and the pan bottom of the outer pan. The heating pipe is arranged between the heating plate and the bottom of the outer pot.

In this design, heating element includes two heating sources, specifically is hot plate and heating pipe, and the hot plate is built on stilts to be established on outer pot, has the interval between the diapire of hot plate and outer pot, and the interval is used for holding fan assembly's partly, specifically, and the hot-blast fan blade in the fan assembly is located between hot plate and the bottom of a boiler. The heating pipe is arranged between the heating plate and the bottom of the outer pot and surrounds the periphery of the hot air fan blade. The heating pipe and the heating plate are relatively independent in starting and stopping and can be mutually related. Under different cooking modes, different heating sources can be selected for heating. For example, when the cooking utensil with the pot body assembly is in a pressure cooking mode, the heating plate can be controlled to be opened, and the heating pipe is controlled to be closed. When the cooking utensil with the pot body assembly is in the air-frying cooking mode, the heating pipe can be controlled to be opened, and the heating plate is closed. Under the air-fry culinary art mode, hot-blast fan blade rotates and blows to the heating pipe, and then blows the hot-air that heating pipe department has been heated to food to realize culinary art effects such as toasting.

In a possible design, the heating assembly further comprises a mounting opening, and the mounting opening is arranged on the heating plate. The backup pad, the backup pad is located installation department and is connected with the hot plate, is equipped with the vent in the backup pad.

In this design, the upper and lower ends of the cooking chamber need to allow air circulation in order to circulate the hot air within the cooking chamber of the food container inside the outer pot when the pot assembly is in the air fry cooking mode. The event makes the hot plate that is located the bottom of a boiler department of outer pot have the installing port, installing port department is equipped with the backup pad that bears food container, have in the backup pad can with the inside vent that communicates of food container, at hot-air circulation in-process, the inside air of food container can get into the central zone of heating pipe through the vent, under the effect of hot-blast fan blade, the air can be blown to the heating pipe and realize reheating, hot-air after the reheating can get into again from the upper end in culinary art chamber inside through the guide in wind channel, thereby realize under the air-fry culinary art mode, hot air circulation is reciprocal in order to toast the edible material in the culinary art chamber.

In a possible design, further, the pot body assembly further comprises a supporting piece, and the supporting piece is arranged between the air guide piece and the body.

In this design, pot body subassembly still includes support piece, and support piece locates between air guide and the body, and support piece's setting can make and have installation space between air guide and the body to the actuating motor in the holding fan subassembly, perhaps other electrical components also can make simultaneously and have certain distance between the base of body and the heating element, avoid cooking utensil's the mesa of placing to bear higher temperature.

In a possible design, further, the support member includes a plurality of first support columns and a plurality of second support columns, and the plurality of first support columns are provided on the air guide member. A plurality of second support columns are arranged on the bottom wall of the body, and the plurality of second support columns and the plurality of first support columns are connected in a one-to-one correspondence mode.

In this design, the support member includes a plurality of first support columns and a plurality of second support columns, and the plurality of first support columns are provided on the air guide member. A plurality of second support columns are arranged on the bottom wall of the body, the second support columns and the first support columns are connected in a one-to-one correspondence mode, and therefore the air guide piece is supported in an all-dimensional mode, and meanwhile the arrangement of other parts in the pot body assembly can be adapted to as far as possible, and the avoidance possibility is provided.

According to a second aspect of the present application, there is provided a cooking appliance comprising the pot assembly provided in any one of the above designs, the cooking appliance further comprising a food container detachably disposed on the pot assembly.

The application provides a cooking utensil, including the pot body subassembly that any design of the aforesaid provided, consequently have this pot body subassembly's whole beneficial effect, give unnecessary details here, cooking utensil still includes food container, and food container detachable establishes on pot body subassembly. The food container can be placed on the pot body assembly, and the food container and the pot body assembly can be combined for cooking operation of a user or separated from the pot body assembly according to requirements, so that independent operation of the food container is realized.

It is worth to say that the cooking appliance includes any one of a pressure air-frying all-in-one machine, an electric cooker and an electric stewpan.

In a possible design, further, the outer pot of the pot body assembly is provided with a containing cavity, the food container is placed in the containing cavity, a gap is formed between the food container and the outer pot, and the fan assembly of the pot body assembly can drive air in the containing cavity to flow.

In this design, the pan assembly has a receiving cavity in which the food container can be placed. Have the clearance between food container and the outer pot, inside some of fan subassembly was located the outer pot, specifically speaking, the hot-blast fan blade of fan subassembly is located and holds the chamber, and hot-blast fan blade can drive the air flow that holds the intracavity to the air that makes through the heating element 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. When the first food container is placed in the accommodating cavity, the first food container is attached to the heating plate of the pot body assembly. And the second food container is arranged on the supporting plate of the pan body component under the state that the second food container is placed in the accommodating 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. Cooking utensil that first food container, second food container and pot body subassembly combination formed is the pressure air-fried all-in-one, 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 pressure cooking mode, first food container places in holding the chamber, and the bottom wall of hot plate and first food container is laminated mutually, and the hot plate can directly heat first food container, and then realizes heating the food of culinary art intracavity. Wherein, under the pressure culinary art mode, can control the operating condition of heating pipe according to actual demand, control the operating condition of fan subassembly. For example, can control fan subassembly operation, can improve the culinary art curve that pressure cooking touched down when hot-blast fan blade rotates, promote the culinary art taste.

Wherein, the clearance that forms between first food container and the pot body subassembly can switch on with external environment, and after pressure cooking, the hot plate stop work opens the fan subassembly, and at this moment, the air that the fan subassembly can disturb in this clearance flows for cooking utensil's inside heat can be arranged to the external world fast, plays quick heat dissipation, the purpose of stepping down fast and uncapping, reduces user latency.

Specifically, first food container includes first vessel and first pot lid, and the sealed lid of first pot lid is established at first vessel's open end to make the inside first culinary art chamber of first vessel sealed relatively, realize the pressure cooking effect. The diapire of first container body can with the hot plate laminating to making the hot plate heat first container body, at the pressure culinary art in-process, can controlling fan subassembly and not running.

When the cooking appliance is in the air-frying cooking mode, the second food container is placed in the accommodating cavity, the bottom wall of the second food container is supported on the supporting plate, and the bottom wall of the second food container is not in contact with the heating plate. The heating pipe can heat the air in the accommodating cavity, the heated air can heat the food in the accommodating cavity of the second food container, and the pressure cooking mode and the air-frying cooking mode are different.

Specifically, the second food container comprises a second container body and a second container cover, the second container cover is arranged at the top opening of the pot body assembly, an air passing channel is arranged between the second container body and is the top channel of a second cooking cavity formed by the second container body, an air passing hole formed in the bottom of the second container body can be communicated with a ventilation hole in the supporting plate to form a bottom channel of the second cooking cavity, and therefore hot air circulation under the air frying cooking mode is achieved.

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 shows an exploded view of the structure of a pan body assembly according to one embodiment of the present application;

fig. 2 shows one of the longitudinal cut views of the cooking appliance in an air-fry cooking mode in accordance with an embodiment of the present application;

fig. 3 shows a second schematic longitudinal cut through the cooking appliance in the air-fry cooking mode in accordance with an embodiment of the present application;

fig. 4 shows an exploded view of the structure of a cooking appliance in an air-fry cooking mode in accordance with an embodiment of the present application;

FIG. 5 illustrates a longitudinal cut away schematic view of a cooking appliance in a pressure cooking mode in accordance with an embodiment of the present application;

fig. 6 shows an exploded view of a cooking appliance in a pressure cooking mode in an embodiment according to the present application.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

1a pan body component,

10 of the main body of the water-cooled generator,

101a, 101b, a first intake vent,

102 of the air outlet, and a water outlet,

103 of the mounting notch are arranged on the base plate,

104 of the base plate of the mobile phone, and a base plate of the mobile phone,

105 an outer casing, which is provided with a plurality of openings,

11, an outer pot is arranged outside the pot,

12 an air duct is arranged on the base plate,

13 wind guide parts, 13a first wind guide channel, 13b second wind guide channel, 130 air inlet, 131 first end plate, 132 second end plate, 133 enclosing plate, 134 separating plate,

14 a fan assembly for a fan of a gas turbine,

141 a hot-air fan blade, wherein,

142 a cold air fan blade, a fan blade,

143 drive motor, 1431 drive motor, 1432 drive shaft,

15 heating elements, 151 heating plates, 152 heating tubes, 153 support plates,

16 support, 161 a first support column, 162 a second support column,

2 a cooking utensil for cooking food, wherein,

21 a first food container, 211 a first container body, 212 a first cooking cavity, 213 a first lid,

22 a second food container, 221 a second container body, 222 a second cooking cavity, 223 a second lid.

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.

Referring to fig. 1-6, a pan assembly 1 and a cooking appliance 2 provided according to some embodiments of the present application are described below.

According to a first aspect of the present application, as shown in fig. 1 and fig. 2, a pot body assembly 1 is provided, which includes a body 10, an outer pot 11, a conducting member, an air outlet 102 and a fan assembly 14, wherein the body 10 is provided with an air inlet. At least one part of the outer pot 11 is arranged in the body 10, and an air duct 12 is arranged between the outer pot 11 and the body 10. The air guide 13 is positioned in the air duct 12, the air guide 13 is connected with at least one of the body 10 and the outer pot 11, the air guide 13 is provided with an air passing opening 130 and a first air guide channel 13a which are communicated, and the first air guide channel 13a is communicated with the air duct 12 through the air passing opening 130. The air outlet 102 is disposed on the air guide 13 and/or the body 10, and the air outlet 102 is communicated with the first air guide channel 13 a. At least a part of the fan assembly 14 is located in the first air guiding channel 13a, and the fan assembly 14 is used for guiding air to enter the air duct 12 from the air inlet and then to be discharged from the air outlet 102 through the first air guiding channel 13 a.

The pot body assembly 1 provided by the application comprises a body 10, an outer pot 11, a conducting piece, an air outlet 102 and a fan assembly 14, wherein an air inlet is formed in the body 10 and used for allowing outside cold air to enter. At least one part of outer pot 11 is established in body 10, and outer pot 11 encloses to establish itself and forms and hold the chamber, holds the chamber and is used for placing food container to realize the culinary art function, at the culinary art in-process, the inside temperature of outer pot 11 is higher. Wherein, an air duct 12 is arranged between the outer pot 11 and the body 10, the air duct 12 is communicated with an air inlet, cold air enters the air duct 12 through the air inlet, and the cold air flowing in the air duct 12 can disturb hot air in the air duct 12. The air guide 13 is provided in the air duct 12, and specifically, the air guide 13 may be connected to at least one of the main body 10 and the outer pot 11, thereby ensuring positional stability of the air guide 13. The air guide 13 is provided with an air inlet 130 communicated with the air duct 12, the air guide 13 can form a first air guide channel 13a with the outer pot 11, or the air guide 13 can form a first air guide channel 13a with the body 10, the air guide channel is communicated with the outside through an air outlet 102 arranged on the air guide 13 and/or the body 10, the air guide 13 can guide cold air to flow according to a specified passage after entering the air duct 12, turbulence can not occur, heat can be timely discharged, and heat dissipation performance is improved.

Further, the fan assembly 14 is located at the bottom of the pot body assembly 1, at least a portion of the fan assembly 14 is located in the first air guiding channel 13a, and the fan assembly 14 is operated to form a negative pressure at the first air guiding channel 13a, so that outside cold air is sucked into the air duct 12 through the air inlet and then enters the first air guiding channel 13a through the air outlet 130. That is, the fan assembly 14 acts to disrupt the flow of air.

To this end, the outer pot 11, the body 10, and the air guide 13 constitute a heat dissipation path capable of realizing air circulation inside the pot body assembly 1, specifically, outside cold air enters the air duct 12 through the air inlet, then enters the first air guide channel 13a through the air passing opening 130, and finally is discharged to the outside environment through the air outlet 102.

Outer pot 11, body 10 and air guide 13 form the circulation heat dissipation route jointly in this application, and the cold air can take away the heat in wind channel 12 along the heat dissipation route flow in-process, realizes the heat dissipation circulation, ensures the heat dissipation of pot body subassembly 1 inside air, avoids the internal electric component of pot body subassembly 1 because be in the potential safety hazard that probably exists under the high temperature environment for a long time, and simple structure just saves the cost, can reduce the temperature of body 10.

Further, as shown in fig. 1, 2, 3 and 5, the first wind guiding channel 13a is located between the wind guiding member 13 and the bottom of the outer pot 11.

In this embodiment, the first wind guiding channel 13a is located between the wind guiding member 13 and the bottom of the outer pot 11, that is, the first wind guiding channel 13a is formed by enclosing the bottom of the outer pot 11 and the wind guiding member 13, and considering the arrangement of the heat source in the cooking utensil 2, the heat source is generally disposed at the bottom of the outer pot 11 or at the bottom of the food container inside the outer pot 11, so as to facilitate the movement tendency of the heat from bottom to top. Here, the first air guiding channel 13a is formed at the bottom of the outer pot 11, so that the heat can be radiated in a targeted manner at a position where the heat is concentrated, the heat can be taken away quickly and in a large amount, and potential safety hazards caused by the fact that the heat is concentrated too high at the position can be prevented.

Further, the air guide 13 may form a first air guide channel 13a with the outer pot 11 and the main body 10, the air outlet 102 is provided on the main body 10, and the air guide 13 may have a bent plate-like structure.

Further, as shown in fig. 2, the air guide 13 further includes a second air guide channel 13b, the second air guide channel 13b is respectively communicated with the inside of the outer pot 11 and the air outlet 102, and a part of the fan assembly 14 is located in the second air guide channel 13 b.

In this embodiment, the air guide member 13 further includes a second air guide channel 13b, a first end of the second air guide channel 13b is communicated with the inside of the outer pot 11, and a second end of the second air guide channel 13b is communicated with the air outlet 102, that is, the second air guide channel 13b can discharge hot air, hot steam and the like in the outer pot 11 to the outside, so that the cooking effect of the cooking appliance 2 having the pot body assembly 1 can be improved. In order to communicate the second air guiding channel 13b with the inside of the outer pot 11, a communication port is provided in the outer pot 11, and the second air guiding channel 13b communicates with the inside of the outer pot 11 through the communication port.

The second air guide passage 13b may be formed by the air guide 13 alone, or the air guide 13 and the outer pot 11 may be formed together.

Further, a portion of the fan assembly 14 extends into the interior of the outer pot 11 to disturb the airflow inside the outer pot 11, so that the airflow inside the outer pot 11 can be discharged to the outside through the second air guiding channel 13 b.

It should be noted that the first wind guiding channel 13a and the second wind guiding channel 13b share one wind outlet 102, so that the heat inside the outer pot 11 can be effectively driven by the cold wind blade 142.

Further, as shown in fig. 1, the main body 10 is provided with an installation notch 103, and the installation notch 103 is communicated with the air duct 12. The first part of the air guide piece 13 is connected with the outer pot 11, the second part of the air guide piece 13 protrudes towards the direction departing from the fan assembly 14, the second part of the air guide piece 13 is provided with an air outlet 102, and the second part of the air guide piece 13 is positioned in the installation notch 103.

In this embodiment, the main body 10 is provided with an installation notch 103, the installation notch 103 is communicated with the air duct 12, and the installation notch 103 is used for assembling the air guide 13. The first part of the air guide 13 is connected with the outer pot 11, the second part of the air guide 13 protrudes towards the direction departing from the fan assembly 14, an air outlet 102 is arranged on the part, and the second part of the air guide 13 is embedded in the installation notch 103. That is to say, the first air guiding channel 13a and the second air guiding channel 13b are made of one component as much as possible, so that splicing seams and the like which may exist in the process of splicing a plurality of components to form the first air guiding channel 13a and the second air guiding channel 13b can be reduced, air flows can flow in the first air guiding channel 13a and the second air guiding channel 13b which are continuous and smooth, and the assembly difficulty can also be reduced.

Further, as shown in fig. 1 and fig. 2, the air guide 13 includes a first end plate 131 and a second end plate 132, which are arranged at intervals in the air duct 12, a portion of the first end plate 131 and a portion of the second end plate 132 are located in the installation notch 103, and the first end plate 131 is provided with an air inlet 130. An enclosure 133 is provided between the first end plate 131 and the second end plate 132, and the outlet 102 is provided on the enclosure 133. The partition 134 is connected between the outer pot 11 and the surrounding plate 133, a first wind guide passage 13a is provided between the partition 134 and the first end plate 131, and a second wind guide passage 13b is provided between the partition 134 and the second end plate 132.

In this embodiment, the wind guide member 13 includes a first end plate 131, a partition 134 and a second end plate 132 arranged from bottom to top, the first end plate 131 is a bottom end plate, the second end plate 132 is a top end plate, a surrounding plate 133 is disposed between an outer edge of the first end plate 131 and an outer edge of the second end plate 132, the surrounding plate 133, the first end plate 131 and the second end plate 132 surround to form a wind guide cavity, the partition 134 is disposed between the surrounding plate 133 and the outer pot 11, and the partition 134 divides the wind guide cavity into a second wind guide channel 13b and a first wind guide channel 13a arranged in an up-down direction, that is, the first wind guide channel 13a is located below, and the second wind guide channel 13b is located above.

Wherein, wind-guiding piece 13 formula structure as an organic whole, first end plate 131, baffle 134 and second end plate 132 can be formed through integrated into one piece technology processing promptly, not only can promote the reliable connectivity between first end plate 131, baffle 134 and the second end plate 132, also can reduce the production and processing degree of difficulty simultaneously, promotes wind-guiding piece 13's assembly efficiency.

Further, as shown in fig. 1 and 2, the intake vent includes a first intake vent 101a and a second intake vent 101b, and the outlet vent 102 is located between the first intake vent 101a and the second intake vent 101 b.

In this embodiment, the air inlets include a first air inlet 101a and a second air inlet 101b, the first air inlet 101a is disposed below the air outlet 102, and the second air inlet 101b is disposed above the air outlet 102, that is, the cold air can enter the air duct 12 from above and below, if only the second air inlet 101b is provided, when the cold air reaches the first air guiding channel 13a after flowing through the air duct 12, the air temperature may be approximately equal to the temperature at the first air guiding channel 13a, and the purpose of heat exchange cannot be achieved. If the air inlet includes the first air inlet 101a, the cold air entering from the bottom can be rapidly exchanged with the heat at the fan assembly 14 and the first air guiding channel 13a, so as to achieve the purpose of rapid cooling and heat dissipation.

Specifically, when the body 10 is substantially "U" shaped, the body 10 has a side wall and a bottom wall, the second air inlet 101b is located above the side wall, the first air inlet 101a is located on the bottom wall, and the air outlet 102 is located below the side wall. At this time, after the cold air from the upper and lower directions enters the air duct 12 for circulation, the cold air can be exhausted from the air outlet 102 through the first air guiding passage 13 a.

Further, as shown in fig. 1 and 2, the body 10 includes a base 104 and a casing 105, and the base 104 is provided with a first air inlet 101 a. The housing 105 is detachably disposed on the base 104, and the housing 105 is provided with a second air inlet 101 b.

In this embodiment, the body 10 includes a base 104 and a housing 105, the base 104 and the housing 105 are detachably connected, a portion of the base 104 is recessed to form a first notch, a portion of the housing 105 is recessed to form a second notch, and when the base 104 and the housing 105 are assembled together, the first notch and the second notch correspond to each other and form the installation notch 103. The air guide 13 extends into the installation gap 103, one part of the air guide 13 is in contact with the base 104, the other part of the air guide 13 is in contact with the outer shell 105, the body 10 is formed by the base 104 and the outer shell 105, the processing difficulty is reduced, meanwhile, the parts of the installation gap 103 are respectively processed on the base 104 and the outer shell 105, and the assembling process between the air guide 13 and the body 10 can be simplified.

Furthermore, a first air inlet 101a is formed in the base 104, a second air inlet 101b is formed in the housing 105, the first air inlet 101a supplies air downwards, the second air inlet 101b supplies air upwards, and cold air from different directions enters the air duct 12 and then enters the first air guide channel 13a through the guide of the fan assembly 14, so that the rapid heat dissipation of the pot body assembly 1 is realized.

Further, as shown in fig. 2, 3 and 5, the fan assembly 14 includes a hot air blade 141, a cold air blade 142 and a driving motor 143, and the hot air blade 141 is located inside the outer pot 11. The cool air fan 142 is located in the first air guiding passage 13 a. The driving motor 143, the driving motor 1431 of the driving motor 143 is located in the air duct 12, and the transmission shaft 1432 of the driving motor 143 is connected with the cold air blade 142 and the hot air blade 141.

In this embodiment, the fan assembly 14 includes a hot air blade 141, a cold air blade 142 and a driving motor 143, the hot air blade 141 is located inside the outer pot 11, the hot air blade 141 is used for disturbing the air flow inside the outer pot 11, a communication port is provided on the outer pot 11, the second air guiding channel 13b is communicated with the inside of the outer pot 11 through the communication port, and under the action of the hot air blade 141, the hot air and the hot steam inside the outer pot 11 can be discharged to the outside from the second air guiding channel 13 b. The cold wind blade 142 is located in the first wind guiding channel 13a, and when the cold wind blade 142 rotates, a negative pressure can be formed in the first wind guiding channel 13a, so that cold air enters the wind channel 12 through the wind inlet, then enters the first wind guiding channel 13a through the wind passing opening 130, and finally is discharged from the wind outlet 102. Under the effect of cold wind fan blade 142, the air circulates between outer pot 11 and body 10 to realize the effective heat dissipation to the part between outer pot 11 and body 10, avoid the heat to transmit to body 10 too much, and the potential safety hazard that probably exists.

Further, the fan assembly 14 further includes a driving motor 143, the driving motor 143 includes a driving motor 1431 and a transmission shaft 1432 connected to the driving motor 1431, the transmission shaft 1432 extends into the first wind guiding channel 13a and the interior of the outer pot 11 from bottom to top, and is connected to the cold wind blade 142 and the hot wind blade 141 respectively, and the transmission shaft 1432 can drive the cold wind blade 142 and the hot wind blade 141 to operate simultaneously during the operation process, so that the structure is compact.

Further, as shown in fig. 2, 3 and 5, the pot body assembly 1 further comprises a heating assembly 15, the heating assembly 15 is arranged on the outer pot 11, and the heating assembly 15 is located inside the outer pot 11.

In this embodiment, the pot body assembly 1 further comprises a heating assembly 15, the heating assembly 15 is integrally arranged on the outer pot 11, the heating assembly 15 is located inside the outer pot 11, and the heating assembly 15 can heat a food container located inside the outer pot 11, so as to realize a cooking function. This application is through establishing heating element 15 integration on outer pot 11, can simplify food container's structure, need not additionally to set up the heater block on making food container, and the structure is light and handy, and the user of being convenient for takes, simultaneously because food container has higher clean frequency, also can not cause the damage of heater block because of the high frequency to food container is clean, makes cooking utensil 2's complete machine security performance effectively improve.

Further, as shown in fig. 4 and 6, the heating assembly 15 includes a heating plate 151 and a heating pipe 152, the heating plate 151 is spaced apart from the outer pot 11, and a portion of the blower assembly 14 is located between the heating plate 151 and the bottom of the outer pot 11. The heating pipe 152 is provided between the heating plate 151 and the bottom of the outer pot 11.

In this embodiment, the heating assembly 15 includes two heating sources, specifically a heating plate 151 and a heating pipe 152, the heating plate 151 is arranged on the outer pot 11 in an overhead manner, a space is provided between the heating plate 151 and the bottom wall of the outer pot 11, the space is used for accommodating a part of the fan assembly 14, and specifically, the hot air blade 141 in the fan assembly 14 is located between the heating plate 151 and the bottom of the pot. The heating pipe 152 is arranged between the heating plate 151 and the bottom of the outer pot 11, and the heating pipe 152 is arranged around the periphery of the hot wind blade 141. The heating pipe 152 and the heating plate 151 are started and stopped relatively independently or in a mutual correlation manner. Under different cooking modes, different heating sources can be selected for heating. For example, when the cooking device 2 having the pot assembly 1 is in the pressure cooking mode, the heating plate 151 can be controlled to be opened and the heating pipe 152 can be controlled to be closed. When the cooking appliance 2 with the pot assembly 1 is in the air-frying cooking mode, the heating pipe 152 can be controlled to be opened, and the heating plate 151 is controlled to be closed. Under the air-fry cooking mode, hot-air fan blade 141 rotates and blows to heating pipe 152, and then blows the hot air that heating pipe 152 department has been heated to food to realize culinary art effects such as toasting.

Further, as shown in fig. 4 and 6, the heating module 15 further includes a mounting port, and the mounting port is provided on the heating plate 151. And a support plate 153, wherein the support plate 153 is arranged at the mounting opening and connected with the heating plate 151, and a ventilation opening is arranged on the support plate 153.

In this embodiment, the upper and lower ends of the cooking cavity need to allow air circulation in order to circulate the hot air inside the cooking cavity of the food container inside the outer pot 11 when the pot assembly 1 is in the air-fry cooking mode. Therefore, the heating plate 151 at the bottom of the outer pot 11 has a mounting opening, a supporting plate 153 for supporting a food container is arranged at the mounting opening, a vent capable of communicating with the inside of the food container is arranged on the supporting plate 153, in the hot air circulation process, air inside the food container can enter the central area of the heating pipe 152 through the vent, under the action of the hot air fan blade 141, the air can be blown to the heating pipe 152 to realize reheating, the reheated hot air can enter the cooking cavity again from the upper end of the cooking cavity through the guide of the air duct 12, and therefore in the air-frying cooking mode, the hot air is circulated repeatedly to bake food materials in the cooking cavity.

Further, as shown in fig. 1 and 2, the pan body assembly 1 further includes a support member 16, and the support member 16 is disposed between the wind guide 13 and the body 10.

In this embodiment, the pot body assembly 1 further includes a supporting member 16, the supporting member 16 is disposed between the air guide 13 and the main body 10, and the supporting member 16 can enable an installation space to be provided between the air guide 13 and the main body 10 to accommodate the driving motor 1431 in the fan assembly 14 or other electrical components, and can enable a certain distance to be provided between the base 104 of the main body 10 and the heating assembly 15, so as to prevent the placing table of the cooking utensil 2 from bearing a high temperature.

Further, as shown in fig. 1 and 2, the support 16 includes a plurality of first support columns 161 and a plurality of second support columns 162, and the plurality of first support columns 161 are provided on the air guide 13. The plurality of second supporting columns 162 are disposed on the bottom wall of the body 10, and the plurality of second supporting columns 162 and the plurality of first supporting columns 161 are correspondingly connected one to one.

In this embodiment, the support 16 includes a plurality of first support columns 161 and a plurality of second support columns 162, and the plurality of first support columns 161 are provided on the air guide 13. A plurality of second support columns 162 are arranged on the bottom wall of the body 10, and the plurality of second support columns 162 and the plurality of first support columns 161 are connected in a one-to-one correspondence manner, so that the air guide member 13 is supported in an all-dimensional manner, and the arrangement of other parts in the pot body assembly 1 can be adapted as far as possible, and the avoidance possibility is provided.

According to a second aspect of the present application, as shown in fig. 2, 3, 4, 5 and 6, a cooking appliance 2 is provided, which comprises a pot assembly 1 provided by any one of the above designs, wherein the cooking appliance 2 further comprises a food container detachably arranged on the pot assembly 1.

The application provides a cooking utensil 2, including the pot body subassembly 1 that any design provided above-mentioned, consequently have this pot body subassembly 1's whole beneficial effect, no longer give unnecessary details here, cooking utensil 2 still includes food container, and food container detachable establishes on pot body subassembly 1. The food container can be placed on the pot body assembly 1, and according to requirements, the food container and the pot body assembly 1 can be combined for cooking operation of a user, or the food container and the pot body assembly 1 are separated, so that independent operation of the food container is realized.

It should be noted that the cooking device 2 includes any one of a pressure air-frying all-in-one machine, an electric cooker, and an electric stewpan.

Further, as shown in fig. 2, 3 and 5, the outer pot 11 of the pot body assembly 1 has a receiving cavity in which a food container is placed, a gap is provided between the food container and the outer pot 11, and the fan assembly 14 of the pot body assembly 1 can drive the air flow in the receiving cavity.

In this embodiment, the pan unit 1 has a receiving cavity in which a food container can be placed. Have the clearance between food container and the outer pot 11, fan assembly 14 partly is located inside outer pot 11, specifically speaking, fan assembly 14's hot-blast fan blade 141 is located and holds the chamber, and hot-blast fan blade 141 can drive and hold the air flow of intracavity to the air that makes through heating element 15 heating can the rapid cycle, promotes heating efficiency, realizes the homogeneity that food was heated.

Further, the food container includes a first food container 21 and a second food container 22, and the first food container 21 and the second food container 22 are alternatively placed in the receiving cavity. In the state that the first food container 21 is placed in the receiving cavity, the first food container 21 is attached to the heating plate 151 of the pot body assembly 1. In a state where the second food container 22 is placed in the receiving cavity, the second food container 22 is mounted on the supporting plate 153 of the pot body assembly 1.

In this embodiment, the food containers include a first food container 21 and a second food container 22, and the first food container 21 and the second food container 22 may be optionally placed in the receiving cavity in one of them according to the cooking requirement of the user, specifically, the first food container 21 is a pressure cooker and the second food container 22 is an air fryer. Cooking utensil 2 that first food container 21, second food container 22 and pot body subassembly 1 combination formed is the pressure air-fried all-in-one, has two kinds of culinary art modes of pressure cooking and air fried culinary art concurrently, and the practicality is strong.

Specifically, as shown in fig. 5 and 6, in a state that the cooking appliance 2 is in the pressure cooking mode, the first food container 21 is placed in the accommodating cavity, the heating plate 151 is attached to the bottom wall of the first food container 21, and the heating plate 151 can directly heat the first food container 21, so as to heat food in the cooking cavity. In the pressure cooking mode, the operating state of the heating pipe 152 can be controlled according to actual requirements, and the operating state of the fan assembly 14 can be controlled. For example, the fan assembly 14 may be controlled to operate, and the hot wind blade 141 may improve the cooking curve of the pressure cooking under touch to improve the cooking taste.

Wherein, the clearance that forms between first food container 21 and the pot body subassembly 1 can switch on with external environment, and after pressure culinary art ended, hot plate 151 stop work opens fan subassembly 14, and at this moment, fan subassembly 14 can disturb the air flow in this clearance for cooking utensil 2's inside heat can be arranged to the external world fast, plays quick heat dissipation, the mesh of uncapping of stepping down fast, reduces user latency.

Specifically, the first food container 21 includes a first container body 211 and a first lid 213, and the first lid 213 is sealed at the open end of the first container body 211, so that the first cooking cavity 212 inside the first container body 211 is relatively sealed to achieve a pressure cooking effect. The bottom wall of the first container body 211 can be attached to the heating plate 151 so that the heating plate 151 heats the first container body 211, and the fan assembly 14 can be controlled not to be operated during the pressure cooking.

As shown in fig. 2, 3 and 4, in a state where the cooking appliance 2 is in the air-fry cooking mode, the second food container 22 is placed in the receiving cavity, the bottom wall of the second food container 22 is supported on the support plate 153, and the bottom wall of the second food container 22 is not in contact with the heating plate 151. The heating tube 152 may heat the air in the receiving cavity, and the heated air may heat the food in the receiving cavity of the second food container 22, wherein the pressure cooking mode is different from the air-fry cooking mode.

Specifically, the second food container 22 includes a second container body 221 and a second lid 223, the second lid 223 is covered at the top opening of the pot body assembly 1, an air passage is provided between the second lid 223 and the second container body 221, the air passage is the top passage of the second cooking cavity 222 formed by the second container body 221, the air hole provided at the bottom of the second container body 221 can be communicated with the vent hole on the support plate 153 to form the bottom passage of the second cooking cavity 222, thereby realizing the hot air circulation in the air-frying cooking mode.

The pot body assembly 1 comprises a body 10, an outer pot 11, a conducting piece, an air outlet 102 and a fan assembly 14, wherein an air inlet is formed in the body 10 and used for allowing outside cold air to enter. At least a part of outer pot 11 is established in body 10, and outer pot 11 self encloses to establish and forms and hold the chamber, holds the chamber and is used for placing food container to realize the culinary art function, at the culinary art in-process, the inside temperature of outer pot 11 is higher. Wherein, an air duct 12 is arranged between the outer pot 11 and the body 10, the air duct 12 is communicated with an air inlet, cold air enters the air duct 12 through the air inlet, and the cold air flowing in the air duct 12 can disturb hot air in the air duct 12. The air guide 13 is provided in the air duct 12, and specifically, the air guide 13 may be connected to at least one of the main body 10 and the outer pot 11, thereby ensuring positional stability of the air guide 13. The air guide 13 is provided with an air inlet 130 communicated with the air duct 12, the air guide 13 can form a first air guide channel 13a with the outer pot 11, or the air guide 13 can form a first air guide channel 13a with the body 10, the air guide channel is communicated with the outside through an air outlet 102 arranged on the air guide 13 and/or the body 10, the air guide 13 can guide cold air to flow according to a specified passage after entering the air duct 12, turbulence can not occur, heat can be timely discharged, and heat dissipation performance is improved.

Further, the fan assembly 14 is located at the bottom of the pot body assembly 1, at least a portion of the fan assembly 14 is located in the first air guiding channel 13a, and the fan assembly 14 is operated to form a negative pressure at the first air guiding channel 13a, so that outside cold air is sucked into the air duct 12 through the air inlet and then enters the first air guiding channel 13a through the air outlet 130. That is, the fan assembly 14 acts to disrupt the flow of air.

To this end, the outer pot 11, the body 10 and the air guide 13 constitute a heat dissipation path capable of realizing air circulation inside the pot body assembly 1, specifically, outside cold air enters the air duct 12 through the air inlet, then enters the first air guide channel 13a through the air passing opening 130, and finally is discharged to the outside environment through the air outlet 102.

Outer pot 11, body 10 and air guide 13 form the circulation heat dissipation route jointly in this application, and the cold air can take away the heat in wind channel 12 along the heat dissipation route flow in-process, realizes the heat dissipation circulation, ensures the heat dissipation of pot body subassembly 1 inside air, avoids the internal electric component of pot body subassembly 1 because be in the potential safety hazard that probably exists under the high temperature environment for a long time, and simple structure just saves the cost, can reduce the temperature of body 10.

Further, as shown in fig. 1, fig. 2, fig. 3 and fig. 5, the first wind guiding channel 13a is located between the wind guiding member 13 and the bottom of the outer pot 11, that is, the first wind guiding channel 13a is enclosed by the bottom of the outer pot 11 and the wind guiding member 13, and considering the arrangement of the heat source in the cooking utensil 2, the heat source is generally disposed at the bottom of the outer pot 11 or at the bottom of the food container inside the outer pot 11, so as to facilitate the movement tendency of the heat from bottom to top. Here, the first air guiding channel 13a is formed at the bottom of the outer pot 11, so that the heat can be radiated in a targeted manner at a position where the heat is concentrated, the heat can be taken away quickly and in a large amount, and potential safety hazards caused by the fact that the heat is concentrated too high at the position can be prevented.

Further, the air guide 13 may form a first air guide channel 13a with the outer pot 11 and the main body 10, the air outlet 102 is provided on the main body 10, and the air guide 13 may have a bent plate-like structure.

Further, as shown in fig. 2, the air guide 13 further includes a second air guide channel 13b, a first end of the second air guide channel 13b is communicated with the inside of the outer pot 11, and a second end of the second air guide channel 13b is communicated with the air outlet 102, that is, the second air guide channel 13b can discharge hot air, hot steam and the like inside the outer pot 11 to the outside, and can improve the cooking effect of the cooking appliance 2 having the pot body assembly 1. In order to communicate the second air guiding channel 13b with the inside of the outer pot 11, a communication port is provided in the outer pot 11, and the second air guiding channel 13b communicates with the inside of the outer pot 11 through the communication port.

The second air guide passage 13b may be formed by the air guide 13 alone, or the air guide 13 and the outer pot 11 may be formed together.

Further, a portion of the fan assembly 14 extends into the interior of the outer pot 11 to disturb the airflow inside the outer pot 11, so that the airflow inside the outer pot 11 can be discharged to the outside through the second air guiding channel 13 b.

It should be noted that the first wind guiding channel 13a and the second wind guiding channel 13b share one wind outlet 102, so that the heat inside the outer pot 11 can be effectively driven by the cold wind blade 142.

Further, as shown in fig. 1, the main body 10 is provided with an installation notch 103, the installation notch 103 is communicated with the air duct 12, and the installation notch 103 is used for assembling the air guide 13. The first part of the air guide 13 is connected with the outer pot 11, the second part of the air guide 13 protrudes towards the direction departing from the fan assembly 14, an air outlet 102 is arranged on the part, and the second part of the air guide 13 is embedded in the installation notch 103. That is to say, the first air guiding channel 13a and the second air guiding channel 13b are made of one component as much as possible, so that splicing seams and the like which may exist in the process of splicing a plurality of components to form the first air guiding channel 13a and the second air guiding channel 13b can be reduced, air flows can flow in the first air guiding channel 13a and the second air guiding channel 13b which are continuous and smooth, and the assembly difficulty can also be reduced.

Further, as shown in fig. 1 and fig. 2, the air guide 13 includes a first end plate 131, a partition 134 and a second end plate 132 arranged from bottom to top, the first end plate 131 is a bottom end plate, the second end plate 132 is a top end plate, a surrounding plate 133 is disposed between an outer edge of the first end plate 131 and an outer edge of the second end plate 132, the surrounding plate 133, the first end plate 131 and the second end plate 132 surround to form an air guide cavity, the partition 134 is disposed between the surrounding plate 133 and the outer pot 11, and the partition 134 partitions the air guide cavity into a second air guide channel 13b and a first air guide channel 13a arranged in an up-down direction, that is, the first air guide channel 13a is located below, and the second air guide channel 13b is located above.

Wherein, wind-guiding piece 13 formula structure as an organic whole, first end plate 131, baffle 134 and second end plate 132 can be formed through integrated into one piece technology processing promptly, not only can promote the reliable connectivity between first end plate 131, baffle 134 and the second end plate 132, also can reduce the production and processing degree of difficulty simultaneously, promotes wind-guiding piece 13's assembly efficiency.

Further, as shown in fig. 1 and fig. 2, the air inlets include a first air inlet 101a and a second air inlet 101b, the first air inlet 101a is disposed below the air outlet 102, and the second air inlet 101b is disposed above the air outlet 102, that is, the cold air can enter the air duct 12 from the upper side and the lower side, if only the second air inlet 101b is provided, when the cold air reaches the first air guiding channel 13a after flowing through the air duct 12, the air temperature may be approximately equal to the temperature at the first air guiding channel 13a, and the purpose of heat exchange cannot be achieved. If the air inlet includes the first air inlet 101a, the cold air entering from the bottom can be rapidly exchanged with the heat of the fan assembly 14 and the heat of the first air guiding channel 13a, so as to achieve the purpose of rapid cooling and heat dissipation.

Specifically, when the body 10 is substantially "U" shaped, the body 10 has a side wall and a bottom wall, the second air inlet 101b is located above the side wall, the first air inlet 101a is located on the bottom wall, and the air outlet 102 is located below the side wall. At this time, after the cold air from the upper and lower directions enters the air duct 12 for circulation, the cold air can be exhausted from the air outlet 102 through the first air guiding passage 13 a.

Further, as shown in fig. 1 and 2, the body 10 includes a base 104 and a housing 105, the base 104 and the housing 105 are detachably connected, a portion of the base 104 is recessed to form a first notch, a portion of the housing 105 is recessed to form a second notch, and when the base 104 and the housing 105 are assembled, the first notch and the second notch correspond to each other and form the installation notch 103. The air guide 13 extends into the installation gap 103, one part of the air guide 13 is in contact with the base 104, the other part of the air guide 13 is in contact with the outer shell 105, the body 10 is formed by the base 104 and the outer shell 105, the processing difficulty is reduced, meanwhile, the parts of the installation gap 103 are respectively processed on the base 104 and the outer shell 105, and the assembling process between the air guide 13 and the body 10 can be simplified.

Furthermore, a first air inlet 101a is formed in the base 104, a second air inlet 101b is formed in the housing 105, the first air inlet 101a supplies air downwards, the second air inlet 101b supplies air upwards, and cold air from different directions enters the air duct 12 and then enters the first air guide channel 13a through the guide of the fan assembly 14, so that the rapid heat dissipation of the pot body assembly 1 is realized.

Further, as shown in fig. 2, 3 and 5, the fan assembly 14 includes a hot air blade 141, a cold air blade 142 and a driving motor 143, the hot air blade 141 is located inside the outer pot 11, the hot air blade 141 is used for disturbing the air flow inside the outer pot 11, a communication port is provided on the outer pot 11, the second wind guiding channel 13b is communicated with the inside of the outer pot 11 through the communication port, and under the action of the hot air blade 141, the hot air and the hot steam inside the outer pot 11 can be discharged to the outside from the second wind guiding channel 13 b. The cold wind blade 142 is located in the first wind guiding channel 13a, and when the cold wind blade 142 rotates, a negative pressure can be formed in the first wind guiding channel 13a, so that cold air enters the wind channel 12 through the wind inlet, then enters the first wind guiding channel 13a through the wind passing opening 130, and finally is discharged from the wind outlet 102. Under the effect of cold wind fan blade 142, the air circulates between outer pot 11 and body 10 to realize the effective heat dissipation to the part between outer pot 11 and body 10, avoid the heat to transmit to body 10 too much, and the potential safety hazard that probably exists.

Further, the fan assembly 14 further includes a driving motor 143, the driving motor 143 includes a driving motor 1431 and a transmission shaft 1432 connected to the driving motor 1431, the transmission shaft 1432 extends into the first wind guiding channel 13a and the interior of the outer pot 11 from bottom to top, and is connected to the cold wind blade 142 and the hot wind blade 141 respectively, and the transmission shaft 1432 can drive the cold wind blade 142 and the hot wind blade 141 to operate simultaneously during the operation process, so that the structure is compact.

Further, as shown in fig. 2, fig. 3 and fig. 5, the pot body assembly 1 further includes a heating assembly 15, the heating assembly 15 is integrally disposed on the outer pot 11, the heating assembly 15 is located inside the outer pot 11, and the heating assembly 15 can heat the food container located inside the outer pot 11, so as to achieve a cooking function. This application is through establishing heating element 15 integration on outer pot 11, can simplify food container's structure, need not additionally to set up the heater block on making food container, and the structure is light and handy, and the user of being convenient for takes, simultaneously because food container has higher clean frequency, also can not cause the damage of heater block because of the high frequency to food container is clean, makes cooking utensil 2's complete machine security performance effectively improve.

Further, as shown in fig. 4 and fig. 6, the heating assembly 15 includes two heating sources, specifically, a heating plate 151 and a heating pipe 152, the heating plate 151 is disposed on the outer pot 11 in an overhead manner, a gap is provided between the heating plate 151 and the bottom wall of the outer pot 11, the gap is used for accommodating a part of the fan assembly 14, and specifically, the hot air blade 141 in the fan assembly 14 is located between the heating plate 151 and the bottom of the pot. The heating pipe 152 is arranged between the heating plate 151 and the bottom of the outer pot 11, and the heating pipe 152 is arranged around the periphery of the hot wind blade 141. The heating pipe 152 and the heating plate 151 are started and stopped relatively independently or in a mutual correlation manner. Under different cooking modes, different heating sources can be selected for heating. For example, when the cooking device 2 having the pot assembly 1 is in the pressure cooking mode, the heating plate 151 can be controlled to be opened and the heating pipe 152 can be controlled to be closed. When the cooking utensil 2 with the pot body assembly 1 is in the air-frying cooking mode, the heating pipe 152 can be controlled to be opened, and the heating plate 151 is controlled to be closed. Under the air-fry cooking mode, hot-air fan blade 141 rotates and blows to heating pipe 152, and then blows the hot air that heating pipe 152 department has been heated to food to realize culinary art effects such as toasting.

Further, as shown in fig. 4 and 6, when the pot assembly 1 is in the air-fry cooking mode, the upper and lower ends of the cooking cavity need to allow air circulation in order to circulate the hot air in the cooking cavity of the food container inside the outer pot 11. Therefore, the heating plate 151 at the bottom of the outer pot 11 has a mounting opening, a supporting plate 153 for supporting a food container is arranged at the mounting opening, a vent capable of communicating with the inside of the food container is arranged on the supporting plate 153, in the hot air circulation process, air inside the food container can enter the central area of the heating pipe 152 through the vent, under the action of the hot air fan blade 141, the air can be blown to the heating pipe 152 to realize reheating, the reheated hot air can enter the cooking cavity again from the upper end of the cooking cavity through the guide of the air duct 12, and therefore in the air-frying cooking mode, the hot air is circulated repeatedly to bake food materials in the cooking cavity.

Further, as shown in fig. 1 and 2, the pot body assembly 1 further includes a supporting member 16, the supporting member 16 is disposed between the air guide 13 and the body 10, and the supporting member 16 is disposed to enable an installation space to be provided between the air guide 13 and the body 10 to accommodate the driving motor 1431 in the fan assembly 14 or other electrical components, and at the same time, a certain distance can be provided between the base 104 of the body 10 and the heating assembly 15 to prevent the placing table of the cooking utensil 2 from bearing a high temperature.

Further, as shown in fig. 1 and 2, the support 16 includes a plurality of first support columns 161 and a plurality of second support columns 162, and the plurality of first support columns 161 are provided on the air guide 13. A plurality of second support columns 162 are arranged on the bottom wall of the body 10, and the plurality of second support columns 162 and the plurality of first support columns 161 are connected in a one-to-one correspondence manner, so that the air guide member 13 is supported in an all-dimensional manner, and the arrangement of other parts in the pot body assembly 1 can be adapted as far as possible, and the avoidance possibility is provided.

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, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (16)

1. A pan body assembly, comprising:

the air conditioner comprises a body, wherein an air inlet is formed in the body;

at least one part of the outer pot is arranged in the body, and an air duct is arranged between the outer pot and the body;

the air guide piece is positioned in the air duct and is connected with at least one of the body and the outer pot, the air guide piece is provided with an air passing opening and a first air guide channel which are communicated, and the first air guide channel is communicated with the air duct through the air passing opening;

the air outlet is arranged on the air guide piece and/or the body and is communicated with the first air guide channel;

and at least one part of the fan assembly is positioned in the first air guide channel, and the fan assembly is used for guiding air to enter the air channel from the air inlet and then to be discharged from the air outlet through the first air guide channel.

2. The pan body assembly of claim 1,

the first air guide channel is positioned between the air guide piece and the bottom of the outer pot.

3. The pan body assembly of claim 2,

the air guide piece further comprises a second air guide channel, the second air guide channel is communicated with the inside of the outer pot and the air outlet respectively, and one part of the fan assembly is located in the second air guide channel.

4. The pan body assembly of claim 3,

the body is provided with an installation gap which is communicated with the air duct;

the first part of air guide with outer pot links to each other, the second part of air guide is towards deviating from fan subassembly's direction protrusion, be equipped with on the second part of air guide the air outlet, the second part of air guide is located in the installation breach.

5. The pan body assembly of claim 4, wherein the air guide comprises:

the first end plate and the second end plate are arranged in the air channel at intervals, a part of the first end plate and a part of the second end plate are positioned in the mounting notch, and the first end plate is provided with the air passing opening;

the coaming is arranged between the first end plate and the second end plate, and the air outlet is formed in the coaming;

the baffle is connected the outer pot with between the bounding wall, the baffle with have between the first end plate first wind-guiding passageway, the baffle with have between the second end plate second wind-guiding passageway.

6. The pan body assembly of any one of claims 1 to 5,

the air inlet comprises a first air inlet and a second air inlet, and the air outlet is positioned between the first air inlet and the second air inlet.

7. The pan body assembly of claim 6, wherein the body comprises:

the base is provided with the first air inlet;

the shell is detachably arranged on the base, and the shell is provided with the second air inlet.

8. The pan body assembly of any one of claims 1 to 5, wherein the fan assembly comprises:

the hot air fan blade is positioned inside the outer pot;

the cold air fan blade is positioned in the first air guide channel;

the driving motor of the driving motor is positioned in the air duct, and a transmission shaft of the driving motor is connected with the cold air fan blade and the hot air fan blade.

9. The pan body assembly of any one of claims 1 to 5, further comprising:

and the heating component is arranged on the outer pot and positioned in the outer pot.

10. The pan body assembly of claim 9, wherein the heating assembly comprises:

the heating plate is spaced from the outer pot, and one part of the fan assembly is positioned between the heating plate and the bottom of the outer pot;

and the heating pipe is arranged between the heating plate and the bottom of the outer pot.

11. The pan body assembly of claim 10, wherein the heating assembly further comprises:

the mounting port is arranged on the heating plate;

the backup pad is located installing port department and with the hot plate is connected, be equipped with the vent in the backup pad.

12. The pan body assembly of any one of claims 1 to 5, further comprising:

and the supporting piece is arranged between the air guide piece and the body.

13. The pan assembly of claim 12, wherein the support member comprises:

a plurality of first support columns provided on the air guide;

and the plurality of second supporting columns are arranged on the bottom wall of the body, and the plurality of second supporting columns and the plurality of first supporting columns are connected in a one-to-one correspondence manner.

14. A cooking appliance, comprising: the pan body assembly of any one of claims 1 to 13;

the food container is detachably arranged on the pot body component.

15. The cooking appliance of claim 14,

the outer pot of pot body subassembly has and holds the chamber, food container place in hold the intracavity, food container with have the clearance between the outer pot, the fan subassembly of pot body subassembly can drive hold the air flow of intracavity.

16. The cooking appliance of claim 15,

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;

when the first food container is placed in the accommodating cavity, the first food container is attached to the heating plate of the pot body assembly;

and the second food container is arranged on the supporting plate of the pot body assembly under the state that the second food container is placed in the accommodating cavity.

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